:: SCMFSA8C semantic presentation

REAL is non empty V5() V34() V46() set
NAT is non empty epsilon-transitive epsilon-connected ordinal Element of K32(REAL)
K32(REAL) is set
SCM+FSA is non empty V84(3) IC-Ins-separated strict V92(3) with_explicit_jumps IC-relocable V147(3) AMI-Struct over 3
3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
the carrier of SCM+FSA is non empty set
NAT is non empty epsilon-transitive epsilon-connected ordinal set
K32(NAT) is set
K32(NAT) is set
9 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Segm 9 is Element of K32(NAT)
Int-Locations is non empty set
K300() is set
K32(K300()) is set
2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
K33(K300(),2) is Relation-like set
K32(K33(K300(),2)) is set
K302() is Relation-like K300() -defined 2 -valued Function-like V31(K300(),2) Element of K32(K33(K300(),2))
K303() is non empty Relation-like 2 -defined Function-like total set
K302() * K303() is Relation-like K300() -defined Function-like total set
K263((K302() * K303())) is set
K294() is non empty set
K139(K263((K302() * K303())),K263((K302() * K303()))) is set
K33(K294(),K139(K263((K302() * K303())),K263((K302() * K303())))) is Relation-like set
K32(K33(K294(),K139(K263((K302() * K303())),K263((K302() * K303()))))) is set
K32( the carrier of SCM+FSA) is set
the InstructionsF of SCM+FSA is non empty Relation-like standard-ins V54() J/A-independent V57() set
INT is non empty V5() V34() V46() set
Int-Locations is non empty Element of K32( the carrier of SCM+FSA)
K337(Int-Locations) is V99() set
K32(Int-Locations) is set
FinSeq-Locations is non empty V5() V34() V46() Element of K32( the carrier of SCM+FSA)
K337(FinSeq-Locations) is V99() set
K32(FinSeq-Locations) is set
K274(3,SCM+FSA) is non empty Relation-like non-empty non empty-yielding the carrier of SCM+FSA -defined Function-like total set
the Object-Kind of SCM+FSA is Relation-like the carrier of SCM+FSA -defined 3 -valued Function-like V31( the carrier of SCM+FSA,3) Element of K32(K33( the carrier of SCM+FSA,3))
K33( the carrier of SCM+FSA,3) is Relation-like set
K32(K33( the carrier of SCM+FSA,3)) is set
the U7 of SCM+FSA is non empty Relation-like 3 -defined Function-like total set
the Object-Kind of SCM+FSA * the U7 of SCM+FSA is non empty Relation-like the carrier of SCM+FSA -defined Function-like total set
COMPLEX is non empty V5() V34() V46() set
K406() is non empty V84(2) IC-Ins-separated strict strict V92(2) AMI-Struct over 2
the InstructionsF of K406() is non empty Relation-like standard-ins V54() J/A-independent V57() set
the carrier of K406() is non empty set
K274(2,K406()) is non empty Relation-like non-empty non empty-yielding the carrier of K406() -defined Function-like total set
the Object-Kind of K406() is Relation-like the carrier of K406() -defined 2 -valued Function-like V31( the carrier of K406(),2) Element of K32(K33( the carrier of K406(),2))
K33( the carrier of K406(),2) is Relation-like set
K32(K33( the carrier of K406(),2)) is set
the U7 of K406() is non empty Relation-like 2 -defined Function-like total set
the Object-Kind of K406() * the U7 of K406() is non empty Relation-like the carrier of K406() -defined Function-like total set
RAT is non empty V5() V34() V46() set
K33(NAT,K32(NAT)) is Relation-like set
K32(K33(NAT,K32(NAT))) is set
FinPartSt SCM+FSA is non empty Element of K32(K267(K274(3,SCM+FSA)))
K267(K274(3,SCM+FSA)) is set
K32(K267(K274(3,SCM+FSA))) is set
{ b₁ where b₁ is Element of K267(K274(3,SCM+FSA)) : b₁ is V34() } is set
K33((FinPartSt SCM+FSA),(FinPartSt SCM+FSA)) is Relation-like set
K32(K33((FinPartSt SCM+FSA),(FinPartSt SCM+FSA))) is set
1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
{} is empty Relation-like non-empty empty-yielding NAT -defined Function-like one-to-one constant functional ext-real non positive non negative epsilon-transitive epsilon-connected ordinal T-Sequence-like c=-linear natural V27() V28() V29() V34() V35() V38() V42() V43() V44() initial Function-yielding V109() set
0 is empty Relation-like non-empty empty-yielding NAT -defined Function-like one-to-one constant functional ext-real non positive non negative epsilon-transitive epsilon-connected ordinal T-Sequence-like c=-linear natural V27() V28() V29() V34() V35() V38() V42() V43() V44() initial Function-yielding V109() Element of NAT
halt SCM+FSA is ins-loc-free V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V146(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
halt the InstructionsF of SCM+FSA is ins-loc-free with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
K15(0,{},{}) is set
Stop SCM+FSA is non empty V5() Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like constant T-Sequence-like V34() initial non halt-free V61( SCM+FSA ) V62( SCM+FSA ) keeping_0 good V149(3, SCM+FSA ) paraclosed parahalting set
K221((halt SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
4 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto 2 is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
intloc 0 is V95() read-only Element of the carrier of SCM+FSA
5 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
6 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
7 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
10 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
12 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
8 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
IC is V71( SCM+FSA ) Element of the carrier of SCM+FSA
K81(NAT,0,1) is non empty V34() Element of K32(NAT)
(intloc 0) .--> 1 is V5() Relation-like the carrier of SCM+FSA -defined {(intloc 0)} -defined {(intloc 0)} -defined NAT -valued Function-like one-to-one constant K274(3,SCM+FSA) -compatible V34() data-only set
{(intloc 0)} is non empty V34() set
{(intloc 0)} --> 1 is non empty Relation-like non-empty non empty-yielding {(intloc 0)} -defined NAT -valued {1} -valued Function-like constant total V31({(intloc 0)},{1}) V34() Element of K32(K33({(intloc 0)},{1}))
{1} is non empty V34() V45() V46() set
K33({(intloc 0)},{1}) is Relation-like V34() set
K32(K33({(intloc 0)},{1})) is V34() V38() set
Initialize ((intloc 0) .--> 1) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible V34() 0 -started set
Start-At (0,SCM+FSA) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible V34() 0 -started set
(IC ) .--> 0 is V5() Relation-like the carrier of SCM+FSA -defined {(IC )} -defined NAT -valued Function-like one-to-one constant V34() Function-yielding V109() set
{(IC )} is non empty V34() set
{(IC )} --> 0 is non empty Relation-like {(IC )} -defined NAT -valued {0} -valued Function-like constant total V31({(IC )},{0}) V34() Function-yielding V109() Element of K32(K33({(IC )},{0}))
{0} is non empty functional V34() V38() set
K33({(IC )},{0}) is Relation-like V34() set
K32(K33({(IC )},{0})) is V34() V38() set
((intloc 0) .--> 1) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible V34() 0 -started set
dom (Initialize ((intloc 0) .--> 1)) is V34() set
K81( the carrier of SCM+FSA,(intloc 0),(IC )) is non empty V34() Element of K32( the carrier of SCM+FSA)
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
pseudo-LifeSpan (s,P,a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),(pseudo-LifeSpan (s,P,a))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* a),(Initialize s),(pseudo-LifeSpan (s,P,a)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),(pseudo-LifeSpan (s,P,a)))) . (IC ) is set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card P) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
Reloc (s,(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc (s,(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
a -' (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
s . (a -' (card P)) is set
(P ";" s) . a is set
(card s) + (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
a + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
a - (card P) is ext-real V27() V28() V29() set
(card s) - 0 is ext-real non negative V27() V28() V29() set
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
b is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr (b,(card P)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(a -' (card P)) + (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(a - (card P)) + (card P) is ext-real V27() V28() V29() set
{ (b₁ + (card P)) where b₁ is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT : b₁ in dom s } is set
dom (Reloc (s,(card P))) is V34() V126() set
(Reloc (s,(card P))) . a is set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec (a,P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* a),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a +* P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
{0,6,7,8} is V34() set
P is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart P is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
P | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
s is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
InsCode s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of InsCodes the InstructionsF of SCM+FSA
InsCodes the InstructionsF of SCM+FSA is non empty set
K23( the InstructionsF of SCM+FSA) is set
Exec (s,P) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,s) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,s) . P is set
DataPart (Exec (s,P)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Exec (s,P)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
a is V95() Element of the carrier of SCM+FSA
(Exec (s,P)) . a is ext-real V27() V28() V29() set
P . a is ext-real V27() V28() V29() set
b is FinSeq-Location
(Exec (s,P)) . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
a is V95() Element of the carrier of SCM+FSA
(Exec (s,P)) . a is ext-real V27() V28() V29() set
P . a is ext-real V27() V28() V29() set
b is FinSeq-Location
(Exec (s,P)) . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
goto c is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a is V95() Element of the carrier of SCM+FSA
(Exec (s,P)) . a is ext-real V27() V28() V29() set
P . a is ext-real V27() V28() V29() set
b is FinSeq-Location
(Exec (s,P)) . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
I2 is V95() Element of the carrier of SCM+FSA
I2 =0_goto c is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a is V95() Element of the carrier of SCM+FSA
(Exec (s,P)) . a is ext-real V27() V28() V29() set
P . a is ext-real V27() V28() V29() set
b is FinSeq-Location
(Exec (s,P)) . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P . b is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
I2 is V95() Element of the carrier of SCM+FSA
I2 >0_goto c is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec ((Stop SCM+FSA),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (Stop SCM+FSA)),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Comput ((P +* (Stop SCM+FSA)),(Initialize (Initialized s)),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Initialize (Initialized s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize (Initialized s)) . (IC ) is set
(P +* (Stop SCM+FSA)) /. (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (Stop SCM+FSA)) . (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(Stop SCM+FSA) . 0 is set
dom (Stop SCM+FSA) is non empty V5() ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
CurInstr ((P +* (Stop SCM+FSA)),(Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (Stop SCM+FSA)) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (IExec ((Stop SCM+FSA),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((Stop SCM+FSA),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I2 is set
dom (IExec ((Stop SCM+FSA),P,s)) is non empty set
(IExec ((Stop SCM+FSA),P,s)) . I2 is set
(Initialized s) . I2 is set
(IExec ((Stop SCM+FSA),P,s)) . I2 is set
(Initialized s) . I2 is set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
(IExec ((Stop SCM+FSA),P,s)) . I2 is set
(Start-At (0,SCM+FSA)) . (IC ) is set
s +* ((intloc 0) .--> 1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(s +* ((intloc 0) .--> 1)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
((s +* ((intloc 0) .--> 1)) +* (Start-At (0,SCM+FSA))) . I2 is set
(s +* (Initialize ((intloc 0) .--> 1))) . I2 is set
(Initialized s) . I2 is set
dom (Initialized s) is non empty set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Comput ((P +* a),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* a),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),0)) . (IC ) is set
b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
b . (IC ) is set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
a . (IC ) is set
P . (IC a) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
c . 0 is set
P +* c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput (P,a,0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,0)) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Reloc (c,I) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,I) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,I)),I) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,D)) . (IC ) is set
(IC (Comput (P,a,D))) + I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,D)) . (IC ) is set
CurInstr (P,(Comput (P,a,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,D)))),I) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (s,(Comput (s,b,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput (P,a,D)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,D)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,D)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,D)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (P,a,0)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,0)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput (s,b,0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput (s,b,0)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,0)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,sa)) . (IC ) is set
(IC (Comput (P,a,sa))) + I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,sa)) . (IC ) is set
CurInstr (P,(Comput (P,a,sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,sa)))),I) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (s,(Comput (s,b,sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput (P,a,sa)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,sa)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,sa)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,sa)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
sa + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput (P,a,(sa + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,(sa + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,(sa + 1))) . (IC ) is set
(IC (Comput (P,a,(sa + 1)))) + I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,(sa + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,(sa + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,(sa + 1))) . (IC ) is set
CurInstr (P,(Comput (P,a,(sa + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,(sa + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,(sa + 1))))),I) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (s,(Comput (s,b,(sa + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,(sa + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput (P,a,(sa + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,(sa + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,(sa + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,(sa + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Following (P,(Comput (P,a,sa))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr (P,(Comput (P,a,sa)))),(Comput (P,a,sa))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,a,sa))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,a,sa))))) . (Comput (P,a,sa)) is set
Following (s,(Comput (s,b,sa))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr (s,(Comput (s,b,sa)))),(Comput (s,b,sa))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s,(Comput (s,b,sa))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s,(Comput (s,b,sa))))) . (Comput (s,b,sa)) is set
dom (Reloc (c,I)) is V34() V126() set
s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
s0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P . (IC (Comput (P,a,(sa + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
c . s is set
s + I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Reloc (c,I)) . (s + I) is set
s . (IC (Comput (s,b,(sa + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
0 + I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Reloc (c,I)) is V34() V126() set
P /. (IC a) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC b) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s . (IC b) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (P,(Comput (P,a,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,0)))),I) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(Reloc (c,I)) . (0 + I) is set
CurInstr (s,(Comput (s,b,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (s,b,0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,0)) . (IC ) is set
s /. (IC (Comput (s,b,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(IC (Comput (P,a,0))) + I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Reloc (c,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,0) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,0)),0) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,I2)) . (IC ) is set
Comput (s,b,I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,I2)) . (IC ) is set
CurInstr (P,(Comput (P,a,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (s,(Comput (s,b,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput (P,a,I2)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,I2)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,I2)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,I2)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
(IC (Comput (P,a,I2))) + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
IC b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
b . (IC ) is set
Initialize b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
IC (Initialize b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize b) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
IncAddr ((CurInstr (P,(Comput (P,a,I2)))),0) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
LifeSpan (P,a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
LifeSpan (s,b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (s,(Comput (s,b,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (s,b,I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,I2)) . (IC ) is set
s /. (IC (Comput (s,b,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (P,a,I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (P,(Comput (P,a,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (P,a,I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,I2)) . (IC ) is set
P /. (IC (Comput (P,a,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (P,a,(LifeSpan (P,a))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (P,(Comput (P,a,(LifeSpan (P,a))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (P,a,(LifeSpan (P,a)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,(LifeSpan (P,a)))) . (IC ) is set
P /. (IC (Comput (P,a,(LifeSpan (P,a))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (s,b,(LifeSpan (P,a))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (s,(Comput (s,b,(LifeSpan (P,a))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (s,b,(LifeSpan (P,a)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,(LifeSpan (P,a)))) . (IC ) is set
s /. (IC (Comput (s,b,(LifeSpan (P,a))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a . (intloc 0) is ext-real V27() V28() V29() set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
IExec (I2,P,a) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* I2),(Initialized a)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec (I2,P,a)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec (I2,P,a)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec (I2,s,b) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((s +* I2),(Initialized b)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec (I2,s,b)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec (I2,s,b)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
DataPart (Initialized a) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized a) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
s0 is V95() non read-only Element of the carrier of SCM+FSA
(Initialized a) . s0 is ext-real V27() V28() V29() set
a . s0 is ext-real V27() V28() V29() set
b . s0 is ext-real V27() V28() V29() set
(Initialized b) . s0 is ext-real V27() V28() V29() set
s0 is FinSeq-Location
(Initialized a) . s0 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
a . s0 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
b . s0 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Initialized b) . s0 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Initialized a) . (intloc 0) is ext-real V27() V28() V29() set
(Initialize ((intloc 0) .--> 1)) . (intloc 0) is set
(Initialized b) . (intloc 0) is ext-real V27() V28() V29() set
DataPart (Initialized b) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized b) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
LifeSpan ((P +* I2),(Initialized a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* I2),(Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) . (IC ) is set
(P +* I2) /. (IC (Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((s +* I2),(Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) . (IC ) is set
(s +* I2) /. (IC (Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
LifeSpan ((s +* I2),(Initialized b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
DataPart (Result ((P +* I2),(Initialized a))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* I2),(Initialized a))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Result ((s +* I2),(Initialized b))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((s +* I2),(Initialized b))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a . (intloc 0) is ext-real V27() V28() V29() set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
IExec (I2,P,a) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* I2),(Initialized a)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec (I2,P,a)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec (I2,P,a)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec (I2,s,b) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((s +* I2),(Initialized b)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec (I2,s,b)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec (I2,s,b)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
DataPart (Initialized a) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized a) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b . (intloc 0) is ext-real V27() V28() V29() set
Initialize b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
DataPart (Initialized b) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized b) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
LifeSpan ((P +* I2),(Initialized a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* I2),(Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) . (IC ) is set
(P +* I2) /. (IC (Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((s +* I2),(Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) . (IC ) is set
(s +* I2) /. (IC (Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
LifeSpan ((s +* I2),(Initialized b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
DataPart (Result ((P +* I2),(Initialized a))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* I2),(Initialized a))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* I2),(Initialized a),(LifeSpan ((P +* I2),(Initialized a))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((s +* I2),(Initialized b),(LifeSpan ((P +* I2),(Initialized a))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Result ((s +* I2),(Initialized b))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((s +* I2),(Initialized b))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
pseudo-LifeSpan (s,P,a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
pseudo-LifeSpan ((Initialize s),(P +* a),a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Initialize (Initialize s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialize s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(P +* a) +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (((P +* a) +* a),(Initialize (Initialize s)),I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (((P +* a) +* a),(Initialize (Initialize s)),I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (((P +* a) +* a),(Initialize (Initialize s)),I2)) . (IC ) is set
I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (((P +* a) +* a),(Initialize (Initialize s)),I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (((P +* a) +* a),(Initialize (Initialize s)),I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (((P +* a) +* a),(Initialize (Initialize s)),I2)) . (IC ) is set
Comput (((P +* a) +* a),(Initialize (Initialize s)),(pseudo-LifeSpan (s,P,a))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (((P +* a) +* a),(Initialize (Initialize s)),(pseudo-LifeSpan (s,P,a)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (((P +* a) +* a),(Initialize (Initialize s)),(pseudo-LifeSpan (s,P,a)))) . (IC ) is set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
b . (IC ) is set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
pseudo-LifeSpan (a,P,c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P +* c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Reloc (c,I2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,I2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,I2)),I2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,D)) . (IC ) is set
(IC (Comput (P,a,D))) + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,D)) . (IC ) is set
CurInstr (P,(Comput (P,a,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,D)))),I2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (s,(Comput (s,b,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput (P,a,D)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,D)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,D)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,D)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
D + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput (P,a,(D + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,(D + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,(D + 1))) . (IC ) is set
(IC (Comput (P,a,(D + 1)))) + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,(D + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,(D + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,(D + 1))) . (IC ) is set
CurInstr (P,(Comput (P,a,(D + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,(D + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,(D + 1))))),I2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (s,(Comput (s,b,(D + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,(D + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput (P,a,(D + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,(D + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,(D + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,(D + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Following (P,(Comput (P,a,D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr (P,(Comput (P,a,D)))),(Comput (P,a,D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,a,D))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,a,D))))) . (Comput (P,a,D)) is set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Following (s,(Comput (s,b,D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr (s,(Comput (s,b,D)))),(Comput (s,b,D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s,(Comput (s,b,D))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s,(Comput (s,b,D))))) . (Comput (s,b,D)) is set
D + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Reloc (c,I2)) is V34() V126() set
s is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P . (IC (Comput (P,a,(D + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
c . sa is set
sa + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Reloc (c,I2)) . (sa + I2) is set
s . (IC (Comput (s,b,(D + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (P,a,0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,0)) . (IC ) is set
(IC (Comput (P,a,0))) + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,0)) . (IC ) is set
CurInstr (P,(Comput (P,a,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,0)))),I2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (s,(Comput (s,b,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput (P,a,0)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,0)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,0)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,0)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Comput ((P +* c),(Initialize a),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* c),(Initialize a),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* c),(Initialize a),0)) . (IC ) is set
IC (Initialize a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize a) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
a . (IC ) is set
0 + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Reloc (c,I2)) is V34() V126() set
IC a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P . (IC a) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P . (IC (Start-At (0,SCM+FSA))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
c . 0 is set
P /. (IC a) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC b) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s . (IC b) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(Reloc (c,I2)) . (0 + I2) is set
Comput (P,a,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (P,(Comput (P,a,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (P,a,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,I)) . (IC ) is set
P /. (IC (Comput (P,a,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (s,b,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (s,(Comput (s,b,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (s,b,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,I)) . (IC ) is set
s /. (IC (Comput (s,b,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,I)) . (IC ) is set
(IC (Comput (P,a,I))) + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,I)) . (IC ) is set
DataPart (Comput (P,a,I)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,I)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,I)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,I)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput (P,a,(I + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,(I + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,(I + 1))) . (IC ) is set
(IC (Comput (P,a,(I + 1)))) + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,(I + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,(I + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,(I + 1))) . (IC ) is set
DataPart (Comput (P,a,(I + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,(I + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,(I + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,(I + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
CurInstr (P,(Comput (P,a,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P /. (IC (Comput (P,a,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Following (s,(Comput (s,b,I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (s,(Comput (s,b,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s /. (IC (Comput (s,b,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr (s,(Comput (s,b,I)))),(Comput (s,b,I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s,(Comput (s,b,I))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s,(Comput (s,b,I))))) . (Comput (s,b,I)) is set
(pseudo-LifeSpan (a,P,c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Following (P,(Comput (P,a,I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr (P,(Comput (P,a,I)))),(Comput (P,a,I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,a,I))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,a,I))))) . (Comput (P,a,I)) is set
IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2)),(Comput (s,b,I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2))) . (Comput (s,b,I)) is set
IC (Exec ((IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2)),(Comput (s,b,I)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Exec ((IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2)),(Comput (s,b,I)))) . (IC ) is set
DataPart (Exec ((IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2)),(Comput (s,b,I)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Exec ((IncAddr ((CurInstr (P,(Comput (P,a,I)))),I2)),(Comput (s,b,I)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,I)) . (IC ) is set
(IC (Comput (P,a,I))) + I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s,b,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s,b,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s,b,I)) . (IC ) is set
DataPart (Comput (P,a,I)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,I)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (s,b,I)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (s,b,I)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
a . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialize b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
s +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Reloc (I2,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (I2,0) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (I2,0)),0) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IC (Initialize b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize b) . (IC ) is set
IC (b +* (Start-At (0,SCM+FSA))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(b +* (Start-At (0,SCM+FSA))) . (IC ) is set
DataPart (Initialize a) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize a) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize b) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize b) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
pseudo-LifeSpan (a,P,I2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* I2),(Initialize a),(pseudo-LifeSpan (a,P,I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* I2),(Initialize a),(pseudo-LifeSpan (a,P,I2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialize a),(pseudo-LifeSpan (a,P,I2)))) . (IC ) is set
card I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom I2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
s0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
pseudo-LifeSpan ((Initialize a),(P +* I2),I2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((s +* I2),(Initialize b),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((s +* I2),(Initialize b),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialize b),s0)) . (IC ) is set
Comput ((P +* I2),(Initialize a),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* I2),(Initialize a),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialize a),s0)) . (IC ) is set
(IC (Comput ((P +* I2),(Initialize a),s0))) + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom I2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Comput ((s +* I2),(Initialize b),(pseudo-LifeSpan (a,P,I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((s +* I2),(Initialize b),(pseudo-LifeSpan (a,P,I2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialize b),(pseudo-LifeSpan (a,P,I2)))) . (IC ) is set
Comput ((s +* I2),(Initialize b),(pseudo-LifeSpan ((Initialize a),(P +* I2),I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((s +* I2),(Initialize b),(pseudo-LifeSpan ((Initialize a),(P +* I2),I2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialize b),(pseudo-LifeSpan ((Initialize a),(P +* I2),I2)))) . (IC ) is set
Comput ((P +* I2),(Initialize a),(pseudo-LifeSpan ((Initialize a),(P +* I2),I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* I2),(Initialize a),(pseudo-LifeSpan ((Initialize a),(P +* I2),I2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialize a),(pseudo-LifeSpan ((Initialize a),(P +* I2),I2)))) . (IC ) is set
(IC (Comput ((P +* I2),(Initialize a),(pseudo-LifeSpan ((Initialize a),(P +* I2),I2))))) + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
DataPart s is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
s | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is V95() Element of the carrier of SCM+FSA
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
if=0 (P,s,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
dom (if=0 (P,s,a)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
if>0 (P,s,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
dom (if>0 (P,s,a)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card a) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P =0_goto ((card a) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(P =0_goto ((card a) + 3)) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (P =0_goto ((card a) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(P =0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P =0_goto ((card a) + 3))) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (P =0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))),(card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))))) is Relation-like Function-like set
card (Macro (P =0_goto ((card a) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (P =0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (a,(card (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (a,(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (a,(card (Macro (P =0_goto ((card a) + 3)))))),(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) +* (Reloc (a,(card (Macro (P =0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card s) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card s) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card s) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card s) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card s) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card s) + 1))} -valued Function-like constant total V31({0},{(goto ((card s) + 1))}) V34() Element of K32(K33({0},{(goto ((card s) + 1))}))
{(goto ((card s) + 1))} is non empty V34() set
K33({0},{(goto ((card s) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card s) + 1))})) is V34() V38() set
((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((P =0_goto ((card a) + 3)) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((P =0_goto ((card a) + 3)) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))),(card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))))) is Relation-like Function-like set
card ((P =0_goto ((card a) + 3)) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((P =0_goto ((card a) + 3)) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a)))),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))),(card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))))) is Relation-like Function-like set
card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))),(card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))))) is Relation-like Function-like set
card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) +* (Reloc ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
s ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(s,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop s) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop s)),(card (CutLastLoc (stop s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop s))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop s)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop s))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card s))),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop s))) +* (Reloc ((Stop SCM+FSA),(card s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" (s ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Goto ((card s) + 1)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Goto ((card s) + 1))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Goto ((card s) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Goto ((card s) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Goto ((card s) + 1)))),(card (CutLastLoc (stop (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Goto ((card s) + 1))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Goto ((card s) + 1)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Goto ((card s) + 1))))))) is Relation-like Function-like set
card (Goto ((card s) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card s) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1))))),(card (Goto ((card s) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Goto ((card s) + 1))))) +* (Reloc ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((P =0_goto ((card a) + 3)) ";" a) ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a)))),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) +* (Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(P =0_goto ((card a) + 3)) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P =0_goto ((card a) + 3))) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3)))))),(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) +* (Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
dom (Macro (P =0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
{0,1} is non empty V34() set
P >0_goto ((card a) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(P >0_goto ((card a) + 3)) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (P >0_goto ((card a) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(P >0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P >0_goto ((card a) + 3))) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (P >0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))),(card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))))) is Relation-like Function-like set
card (Macro (P >0_goto ((card a) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (P >0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (a,(card (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (a,(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (a,(card (Macro (P >0_goto ((card a) + 3)))))),(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) +* (Reloc (a,(card (Macro (P >0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((P >0_goto ((card a) + 3)) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((P >0_goto ((card a) + 3)) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))),(card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))))) is Relation-like Function-like set
card ((P >0_goto ((card a) + 3)) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((P >0_goto ((card a) + 3)) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a)))),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))),(card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))))) is Relation-like Function-like set
card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))),(card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))))) is Relation-like Function-like set
card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) +* (Reloc ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" (s ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((P >0_goto ((card a) + 3)) ";" a) ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a)))),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) +* (Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(P >0_goto ((card a) + 3)) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P >0_goto ((card a) + 3))) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3)))))),(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) +* (Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
dom (Macro (P >0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P is V95() Element of the carrier of SCM+FSA
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
if=0 (P,s,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(if=0 (P,s,a)) . 0 is set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card a) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P =0_goto ((card a) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(if=0 (P,s,a)) . 1 is set
if>0 (P,s,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(if>0 (P,s,a)) . 0 is set
P >0_goto ((card a) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(if>0 (P,s,a)) . 1 is set
(P =0_goto ((card a) + 3)) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (P =0_goto ((card a) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(P =0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P =0_goto ((card a) + 3))) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (P =0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))),(card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))))) is Relation-like Function-like set
card (Macro (P =0_goto ((card a) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (P =0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (a,(card (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (a,(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (a,(card (Macro (P =0_goto ((card a) + 3)))))),(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) +* (Reloc (a,(card (Macro (P =0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card s) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card s) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card s) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card s) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card s) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card s) + 1))} -valued Function-like constant total V31({0},{(goto ((card s) + 1))}) V34() Element of K32(K33({0},{(goto ((card s) + 1))}))
{(goto ((card s) + 1))} is non empty V34() set
K33({0},{(goto ((card s) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card s) + 1))})) is V34() V38() set
((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((P =0_goto ((card a) + 3)) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((P =0_goto ((card a) + 3)) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))),(card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))))) is Relation-like Function-like set
card ((P =0_goto ((card a) + 3)) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((P =0_goto ((card a) + 3)) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a)))),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))),(card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))))) is Relation-like Function-like set
card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))),(card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))))) is Relation-like Function-like set
card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) +* (Reloc ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
s ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(s,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop s) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop s)),(card (CutLastLoc (stop s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop s))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop s)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop s))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card s))),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop s))) +* (Reloc ((Stop SCM+FSA),(card s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" (s ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc ((s ";" (Stop SCM+FSA)),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Goto ((card s) + 1)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Goto ((card s) + 1))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Goto ((card s) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Goto ((card s) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Goto ((card s) + 1)))),(card (CutLastLoc (stop (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Goto ((card s) + 1))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Goto ((card s) + 1)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Goto ((card s) + 1))))))) is Relation-like Function-like set
card (Goto ((card s) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card s) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1))))),(card (Goto ((card s) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Goto ((card s) + 1))))) +* (Reloc ((s ";" (Stop SCM+FSA)),(card (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((P =0_goto ((card a) + 3)) ";" a) ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a)))),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) +* (Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P =0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(P =0_goto ((card a) + 3)) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P =0_goto ((card a) + 3))) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3)))))),(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) +* (Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P =0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
dom (Macro (P =0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
{0,1} is non empty V34() set
Directed (Macro (P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((Macro (P =0_goto ((card a) + 3))),(card (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (Macro (P =0_goto ((card a) + 3)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Macro (P =0_goto ((card a) + 3))) +~ ((halt SCM+FSA),(goto (card (Macro (P =0_goto ((card a) + 3)))))) is Relation-like Function-like set
(Directed (Macro (P =0_goto ((card a) + 3)))) . 0 is set
(Directed (Macro (P =0_goto ((card a) + 3)))) . 1 is set
(P >0_goto ((card a) + 3)) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (P >0_goto ((card a) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(P >0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P >0_goto ((card a) + 3))) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (P >0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))),(card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))))) is Relation-like Function-like set
card (Macro (P >0_goto ((card a) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (P >0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (a,(card (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (a,(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (a,(card (Macro (P >0_goto ((card a) + 3)))))),(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) +* (Reloc (a,(card (Macro (P >0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((P >0_goto ((card a) + 3)) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((P >0_goto ((card a) + 3)) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))),(card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))))) is Relation-like Function-like set
card ((P >0_goto ((card a) + 3)) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((P >0_goto ((card a) + 3)) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a)))),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))),(card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))))) is Relation-like Function-like set
card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))),(card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))))) is Relation-like Function-like set
card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) +* (Reloc ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" (s ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc ((s ";" (Stop SCM+FSA)),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((P >0_goto ((card a) + 3)) ";" a) ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a)))),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) +* (Reloc (((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA))),(card ((P >0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(P >0_goto ((card a) + 3)) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P >0_goto ((card a) + 3))) ";" (a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3)))))),(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) +* (Reloc ((a ";" ((Goto ((card s) + 1)) ";" (s ";" (Stop SCM+FSA)))),(card (Macro (P >0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
dom (Macro (P >0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Directed (Macro (P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((Macro (P >0_goto ((card a) + 3))),(card (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (Macro (P >0_goto ((card a) + 3)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Macro (P >0_goto ((card a) + 3))) +~ ((halt SCM+FSA),(goto (card (Macro (P >0_goto ((card a) + 3)))))) is Relation-like Function-like set
(Directed (Macro (P >0_goto ((card a) + 3)))) . 0 is set
(Directed (Macro (P >0_goto ((card a) + 3)))) . 1 is set
P is V95() Element of the carrier of SCM+FSA
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card s) + (card a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card s) + (card a)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
if=0 (P,s,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
dom (if=0 (P,s,a)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(if=0 (P,s,a)) . b is set
(card a) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P =0_goto ((card a) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(P =0_goto ((card a) + 3)) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (P =0_goto ((card a) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(P =0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P =0_goto ((card a) + 3))) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (P =0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (P =0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))),(card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (P =0_goto ((card a) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))))) is Relation-like Function-like set
card (Macro (P =0_goto ((card a) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (P =0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (a,(card (Macro (P =0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (a,(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (a,(card (Macro (P =0_goto ((card a) + 3)))))),(card (Macro (P =0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P =0_goto ((card a) + 3)))))) +* (Reloc (a,(card (Macro (P =0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card s) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card s) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card s) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card s) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card s) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card s) + 1))} -valued Function-like constant total V31({0},{(goto ((card s) + 1))}) V34() Element of K32(K33({0},{(goto ((card s) + 1))}))
{(goto ((card s) + 1))} is non empty V34() set
K33({0},{(goto ((card s) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card s) + 1))})) is V34() V38() set
((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((P =0_goto ((card a) + 3)) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((P =0_goto ((card a) + 3)) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))),(card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))))) is Relation-like Function-like set
card ((P =0_goto ((card a) + 3)) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((P =0_goto ((card a) + 3)) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a)))),(card ((P =0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P =0_goto ((card a) + 3)) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((P =0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))),(card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))))) is Relation-like Function-like set
card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc (s,(card (((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
((Macro (P =0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (P =0_goto ((card a) + 3))) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (P =0_goto ((card a) + 3))) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a))),(card (CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a)))))) is Relation-like Function-like set
card ((Macro (P =0_goto ((card a) + 3))) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (P =0_goto ((card a) + 3))) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((Macro (P =0_goto ((card a) + 3))) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((Macro (P =0_goto ((card a) + 3))) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((Macro (P =0_goto ((card a) + 3))) ";" a)))),(card ((Macro (P =0_goto ((card a) + 3))) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (P =0_goto ((card a) + 3))) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((Macro (P =0_goto ((card a) + 3))) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (P =0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (P =0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (P =0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
card (Goto ((card s) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card s) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (P =0_goto ((card a) + 3))) ";" a)) + (card (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (P =0_goto ((card a) + 3))) ";" a)) + (card (Goto ((card s) + 1)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (P =0_goto ((card a) + 3))) ";" a)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card ((Macro (P =0_goto ((card a) + 3))) ";" a)) + 1) + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (P =0_goto ((card a) + 3)))) + (card a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (P =0_goto ((card a) + 3)))) + (card a)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (P =0_goto ((card a) + 3)))) + (card a)) + 1) + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card a)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card a)) + 1) + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Directed ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) +~ ((halt SCM+FSA),(goto (card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like Function-like set
dom (Directed ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(Directed ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) . b is set
rng (Directed ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is non empty V34() set
((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))),(card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) +* (Reloc ((Stop SCM+FSA),(card ((((P =0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P is V95() Element of the carrier of SCM+FSA
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card s) + (card a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card s) + (card a)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
if>0 (P,s,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
dom (if>0 (P,s,a)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(if>0 (P,s,a)) . b is set
(card a) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P >0_goto ((card a) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(P >0_goto ((card a) + 3)) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (P >0_goto ((card a) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(P >0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (P >0_goto ((card a) + 3))) ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (P >0_goto ((card a) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (P >0_goto ((card a) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))),(card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (P >0_goto ((card a) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))))) is Relation-like Function-like set
card (Macro (P >0_goto ((card a) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (P >0_goto ((card a) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (a,(card (Macro (P >0_goto ((card a) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (a,(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (a,(card (Macro (P >0_goto ((card a) + 3)))))),(card (Macro (P >0_goto ((card a) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (P >0_goto ((card a) + 3)))))) +* (Reloc (a,(card (Macro (P >0_goto ((card a) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card s) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card s) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card s) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card s) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card s) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card s) + 1))} -valued Function-like constant total V31({0},{(goto ((card s) + 1))}) V34() Element of K32(K33({0},{(goto ((card s) + 1))}))
{(goto ((card s) + 1))} is non empty V34() set
K33({0},{(goto ((card s) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card s) + 1))})) is V34() V38() set
((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((P >0_goto ((card a) + 3)) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((P >0_goto ((card a) + 3)) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))),(card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))))) is Relation-like Function-like set
card ((P >0_goto ((card a) + 3)) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((P >0_goto ((card a) + 3)) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a)))),(card ((P >0_goto ((card a) + 3)) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((P >0_goto ((card a) + 3)) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((P >0_goto ((card a) + 3)) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))),(card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))))) is Relation-like Function-like set
card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))),(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) +* (Reloc (s,(card (((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
((Macro (P >0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (P >0_goto ((card a) + 3))) ";" a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (P >0_goto ((card a) + 3))) ";" a),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a))),(card (CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a)))))) is Relation-like Function-like set
card ((Macro (P >0_goto ((card a) + 3))) ";" a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (P >0_goto ((card a) + 3))) ";" a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card s) + 1)),(card ((Macro (P >0_goto ((card a) + 3))) ";" a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card s) + 1)),(card ((Macro (P >0_goto ((card a) + 3))) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card s) + 1)),(card ((Macro (P >0_goto ((card a) + 3))) ";" a)))),(card ((Macro (P >0_goto ((card a) + 3))) ";" a))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (P >0_goto ((card a) + 3))) ";" a)))) +* (Reloc ((Goto ((card s) + 1)),(card ((Macro (P >0_goto ((card a) + 3))) ";" a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (P >0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (P >0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (P >0_goto ((card a) + 3))) ";" a) ";" (Goto ((card s) + 1)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
card (Goto ((card s) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card s) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (P >0_goto ((card a) + 3))) ";" a)) + (card (Goto ((card s) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (P >0_goto ((card a) + 3))) ";" a)) + (card (Goto ((card s) + 1)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (P >0_goto ((card a) + 3))) ";" a)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card ((Macro (P >0_goto ((card a) + 3))) ";" a)) + 1) + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (P >0_goto ((card a) + 3)))) + (card a) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (P >0_goto ((card a) + 3)))) + (card a)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (P >0_goto ((card a) + 3)))) + (card a)) + 1) + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card a)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card a)) + 1) + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Directed ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) +~ ((halt SCM+FSA),(goto (card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like Function-like set
dom (Directed ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(Directed ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) . b is set
rng (Directed ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is non empty V34() set
((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))),(card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) +* (Reloc ((Stop SCM+FSA),(card ((((P >0_goto ((card a) + 3)) ";" a) ";" (Goto ((card s) + 1))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
pseudo-LifeSpan (s,P,(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P +* b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
P +* (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Stop SCM+FSA) . 0 is set
(card b) -' (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Stop SCM+FSA) . ((card b) -' (card b)) is set
DataPart (Initialize s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
s0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
dom (b ";" (Stop SCM+FSA)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Reloc ((Directed b),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed b),0) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed b),0)),0) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IC (Initialize s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize s) . (IC ) is set
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s21)) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),s21))) + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) . (IC ) is set
DataPart (Comput ((P +* (Directed b)),(Initialize s),s21)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed b)),(Initialize s),s21)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize (Initialize s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialize s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(P +* (Directed b)) +* (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
(Directed b) +* (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
P +* ((Directed b) +* (Directed b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (Directed b)),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s21)) . (IC ) is set
(P +* (Directed b)) /. (IC (Comput ((P +* (Directed b)),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IncAddr ((CurInstr ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s21)))),0) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) . (IC ) is set
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) . (IC ) is set
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* (Directed b)),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s21)) . (IC ) is set
P21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
CurInstr ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (Directed b)) /. (IC (Comput ((P +* (Directed b)),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (Directed b)) . P21 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(Directed b) . P21 is set
rng (Directed b) is non empty V34() set
card (Stop SCM+FSA) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Stop SCM+FSA) is non empty V5() ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card (b ";" (Stop SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (b ";" (Stop SCM+FSA)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + (card (Stop SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(b ";" (Stop SCM+FSA)) . (card b) is set
IncAddr ((halt SCM+FSA),(card b)) is ins-loc-free V91(3, SCM+FSA ) with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (b ";" (Stop SCM+FSA))) . (card b) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) . (IC ) is set
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s21 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s21 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s21 + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s21 + 1))) . (IC ) is set
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s21 + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s21 + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* (Directed b)),(Initialize s),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s0)) . (IC ) is set
card (Directed b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Following ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21))))) . (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),0)) . (IC ) is set
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* (Directed b)),(Initialize s),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s0)) . (IC ) is set
card (Directed b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s21)) . (IC ) is set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) . (IC ) is set
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s21)) . (IC ) is set
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
card (Directed b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s0)) . (IC ) is set
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
s31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* b),(Initialize s),s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* b),(Initialize s),s31)) . (IC ) is set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) . (IC ) is set
DataPart (Comput ((P +* b),(Initialize s),s31)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* b),(Initialize s),s31)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
s31 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* b),(Initialize s),(s31 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* b),(Initialize s),(s31 + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* b),(Initialize s),(s31 + 1))) . (IC ) is set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s31 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s31 + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s31 + 1))) . (IC ) is set
DataPart (Comput ((P +* b),(Initialize s),(s31 + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* b),(Initialize s),(s31 + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s31 + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s31 + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
D is FinSeq-Location
(Comput ((P +* b),(Initialize s),s31)) . D is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) . D is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
D is V95() Element of the carrier of SCM+FSA
(Comput ((P +* b),(Initialize s),s31)) . D is ext-real V27() V28() V29() set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) . D is ext-real V27() V28() V29() set
b . (IC (Comput ((P +* b),(Initialize s),s31))) is set
Comput ((P +* (Directed b)),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s31)) . (IC ) is set
(P +* (Directed b)) /. (IC (Comput ((P +* (Directed b)),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (Directed b)) . (IC (Comput ((P +* (Directed b)),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (Directed b)) . (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(Directed b) . (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is set
Comput ((P +* (Directed b)),(Initialize s),(s31 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),(s31 + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),(s31 + 1))) . (IC ) is set
Following ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s31))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s31)))),(Comput ((P +* (Directed b)),(Initialize s),s31))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s31))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s31))))) . (Comput ((P +* (Directed b)),(Initialize s),s31)) is set
IC (Following ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s31)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Following ((P +* (Directed b)),(Comput ((P +* (Directed b)),(Initialize s),s31)))) . (IC ) is set
CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* b) /. (IC (Comput ((P +* b),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* b) . (IC (Comput ((P +* b),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (b ";" (Stop SCM+FSA))) . (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Following ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))))) . (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) is set
Exec ((CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),s31)))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),s31))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),s31))))) . (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) is set
Following ((P +* b),(Comput ((P +* b),(Initialize s),s31))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),s31)))),(Comput ((P +* b),(Initialize s),s31))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),s31))))) . (Comput ((P +* b),(Initialize s),s31)) is set
D is FinSeq-Location
(Comput ((P +* b),(Initialize s),(s31 + 1))) . D is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s31 + 1))) . D is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
D is V95() Element of the carrier of SCM+FSA
(Comput ((P +* b),(Initialize s),(s31 + 1))) . D is ext-real V27() V28() V29() set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(s31 + 1))) . D is ext-real V27() V28() V29() set
Comput ((P +* (Directed b)),(Initialize s),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))))) . (IC ) is set
s31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s31)) . (IC ) is set
Comput ((P +* b),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* b),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* b),(Initialize s),0)) . (IC ) is set
DataPart (Comput ((P +* b),(Initialize s),0)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* b),(Initialize s),0)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),0)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),0)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (Directed b)),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),0)) . (IC ) is set
s31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* b),(Initialize s),s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* b),(Initialize s),s31)) . (IC ) is set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) . (IC ) is set
s31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* b),(Initialize s),s31)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* b),(Initialize s),s31)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),s31)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
P31 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
P31 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
J3 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3)) . (IC ) is set
(P +* (b ";" (Stop SCM+FSA))) /. (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3)))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))))) . (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3)) is set
Comput ((P +* b),(Initialize s),J3) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* b),(Initialize s),J3)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* b),(Initialize s),J3)) . (IC ) is set
(P +* b) /. (IC (Comput ((P +* b),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Following ((P +* b),(Comput ((P +* b),(Initialize s),J3))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),J3)))),(Comput ((P +* b),(Initialize s),J3))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),J3))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* b),(Comput ((P +* b),(Initialize s),J3))))) . (Comput ((P +* b),(Initialize s),J3)) is set
J3 + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(P +* b) . (IC (Comput ((P +* b),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
b . (IC (Comput ((P +* b),(Initialize s),J3))) is set
(Directed b) . (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))) is set
(b ";" (Stop SCM+FSA)) . (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))) is set
(P +* (b ";" (Stop SCM+FSA))) . (IC (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
DataPart (Comput ((P +* b),(Initialize s),J3)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* b),(Initialize s),J3)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
InsCode (CurInstr ((P +* (b ";" (Stop SCM+FSA))),(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),J3)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of InsCodes the InstructionsF of SCM+FSA
InsCodes the InstructionsF of SCM+FSA is non empty set
K23( the InstructionsF of SCM+FSA) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P +* b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
pseudo-LifeSpan (s,P,(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* b),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* b),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IExec ((b ";" (Stop SCM+FSA)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b ";" (Stop SCM+FSA)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((b ";" (Stop SCM+FSA)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P +* b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
pseudo-LifeSpan (s,P,(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* b),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* b),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card P) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card P) + (card s)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
a is V95() Element of the carrier of SCM+FSA
if=0 (a,P,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(if=0 (a,P,s)) . (((card P) + (card s)) + 3) is set
(card s) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
a =0_goto ((card s) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(a =0_goto ((card s) + 3)) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (a =0_goto ((card s) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(a =0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (a =0_goto ((card s) + 3))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (a =0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))),(card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))))) is Relation-like Function-like set
card (Macro (a =0_goto ((card s) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (a =0_goto ((card s) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (Macro (a =0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (Macro (a =0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (Macro (a =0_goto ((card s) + 3)))))),(card (Macro (a =0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))) +* (Reloc (s,(card (Macro (a =0_goto ((card s) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card P) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card P) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card P) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card P) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card P) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card P) + 1))} -valued Function-like constant total V31({0},{(goto ((card P) + 1))}) V34() Element of K32(K33({0},{(goto ((card P) + 1))}))
{(goto ((card P) + 1))} is non empty V34() set
K33({0},{(goto ((card P) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card P) + 1))})) is V34() V38() set
((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((a =0_goto ((card s) + 3)) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((a =0_goto ((card s) + 3)) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))),(card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))))) is Relation-like Function-like set
card ((a =0_goto ((card s) + 3)) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((a =0_goto ((card s) + 3)) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s)))),(card ((a =0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))),(card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))))) is Relation-like Function-like set
card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))),(card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))))) is Relation-like Function-like set
card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) +* (Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (a =0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (a =0_goto ((card s) + 3))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (a =0_goto ((card s) + 3))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s))),(card (CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s)))))) is Relation-like Function-like set
card ((Macro (a =0_goto ((card s) + 3))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (a =0_goto ((card s) + 3))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((Macro (a =0_goto ((card s) + 3))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((Macro (a =0_goto ((card s) + 3))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((Macro (a =0_goto ((card s) + 3))) ";" s)))),(card ((Macro (a =0_goto ((card s) + 3))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (a =0_goto ((card s) + 3))) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((Macro (a =0_goto ((card s) + 3))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (a =0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (a =0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (a =0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1)))) + (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
card (Goto ((card P) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card P) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (a =0_goto ((card s) + 3))) ";" s)) + (card (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (a =0_goto ((card s) + 3))) ";" s)) + (card (Goto ((card P) + 1)))) + (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (a =0_goto ((card s) + 3))) ";" s)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card ((Macro (a =0_goto ((card s) + 3))) ";" s)) + 1) + (card P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (a =0_goto ((card s) + 3)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (a =0_goto ((card s) + 3)))) + (card s)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (a =0_goto ((card s) + 3)))) + (card s)) + 1) + (card P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card s)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card s)) + 1) + (card P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card P) + (card s)) + 3) -' (card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Stop SCM+FSA) . 0 is set
card (Stop SCM+FSA) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Stop SCM+FSA) is non empty V5() ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) + (card (Stop SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
IncAddr ((halt SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ins-loc-free V91(3, SCM+FSA ) with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card P) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card P) + (card s)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
a is V95() Element of the carrier of SCM+FSA
if>0 (a,P,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(if>0 (a,P,s)) . (((card P) + (card s)) + 3) is set
(card s) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
a >0_goto ((card s) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(a >0_goto ((card s) + 3)) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (a >0_goto ((card s) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(a >0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (a >0_goto ((card s) + 3))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (a >0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))),(card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))))) is Relation-like Function-like set
card (Macro (a >0_goto ((card s) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (a >0_goto ((card s) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (Macro (a >0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (Macro (a >0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (Macro (a >0_goto ((card s) + 3)))))),(card (Macro (a >0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))) +* (Reloc (s,(card (Macro (a >0_goto ((card s) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card P) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card P) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card P) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card P) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card P) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card P) + 1))} -valued Function-like constant total V31({0},{(goto ((card P) + 1))}) V34() Element of K32(K33({0},{(goto ((card P) + 1))}))
{(goto ((card P) + 1))} is non empty V34() set
K33({0},{(goto ((card P) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card P) + 1))})) is V34() V38() set
((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((a >0_goto ((card s) + 3)) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((a >0_goto ((card s) + 3)) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))),(card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))))) is Relation-like Function-like set
card ((a >0_goto ((card s) + 3)) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((a >0_goto ((card s) + 3)) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s)))),(card ((a >0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))),(card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))))) is Relation-like Function-like set
card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))),(card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))))) is Relation-like Function-like set
card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) +* (Reloc ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (a >0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (a >0_goto ((card s) + 3))) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (a >0_goto ((card s) + 3))) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s))),(card (CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s)))))) is Relation-like Function-like set
card ((Macro (a >0_goto ((card s) + 3))) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (a >0_goto ((card s) + 3))) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((Macro (a >0_goto ((card s) + 3))) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((Macro (a >0_goto ((card s) + 3))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((Macro (a >0_goto ((card s) + 3))) ";" s)))),(card ((Macro (a >0_goto ((card s) + 3))) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (a >0_goto ((card s) + 3))) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((Macro (a >0_goto ((card s) + 3))) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (a >0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (a >0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (a >0_goto ((card s) + 3))) ";" s) ";" (Goto ((card P) + 1)))) + (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
card (Goto ((card P) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card P) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (a >0_goto ((card s) + 3))) ";" s)) + (card (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (a >0_goto ((card s) + 3))) ";" s)) + (card (Goto ((card P) + 1)))) + (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (a >0_goto ((card s) + 3))) ";" s)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card ((Macro (a >0_goto ((card s) + 3))) ";" s)) + 1) + (card P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (a >0_goto ((card s) + 3)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (a >0_goto ((card s) + 3)))) + (card s)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (a >0_goto ((card s) + 3)))) + (card s)) + 1) + (card P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card s)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card s)) + 1) + (card P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card P) + (card s)) + 3) -' (card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Stop SCM+FSA) . 0 is set
card (Stop SCM+FSA) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Stop SCM+FSA) is non empty V5() ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) + (card (Stop SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
IncAddr ((halt SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ins-loc-free V91(3, SCM+FSA ) with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card s) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card P) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card P) + (card s)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (((card P) + (card s)) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a is V95() Element of the carrier of SCM+FSA
if=0 (a,P,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(if=0 (a,P,s)) . ((card s) + 2) is set
(card s) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
a =0_goto ((card s) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(a =0_goto ((card s) + 3)) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (a =0_goto ((card s) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(a =0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (a =0_goto ((card s) + 3))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (a =0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))),(card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))))) is Relation-like Function-like set
card (Macro (a =0_goto ((card s) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (a =0_goto ((card s) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (Macro (a =0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (Macro (a =0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (Macro (a =0_goto ((card s) + 3)))))),(card (Macro (a =0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))) +* (Reloc (s,(card (Macro (a =0_goto ((card s) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card P) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card P) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card P) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card P) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card P) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card P) + 1))} -valued Function-like constant total V31({0},{(goto ((card P) + 1))}) V34() Element of K32(K33({0},{(goto ((card P) + 1))}))
{(goto ((card P) + 1))} is non empty V34() set
K33({0},{(goto ((card P) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card P) + 1))})) is V34() V38() set
((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((a =0_goto ((card s) + 3)) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((a =0_goto ((card s) + 3)) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))),(card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))))) is Relation-like Function-like set
card ((a =0_goto ((card s) + 3)) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((a =0_goto ((card s) + 3)) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s)))),(card ((a =0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))),(card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))))) is Relation-like Function-like set
card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))),(card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))))) is Relation-like Function-like set
card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) +* (Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(card (Macro (a =0_goto ((card s) + 3)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card s) + 2) -' (card ((a =0_goto ((card s) + 3)) ";" s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Goto ((card P) + 1)) . (((card s) + 2) -' (card ((a =0_goto ((card s) + 3)) ";" s))) is set
card (Goto ((card P) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card P) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((a =0_goto ((card s) + 3)) ";" s)) + (card (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) . ((card s) + 2) is set
IncAddr ((goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
((card P) + 1) + ((card s) + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (((card P) + 1) + ((card s) + 2)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
1 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card P) + (card s)) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (((card P) + (card s)) + (1 + 2)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((card s) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card s) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc ((Stop SCM+FSA),(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" (P ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((P ";" (Stop SCM+FSA)),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((P ";" (Stop SCM+FSA)),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((P ";" (Stop SCM+FSA)),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc ((P ";" (Stop SCM+FSA)),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" (P ";" (Stop SCM+FSA))) . ((card s) + 2) is set
Directed (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) +~ ((halt SCM+FSA),(goto (card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like Function-like set
(Directed (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) . ((card s) + 2) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card s) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card P) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card P) + (card s)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (((card P) + (card s)) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a is V95() Element of the carrier of SCM+FSA
if>0 (a,P,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(if>0 (a,P,s)) . ((card s) + 2) is set
(card s) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
a >0_goto ((card s) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(a >0_goto ((card s) + 3)) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (a >0_goto ((card s) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(a >0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (a >0_goto ((card s) + 3))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (a >0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))),(card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))))) is Relation-like Function-like set
card (Macro (a >0_goto ((card s) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (a >0_goto ((card s) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (Macro (a >0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (Macro (a >0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (Macro (a >0_goto ((card s) + 3)))))),(card (Macro (a >0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))) +* (Reloc (s,(card (Macro (a >0_goto ((card s) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card P) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card P) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card P) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card P) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card P) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card P) + 1))} -valued Function-like constant total V31({0},{(goto ((card P) + 1))}) V34() Element of K32(K33({0},{(goto ((card P) + 1))}))
{(goto ((card P) + 1))} is non empty V34() set
K33({0},{(goto ((card P) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card P) + 1))})) is V34() V38() set
((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((a >0_goto ((card s) + 3)) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((a >0_goto ((card s) + 3)) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))),(card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))))) is Relation-like Function-like set
card ((a >0_goto ((card s) + 3)) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((a >0_goto ((card s) + 3)) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s)))),(card ((a >0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))),(card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))))) is Relation-like Function-like set
card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))),(card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))))) is Relation-like Function-like set
card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) +* (Reloc ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(card (Macro (a >0_goto ((card s) + 3)))) + (card s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + (card s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card s) + 2) -' (card ((a >0_goto ((card s) + 3)) ";" s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Goto ((card P) + 1)) . (((card s) + 2) -' (card ((a >0_goto ((card s) + 3)) ";" s))) is set
card (Goto ((card P) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card P) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((a >0_goto ((card s) + 3)) ";" s)) + (card (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) . ((card s) + 2) is set
IncAddr ((goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
((card P) + 1) + ((card s) + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (((card P) + 1) + ((card s) + 2)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
1 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card P) + (card s)) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (((card P) + (card s)) + (1 + 2)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((card s) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card s) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc ((Stop SCM+FSA),(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" (P ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((P ";" (Stop SCM+FSA)),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((P ";" (Stop SCM+FSA)),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((P ";" (Stop SCM+FSA)),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc ((P ";" (Stop SCM+FSA)),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" (P ";" (Stop SCM+FSA))) . ((card s) + 2) is set
Directed (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) +~ ((halt SCM+FSA),(goto (card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like Function-like set
(Directed (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) . ((card s) + 2) is set
Goto 2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
0 .--> (goto 2) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto 2) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto 2)} -valued Function-like constant total V31({0},{(goto 2)}) V34() Element of K32(K33({0},{(goto 2)}))
{(goto 2)} is non empty V34() set
K33({0},{(goto 2)}) is Relation-like V34() set
K32(K33({0},{(goto 2)})) is V34() V38() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card P) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card P) + 5 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto ((card P) + 5) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
s is V95() Element of the carrier of SCM+FSA
if=0 (s,(Goto 2),P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(if=0 (s,(Goto 2),P)) . ((card P) + 3) is set
s =0_goto ((card P) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(s =0_goto ((card P) + 3)) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (s =0_goto ((card P) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(s =0_goto ((card P) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(s =0_goto ((card P) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(s =0_goto ((card P) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (s =0_goto ((card P) + 3))) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (s =0_goto ((card P) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (s =0_goto ((card P) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (s =0_goto ((card P) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (s =0_goto ((card P) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (s =0_goto ((card P) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (s =0_goto ((card P) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (s =0_goto ((card P) + 3))))),(card (CutLastLoc (stop (Macro (s =0_goto ((card P) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (s =0_goto ((card P) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (s =0_goto ((card P) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (s =0_goto ((card P) + 3)))))))) is Relation-like Function-like set
card (Macro (s =0_goto ((card P) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (s =0_goto ((card P) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (Macro (s =0_goto ((card P) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (Macro (s =0_goto ((card P) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (Macro (s =0_goto ((card P) + 3)))))),(card (Macro (s =0_goto ((card P) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (s =0_goto ((card P) + 3)))))) +* (Reloc (P,(card (Macro (s =0_goto ((card P) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((s =0_goto ((card P) + 3)) ";" P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((s =0_goto ((card P) + 3)) ";" P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P))),(card (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P)))))) is Relation-like Function-like set
card ((s =0_goto ((card P) + 3)) ";" P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((s =0_goto ((card P) + 3)) ";" P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card ((s =0_goto ((card P) + 3)) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card ((s =0_goto ((card P) + 3)) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card ((s =0_goto ((card P) + 3)) ";" P)))),(card ((s =0_goto ((card P) + 3)) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P)))) +* (Reloc ((Goto 2),(card ((s =0_goto ((card P) + 3)) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))),(card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))))))) is Relation-like Function-like set
card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))))),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))))) +* (Reloc ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (Goto 2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Macro (s =0_goto ((card P) + 3)))) + (card P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + (card P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card P) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card P) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card P) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card P) + 3) -' (card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Goto 2) . (((card P) + 3) -' (card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is set
(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2))) + (card (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) . ((card P) + 3) is set
IncAddr ((goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
2 + ((card P) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (2 + ((card P) + 3)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
2 + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card P) + (2 + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto ((card P) + (2 + 3)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
1 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto (1 + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto (1 + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto (1 + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto (1 + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto (1 + 1))} -valued Function-like constant total V31({0},{(goto (1 + 1))}) V34() Element of K32(K33({0},{(goto (1 + 1))}))
{(goto (1 + 1))} is non empty V34() set
K33({0},{(goto (1 + 1))}) is Relation-like V34() set
K32(K33({0},{(goto (1 + 1))})) is V34() V38() set
((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Reloc ((Goto (1 + 1)),(card ((s =0_goto ((card P) + 3)) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto (1 + 1)),(card ((s =0_goto ((card P) + 3)) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto (1 + 1)),(card ((s =0_goto ((card P) + 3)) ";" P)))),(card ((s =0_goto ((card P) + 3)) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((s =0_goto ((card P) + 3)) ";" P)))) +* (Reloc ((Goto (1 + 1)),(card ((s =0_goto ((card P) + 3)) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))),(card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1)))))))) is Relation-like Function-like set
card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1)))))),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1)))))) +* (Reloc ((Goto 2),(card (((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))),(card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2))))))) is Relation-like Function-like set
card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2))))),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto (1 + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
((card P) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card P) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))),(card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))))),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) ";" (Stop SCM+FSA)) . ((card P) + 3) is set
Directed ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)),(card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2)) +~ ((halt SCM+FSA),(goto (card ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))))) is Relation-like Function-like set
(Directed ((((s =0_goto ((card P) + 3)) ";" P) ";" (Goto 2)) ";" (Goto 2))) . ((card P) + 3) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if=0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
P +* (if=0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P +* (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 =0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
card (if=0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* (if=0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . 0 is set
(I2 =0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 =0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 =0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 =0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 =0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3)))))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 =0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 =0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 =0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 =0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (I2 =0_goto ((card c) + 3)))) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (I2 =0_goto ((card c) + 3)))) + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize s) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)) is set
Following ((P +* (if=0 (I2,b,c))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s)))) . (Initialize s) is set
Exec ((I2 =0_goto ((card c) + 3)),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) . (Initialize s) is set
(((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
Reloc ((Directed b),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed b),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed b),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
P31 is FinSeq-Location
(Initialize s) . P31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) . P31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P31 is V95() Element of the carrier of SCM+FSA
(Initialize s) . P31 is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) . P31 is ext-real V27() V28() V29() set
DataPart (Initialize s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
(Initialize s) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) . (IC ) is set
pseudo-LifeSpan (s,P,(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
DataPart s is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
s | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1))) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) . (IC ) is set
Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (Directed b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Directed b)) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31)) . (IC ) is set
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
J3 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
1 + J3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),D)) . (IC ) is set
s2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
s2 + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31)) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),D)) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),D))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P31)) . (IC ) is set
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
J3 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . (IC (Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
D + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
s2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),s2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P2 + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),s2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),s2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)),s2)) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),s2))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 =0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (I2 =0_goto ((card c) + 3)))) + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) +~ ((halt SCM+FSA),(goto (card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like Function-like set
dom (Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3))) is set
rng (Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty V34() set
(P +* (if=0 (I2,b,c))) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),J3))) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IExec ((b ";" (Stop SCM+FSA)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b ";" (Stop SCM+FSA)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((b ";" (Stop SCM+FSA)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if=0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((if=0 (I2,b,c)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (if=0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (if=0 (I2,b,c))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if=0 (I2,b,c)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if=0 (I2,b,c)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P +* (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 =0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Initialized s) . I2 is ext-real V27() V28() V29() set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize (Initialized s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize (Initialized s)) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* (if=0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . 0 is set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)) is set
Following ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))))) . (Initialize (Initialized s)) is set
Exec ((I2 =0_goto ((card c) + 3)),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) . (Initialize (Initialized s)) is set
(Initialize (Initialized s)) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) . (IC ) is set
LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
pseudo-LifeSpan ((Initialized s),P,(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
s2 is FinSeq-Location
(Initialize (Initialized s)) . s2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) . s2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
s2 is V95() Element of the carrier of SCM+FSA
(Initialize (Initialized s)) . s2 is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) . s2 is ext-real V27() V28() V29() set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
card (if=0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(I2 =0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 =0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 =0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 =0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 =0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3)))))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 =0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 =0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 =0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 =0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (I2 =0_goto ((card c) + 3)))) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (I2 =0_goto ((card c) + 3)))) + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized (Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized (Initialized s)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
Reloc ((Directed b),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed b),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed b),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1))) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) . (IC ) is set
Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (Directed b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Directed b)) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
k + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize (Initialized s)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),f)) . (IC ) is set
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
bb + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),f)) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),f))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 =0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (I2 =0_goto ((card c) + 3)))) + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) +~ ((halt SCM+FSA),(goto (card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like Function-like set
dom (Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2))) is set
rng (Directed ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty V34() set
(P +* (if=0 (I2,b,c))) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),P2))) is set
LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Directed b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Directed b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Directed b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Directed b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Directed b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Directed b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Directed b))),(card (CutLastLoc (stop (Directed b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Directed b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Directed b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Directed b)))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card (Directed b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card (Directed b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card (Directed b)))),(card (Directed b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Directed b)))) +* (Reloc ((Stop SCM+FSA),(card (Directed b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Directed (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((Directed b),(card (Directed b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (Directed b)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Directed b) +~ ((halt SCM+FSA),(goto (card (Directed b)))) is Relation-like Function-like set
DataPart (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((if=0 (I2,b,c)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (if=0 (I2,b,c))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if=0 (I2,b,c)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if=0 (I2,b,c)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((b ";" (Stop SCM+FSA)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b ";" (Stop SCM+FSA)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((b ";" (Stop SCM+FSA)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize s))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if>0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
P +* (if>0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P +* (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 >0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
card (if>0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize s) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
(P +* (if>0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 0 is set
(I2 >0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 >0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 >0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 >0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 >0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3)))))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 >0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 >0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 >0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 >0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (I2 >0_goto ((card c) + 3)))) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (I2 >0_goto ((card c) + 3)))) + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)) is set
Following ((P +* (if>0 (I2,b,c))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s)))) . (Initialize s) is set
Exec ((I2 >0_goto ((card c) + 3)),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) . (Initialize s) is set
(((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
Reloc ((Directed b),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed b),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed b),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
P31 is FinSeq-Location
(Initialize s) . P31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) . P31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P31 is V95() Element of the carrier of SCM+FSA
(Initialize s) . P31 is ext-real V27() V28() V29() set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) . P31 is ext-real V27() V28() V29() set
DataPart (Initialize s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
(Initialize s) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) . (IC ) is set
pseudo-LifeSpan (s,P,(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
DataPart s is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
s | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1))) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) . (IC ) is set
Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (Directed b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Directed b)) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31)) . (IC ) is set
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
J3 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
1 + J3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),D)) . (IC ) is set
s2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
s2 + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31)) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),D)) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),D))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P31)) . (IC ) is set
P31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
J3 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . (IC (Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
D + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
s2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize s),s2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize s),s2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize s),s2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P2 + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),s2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),s2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)),s2)) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize s),s2))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 >0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (I2 >0_goto ((card c) + 3)))) + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) +~ ((halt SCM+FSA),(goto (card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like Function-like set
dom (Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3))) is set
rng (Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty V34() set
(P +* (if>0 (I2,b,c))) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),J3))) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IExec ((b ";" (Stop SCM+FSA)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b ";" (Stop SCM+FSA)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((b ";" (Stop SCM+FSA)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if>0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((if>0 (I2,b,c)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (if>0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (if>0 (I2,b,c))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if>0 (I2,b,c)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if>0 (I2,b,c)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P +* (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 >0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Initialized s) . I2 is ext-real V27() V28() V29() set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize (Initialized s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize (Initialized s)) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* (if>0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 0 is set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)) is set
Following ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))))) . (Initialize (Initialized s)) is set
Exec ((I2 >0_goto ((card c) + 3)),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) . (Initialize (Initialized s)) is set
(Initialize (Initialized s)) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) . (IC ) is set
LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
pseudo-LifeSpan ((Initialized s),P,(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
s2 is FinSeq-Location
(Initialize (Initialized s)) . s2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) . s2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
s2 is V95() Element of the carrier of SCM+FSA
(Initialize (Initialized s)) . s2 is ext-real V27() V28() V29() set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) . s2 is ext-real V27() V28() V29() set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
card (if>0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(I2 >0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 >0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 >0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 >0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 >0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3)))))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 >0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 >0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 >0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 >0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Macro (I2 >0_goto ((card c) + 3)))) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Macro (I2 >0_goto ((card c) + 3)))) + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized (Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized (Initialized s)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((b ";" (Stop SCM+FSA)),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
Reloc ((Directed b),((card c) + 3)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed b),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed b),((card c) + 3))),((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1))) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) . (IC ) is set
Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b)))))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (Directed b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Directed b)) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
k + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed b)),(Initialize (Initialized s)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),f)) . (IC ) is set
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
bb + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),f)) . (IC ) is set
(IC (Comput ((P +* (Directed b)),(Initialize (Initialized s)),f))) + ((card c) + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 >0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + (card (Goto ((card b) + 1)))) + (card b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card (Macro (I2 >0_goto ((card c) + 3)))) + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + (card c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + (card c)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((2 + (card c)) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) +~ ((halt SCM+FSA),(goto (card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like Function-like set
dom (Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2))) is set
rng (Directed ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is non empty V34() set
(P +* (if>0 (I2,b,c))) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),P2))) is set
LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Directed b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Directed b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Directed b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Directed b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Directed b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Directed b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Directed b))),(card (CutLastLoc (stop (Directed b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Directed b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Directed b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Directed b)))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card (Directed b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card (Directed b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card (Directed b)))),(card (Directed b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Directed b)))) +* (Reloc ((Stop SCM+FSA),(card (Directed b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Directed (Directed b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((Directed b),(card (Directed b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (Directed b)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Directed b) +~ ((halt SCM+FSA),(goto (card (Directed b)))) is Relation-like Function-like set
DataPart (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((if>0 (I2,b,c)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (if>0 (I2,b,c))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if>0 (I2,b,c)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if>0 (I2,b,c)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed b)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed b)),(Directed b))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (b ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (b ";" (Stop SCM+FSA))),((Initialized s) +* (Initialize ((intloc 0) .--> 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (b ";" (Stop SCM+FSA))),((Initialized s) +* (Initialize ((intloc 0) .--> 1))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (b ";" (Stop SCM+FSA))),((Initialized s) +* (Initialize ((intloc 0) .--> 1))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((b ";" (Stop SCM+FSA)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (b ";" (Stop SCM+FSA))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b ";" (Stop SCM+FSA)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((b ";" (Stop SCM+FSA)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (c,(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card c) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
c +~ ((halt SCM+FSA),(goto (card c))) is Relation-like Function-like set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
c ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(c,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop c) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop c)),(card (CutLastLoc (stop c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop c))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop c)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop c))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc ((Stop SCM+FSA),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (c ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize s))) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if=0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
P +* (if=0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Goto ((card b) + 1)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Goto ((card b) + 1))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Goto ((card b) + 1)))),(card (CutLastLoc (stop (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Goto ((card b) + 1))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Goto ((card b) + 1)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Goto ((card b) + 1))))))) is Relation-like Function-like set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Goto ((card b) + 1))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 =0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(I2 =0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 =0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 =0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 =0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 =0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3)))))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 =0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 =0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 =0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 =0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 =0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
card ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Macro (I2 =0_goto ((card c) + 3))) ";" (c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3)))))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) +* (Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* (if=0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . 0 is set
card (if=0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 0 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize s) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Reloc ((Directed c),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed c),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed c),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(Initialized s) . I2 is ext-real V27() V28() V29() set
pseudo-LifeSpan (s,P,(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(P +* (if=0 (I2,b,c))) . 1 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . 1 is set
DataPart s is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
s | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),0)) is set
Following ((P +* (if=0 (I2,b,c))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize s)))) . (Initialize s) is set
Exec ((I2 =0_goto ((card c) + 3)),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) . (Initialize s) is set
(Initialize s) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) . (IC ) is set
succ (IC (Initialize s)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() set
1 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(1 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) is set
Exec ((goto 2),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) is set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)) . (IC ) is set
P2 is FinSeq-Location
(Initialize s) . P2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) . P2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)) . P2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P2 is V95() Element of the carrier of SCM+FSA
(Initialize s) . P2 is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),1)) . P2 is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)) . P2 is ext-real V27() V28() V29() set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) . (IC ) is set
Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (Directed c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Directed c)) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . ((card c) + 2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . ((card c) + 2) is set
goto (((card b) + (card c)) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1))) . (IC ) is set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))) is set
IC (Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))))) . (IC ) is set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
0 + (1 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
2 + k is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize s),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),f)) . (IC ) is set
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),f)) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize s),f))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
0 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . 2 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . 2 is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
2 + k is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize s),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),f)) . (IC ) is set
1 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 1) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card c) + 2) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize s),2)),f)) . (IC ) is set
(P +* (if=0 (I2,b,c))) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize s),P2))) is set
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (c,(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card c) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
c +~ ((halt SCM+FSA),(goto (card c))) is Relation-like Function-like set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
c ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(c,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop c) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop c)),(card (CutLastLoc (stop c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop c))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop c)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop c))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc ((Stop SCM+FSA),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IExec ((c ";" (Stop SCM+FSA)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (c ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (c ";" (Stop SCM+FSA))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((c ";" (Stop SCM+FSA)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((c ";" (Stop SCM+FSA)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if=0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((if=0 (I2,b,c)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (if=0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (if=0 (I2,b,c))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if=0 (I2,b,c)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if=0 (I2,b,c)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Goto ((card b) + 1)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Goto ((card b) + 1))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Goto ((card b) + 1)))),(card (CutLastLoc (stop (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Goto ((card b) + 1))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Goto ((card b) + 1)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Goto ((card b) + 1))))))) is Relation-like Function-like set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Goto ((card b) + 1))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P +* (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 =0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Initialized (Initialized s)) . I2 is ext-real V27() V28() V29() set
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* (if=0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . 0 is set
Initialize (Initialized (Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized (Initialized s)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(Directed c) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Directed c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Directed c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Directed c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Directed c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Directed c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Directed c))),(card (CutLastLoc (stop (Directed c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Directed c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Directed c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Directed c)))))) is Relation-like Function-like set
card (Directed c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card (Directed c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card (Directed c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card (Directed c)))),(card (Directed c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Directed c)))) +* (Reloc ((Stop SCM+FSA),(card (Directed c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize (Initialized s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize (Initialized s)) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
(I2 =0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 =0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 =0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 =0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 =0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 =0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 =0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 =0_goto ((card c) + 3)))))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 =0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 =0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 =0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 =0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 =0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))),(card ((I2 =0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 =0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 =0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 =0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 =0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
card ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 =0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 =0_goto ((card c) + 3))) ";" c) ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 =0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Macro (I2 =0_goto ((card c) + 3))) ";" (c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3)))))),(card (Macro (I2 =0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 =0_goto ((card c) + 3)))))) +* (Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 =0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
Reloc ((Directed c),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed c),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed c),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),0)) is set
Following ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))))) . (Initialize (Initialized s)) is set
Exec ((I2 =0_goto ((card c) + 3)),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 =0_goto ((card c) + 3))) . (Initialize (Initialized s)) is set
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Directed (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((Directed c),(card (Directed c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (Directed c)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Directed c) +~ ((halt SCM+FSA),(goto (card (Directed c)))) is Relation-like Function-like set
card (if=0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 0 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
pseudo-LifeSpan ((Initialized s),P,(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
(Initialize (Initialized s)) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) . (IC ) is set
succ (IC (Initialize (Initialized s))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() set
(P +* (if=0 (I2,b,c))) . 1 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . 1 is set
1 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(1 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) is set
Exec ((goto 2),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) is set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)) . (IC ) is set
f is FinSeq-Location
(Initialize (Initialized s)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
f is V95() Element of the carrier of SCM+FSA
(Initialize (Initialized s)) . f is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),1)) . f is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)) . f is ext-real V27() V28() V29() set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) . (IC ) is set
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) . (IC ) is set
Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Directed c)) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . ((card c) + 2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . ((card c) + 2) is set
goto (((card b) + (card c)) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1))) . (IC ) is set
Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))))) . (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) is set
IC (Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) . (IC ) is set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
0 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(if=0 (I2,b,c)) . 2 is set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if=0 (I2,b,c))) . 2 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),f))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),f)) . (IC ) is set
(P +* (if=0 (I2,b,c))) /. (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),f))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
2 + bb is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
k2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize (Initialized s)),k2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),k2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),k2)) . (IC ) is set
1 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 1) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card c) + 2) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),k2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),k2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),k2)) . (IC ) is set
(P +* (if=0 (I2,b,c))) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),f))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if=0 (I2,b,c)) . (IC (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),f))) is set
LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
InsCode (CurInstr ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of InsCodes the InstructionsF of SCM+FSA
InsCodes the InstructionsF of SCM+FSA is non empty set
K23( the InstructionsF of SCM+FSA) is set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Following ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((if=0 (I2,b,c)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (if=0 (I2,b,c))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if=0 (I2,b,c)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if=0 (I2,b,c)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (I2,b,c))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((c ";" (Stop SCM+FSA)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (c ";" (Stop SCM+FSA))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((c ";" (Stop SCM+FSA)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((c ";" (Stop SCM+FSA)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (c,(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card c) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
c +~ ((halt SCM+FSA),(goto (card c))) is Relation-like Function-like set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
c ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(c,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop c) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop c)),(card (CutLastLoc (stop c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop c))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop c)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop c))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc ((Stop SCM+FSA),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (c ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize s))) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if>0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
P +* (if>0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (if>0 (I2,b,c))),(s +* (Start-At (0,SCM+FSA)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Goto ((card b) + 1)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Goto ((card b) + 1))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Goto ((card b) + 1)))),(card (CutLastLoc (stop (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Goto ((card b) + 1))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Goto ((card b) + 1)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Goto ((card b) + 1))))))) is Relation-like Function-like set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Goto ((card b) + 1))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 >0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(I2 >0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 >0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 >0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 >0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 >0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3)))))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 >0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 >0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 >0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 >0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 >0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
card ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Macro (I2 >0_goto ((card c) + 3))) ";" (c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3)))))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) +* (Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* (if>0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 0 is set
card (if>0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 0 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize s) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Reloc ((Directed c),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed c),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed c),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(Initialized s) . I2 is ext-real V27() V28() V29() set
pseudo-LifeSpan (s,P,(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(P +* (if>0 (I2,b,c))) . 1 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 1 is set
DataPart s is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
s | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),0)) is set
Following ((P +* (if>0 (I2,b,c))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Initialize s)) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s))),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize s)))) . (Initialize s) is set
Exec ((I2 >0_goto ((card c) + 3)),(Initialize s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) . (Initialize s) is set
(Initialize s) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) . (IC ) is set
succ (IC (Initialize s)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() set
1 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(1 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) is set
Exec ((goto 2),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) is set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)) . (IC ) is set
P2 is FinSeq-Location
(Initialize s) . P2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) . P2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)) . P2 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P2 is V95() Element of the carrier of SCM+FSA
(Initialize s) . P2 is ext-real V27() V28() V29() set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),1)) . P2 is ext-real V27() V28() V29() set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)) . P2 is ext-real V27() V28() V29() set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) . (IC ) is set
Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize s),(pseudo-LifeSpan (s,P,(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (Directed c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Directed c)) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . ((card c) + 2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . ((card c) + 2) is set
goto (((card b) + (card c)) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1))) . (IC ) is set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2)))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))) is set
IC (Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2))))) . (IC ) is set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),(((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
0 + (1 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
2 + k is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize s),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),f)) . (IC ) is set
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),f)) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize s),f))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
0 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . 2 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 2 is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
2 + k is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize s),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize s),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize s),f)) . (IC ) is set
1 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 1) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card c) + 2) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
bb + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize s),2)),f)) . (IC ) is set
(P +* (if>0 (I2,b,c))) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize s),P2))) is set
LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize s),(P +* (Directed c)),(Directed c))) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (c,(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card c) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
c +~ ((halt SCM+FSA),(goto (card c))) is Relation-like Function-like set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
c ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(c,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop c) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop c)),(card (CutLastLoc (stop c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop c))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop c)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop c))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc ((Stop SCM+FSA),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IExec ((c ";" (Stop SCM+FSA)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (c ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (c ";" (Stop SCM+FSA))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((c ";" (Stop SCM+FSA)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((c ";" (Stop SCM+FSA)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I2 is V95() non read-only Element of the carrier of SCM+FSA
s . I2 is ext-real V27() V28() V29() set
if>0 (I2,b,c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((if>0 (I2,b,c)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (if>0 (I2,b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (if>0 (I2,b,c))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if>0 (I2,b,c)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if>0 (I2,b,c)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card b) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card b) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card b) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card b) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card b) + 1))} -valued Function-like constant total V31({0},{(goto ((card b) + 1))}) V34() Element of K32(K33({0},{(goto ((card b) + 1))}))
{(goto ((card b) + 1))} is non empty V34() set
K33({0},{(goto ((card b) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card b) + 1))})) is V34() V38() set
b ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Stop SCM+FSA),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Goto ((card b) + 1)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Goto ((card b) + 1))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Goto ((card b) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Goto ((card b) + 1)))),(card (CutLastLoc (stop (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Goto ((card b) + 1))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Goto ((card b) + 1)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Goto ((card b) + 1))))))) is Relation-like Function-like set
card (Goto ((card b) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card b) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))),(card (Goto ((card b) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Goto ((card b) + 1))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P +* (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(card c) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
I2 >0_goto ((card c) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Initialized (Initialized s)) . I2 is ext-real V27() V28() V29() set
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* (if>0 (I2,b,c))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 0 is set
Initialize (Initialized (Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized (Initialized s)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(Directed c) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211((Directed c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Directed c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Directed c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Directed c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Directed c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Directed c))),(card (CutLastLoc (stop (Directed c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Directed c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Directed c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Directed c)))))) is Relation-like Function-like set
card (Directed c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card (Directed c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card (Directed c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card (Directed c)))),(card (Directed c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Directed c)))) +* (Reloc ((Stop SCM+FSA),(card (Directed c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IC (Initialize (Initialized s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize (Initialized s)) . (IC ) is set
IC (Start-At (0,SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Start-At (0,SCM+FSA)) . (IC ) is set
(I2 >0_goto ((card c) + 3)) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (I2 >0_goto ((card c) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (I2 >0_goto ((card c) + 3))) ";" c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (I2 >0_goto ((card c) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (I2 >0_goto ((card c) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))),(card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))))) is Relation-like Function-like set
card (Macro (I2 >0_goto ((card c) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (I2 >0_goto ((card c) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (c,(card (Macro (I2 >0_goto ((card c) + 3)))))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) +* (Reloc (c,(card (Macro (I2 >0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((I2 >0_goto ((card c) + 3)) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 >0_goto ((card c) + 3)) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))),(card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))))) is Relation-like Function-like set
card ((I2 >0_goto ((card c) + 3)) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 >0_goto ((card c) + 3)) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))),(card ((I2 >0_goto ((card c) + 3)) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 >0_goto ((card c) + 3)) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((I2 >0_goto ((card c) + 3)) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))),(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc (b,(card (((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))),(card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))))) is Relation-like Function-like set
card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) +* (Reloc ((Stop SCM+FSA),(card ((((I2 >0_goto ((card c) + 3)) ";" c) ";" (Goto ((card b) + 1))) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((Macro (I2 >0_goto ((card c) + 3))) ";" c),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))),(card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))))) is Relation-like Function-like set
card ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((Macro (I2 >0_goto ((card c) + 3))) ";" c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) +* (Reloc ((Goto ((card b) + 1)),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) ";" (b ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))),(card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))))) is Relation-like Function-like set
card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) +* (Reloc ((b ";" (Stop SCM+FSA)),(card (((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" (Goto ((card b) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((Macro (I2 >0_goto ((card c) + 3))) ";" c) ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) +* (Reloc (((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA))),(card ((Macro (I2 >0_goto ((card c) + 3))) ";" c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(Macro (I2 >0_goto ((card c) + 3))) ";" (c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3)))))),(card (Macro (I2 >0_goto ((card c) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (I2 >0_goto ((card c) + 3)))))) +* (Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),(card (Macro (I2 >0_goto ((card c) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
Reloc ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((c ";" ((Goto ((card b) + 1)) ";" (b ";" (Stop SCM+FSA)))),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
Reloc ((Directed c),2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Directed c),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Directed c),2)),2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(0 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),0)) is set
Following ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Initialize (Initialized s))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))))) . (Initialize (Initialized s)) is set
Exec ((I2 >0_goto ((card c) + 3)),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(I2 >0_goto ((card c) + 3))) . (Initialize (Initialized s)) is set
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Directed (Directed c) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((Directed c),(card (Directed c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card (Directed c)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Directed c) +~ ((halt SCM+FSA),(goto (card (Directed c)))) is Relation-like Function-like set
card (if>0 (I2,b,c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if>0 (I2,b,c)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card c) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card b) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 0 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
3 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (3 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card b) + (card c)) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
pseudo-LifeSpan ((Initialized s),P,(Directed c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)),(LifeSpan ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
(Initialize (Initialized s)) . I2 is ext-real V27() V28() V29() set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) . (IC ) is set
succ (IC (Initialize (Initialized s))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() set
(P +* (if>0 (I2,b,c))) . 1 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 1 is set
1 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(1 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) is set
Exec ((goto 2),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 2)) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) is set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)) . (IC ) is set
f is FinSeq-Location
(Initialize (Initialized s)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
f is V95() Element of the carrier of SCM+FSA
(Initialize (Initialized s)) . f is ext-real V27() V28() V29() set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),1)) . f is ext-real V27() V28() V29() set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)) . f is ext-real V27() V28() V29() set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) . (IC ) is set
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) . (IC ) is set
Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c))))) . (IC ) is set
(IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialized s),P,(Directed c)))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (Directed c)) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . ((card c) + 2) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . ((card c) + 2) is set
goto (((card b) + (card c)) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1))) . (IC ) is set
Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2)))))) . (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) is set
IC (Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) . (IC ) is set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . (((card b) + (card c)) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (((card b) + (card c)) + 3) is set
0 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (if>0 (I2,b,c))) . 2 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . 2 is set
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),f))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),f)) . (IC ) is set
(P +* (if>0 (I2,b,c))) /. (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),f))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
bb is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() set
2 + bb is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
k2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (Directed c)),(Initialize (Initialized s)),k2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (Directed c)),(Initialize (Initialized s)),k2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),k2)) . (IC ) is set
1 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 1) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card c) + 2) + 1) + (card b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Directed c) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card b) + (card c)) + (1 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card c) + 2) + ((card b) + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
n is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
n + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),k2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),k2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),k2)) . (IC ) is set
(P +* (if>0 (I2,b,c))) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),f))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(if>0 (I2,b,c)) . (IC (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),f))) is set
LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
InsCode (CurInstr ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of InsCodes the InstructionsF of SCM+FSA
InsCodes the InstructionsF of SCM+FSA is non empty set
K23( the InstructionsF of SCM+FSA) is set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Following ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),((pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))) + 2))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),2)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (Directed c)),(Initialize (Initialized s)),(pseudo-LifeSpan ((Initialize (Initialized s)),(P +* (Directed c)),(Directed c))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((if>0 (I2,b,c)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (if>0 (I2,b,c))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((if>0 (I2,b,c)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((if>0 (I2,b,c)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)),(LifeSpan ((P +* (if>0 (I2,b,c))),(Initialize (Initialized s)))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (c ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((c ";" (Stop SCM+FSA)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (c ";" (Stop SCM+FSA))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((c ";" (Stop SCM+FSA)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((c ";" (Stop SCM+FSA)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (a,(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card a) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a +~ ((halt SCM+FSA),(goto (card a))) is Relation-like Function-like set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
c is V95() non read-only Element of the carrier of SCM+FSA
if=0 (c,a,b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
s . c is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (a,(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card a) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a +~ ((halt SCM+FSA),(goto (card a))) is Relation-like Function-like set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (b,(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card b) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b +~ ((halt SCM+FSA),(goto (card b))) is Relation-like Function-like set
c is V95() non read-only Element of the carrier of SCM+FSA
if>0 (c,a,b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
s . c is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is V95() Element of the carrier of SCM+FSA
Directed P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (P,(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card P) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P +~ ((halt SCM+FSA),(goto (card P))) is Relation-like Function-like set
P is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Macro P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is V95() Element of the carrier of SCM+FSA
rng (Macro P) is non empty V34() set
{P,(halt SCM+FSA)} is non empty V34() set
a is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is V95() Element of the carrier of SCM+FSA
s is V95() Element of the carrier of SCM+FSA
s := P is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a is V95() Element of the carrier of SCM+FSA
AddTo (a,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b is V95() Element of the carrier of SCM+FSA
SubFrom (b,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
c is V95() Element of the carrier of SCM+FSA
MultBy (c,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
I2 is V95() Element of the carrier of SCM+FSA
Divide (P,I2) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
I is V95() Element of the carrier of SCM+FSA
Divide (I,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P =0_goto D is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P >0_goto sa is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
s is V95() Element of the carrier of SCM+FSA
s0 is FinSeq-Location
s := (s0,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
s21 is V95() Element of the carrier of SCM+FSA
P21 is FinSeq-Location
(P21,s21) := P is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
s31 is V95() Element of the carrier of SCM+FSA
P31 is FinSeq-Location
(P31,P) := s31 is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
J3 is FinSeq-Location
J3 :=<0,...,0> P is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P is V95() Element of the carrier of SCM+FSA
s is V95() Element of the carrier of SCM+FSA
a is V95() Element of the carrier of SCM+FSA
AddTo (a,s) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
InsCode (AddTo (a,s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V145(3, SCM+FSA ) Element of InsCodes the InstructionsF of SCM+FSA
InsCodes the InstructionsF of SCM+FSA is non empty set
K23( the InstructionsF of SCM+FSA) is set
b is V95() Element of the carrier of SCM+FSA
b := P is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
AddTo (b,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
SubFrom (b,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
MultBy (b,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
Divide (P,b) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
Divide (b,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P =0_goto c is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P >0_goto c is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
I2 is FinSeq-Location
b := (I2,P) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(I2,b) := P is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(I2,P) := b is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
I2 :=<0,...,0> P is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Macro P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is V95() Element of the carrier of SCM+FSA
rng (Macro P) is non empty V34() set
{P,(halt SCM+FSA)} is non empty V34() set
a is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc (s,(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
a is V95() Element of the carrier of SCM+FSA
Directed P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (P,(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card P) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P +~ ((halt SCM+FSA),(goto (card P))) is Relation-like Function-like set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro s) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro s))),(card (CutLastLoc (stop (Macro s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro s)))))) is Relation-like Function-like set
card (Macro s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (Macro s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (Macro s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (Macro s)))),(card (Macro s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro s)))) +* (Reloc (P,(card (Macro s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
a is V95() Element of the carrier of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P ";" (Macro s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro s),(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro s),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro s),(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc ((Macro s),(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
a is V95() Element of the carrier of SCM+FSA
P is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
s is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro P) ";" (Macro s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro P))),(card (CutLastLoc (stop (Macro P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro P)))))) is Relation-like Function-like set
card (Macro P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro s),(card (Macro P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro s),(card (Macro P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro s),(card (Macro P)))),(card (Macro P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro P)))) +* (Reloc ((Macro s),(card (Macro P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
a is V95() Element of the carrier of SCM+FSA
P is V95() Element of the carrier of SCM+FSA
rng (Stop SCM+FSA) is non empty V5() V34() set
{(halt SCM+FSA)} is non empty V34() set
s is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is V95() Element of the carrier of SCM+FSA
s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Goto s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto s is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto s) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto s) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto s)} -valued Function-like constant total V31({0},{(goto s)}) V34() Element of K32(K33({0},{(goto s)}))
{(goto s)} is non empty V34() set
K33({0},{(goto s)}) is Relation-like V34() set
K32(K33({0},{(goto s)})) is V34() V38() set
rng (Goto s) is non empty V34() set
a is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
LifeSpan ((P +* a),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize (Initialized s)),(LifeSpan ((P +* a),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
I is V95() non read-only Element of the carrier of SCM+FSA
(IExec (a,P,s)) . I is ext-real V27() V28() V29() set
Result ((P +* a),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Result ((P +* a),(Initialize (Initialized s)))) . I is ext-real V27() V28() V29() set
(Comput ((P +* a),(Initialize (Initialized s)),(LifeSpan ((P +* a),(Initialize (Initialized s)))))) . I is ext-real V27() V28() V29() set
I is FinSeq-Location
(IExec (a,P,s)) . I is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* a),(Initialize (Initialized s)),(LifeSpan ((P +* a),(Initialize (Initialized s)))))) . I is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Result ((P +* a),(Initialize (Initialized s)))) . I is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
LifeSpan ((P +* a),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize (Initialized s)),(LifeSpan ((P +* a),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
b is V95() non read-only Element of the carrier of SCM+FSA
(IExec (a,P,s)) . b is ext-real V27() V28() V29() set
(Comput ((P +* a),(Initialize (Initialized s)),(LifeSpan ((P +* a),(Initialize (Initialized s)))))) . b is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
b is V95() Element of the carrier of SCM+FSA
(IExec (a,P,s)) . b is ext-real V27() V28() V29() set
c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize (Initialized s)),c) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize (Initialized s)),c)) . b is ext-real V27() V28() V29() set
Result ((P +* a),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Result ((P +* a),(Initialize (Initialized s)))) . b is ext-real V27() V28() V29() set
LifeSpan ((P +* a),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize (Initialized s)),(LifeSpan ((P +* a),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize (Initialized s)),(LifeSpan ((P +* a),(Initialize (Initialized s)))))) . b is ext-real V27() V28() V29() set
(Initialized s) . b is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
b is V95() Element of the carrier of SCM+FSA
(IExec (a,P,s)) . b is ext-real V27() V28() V29() set
c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize (Initialized s)),c) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize (Initialized s)),c)) . b is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
IExec (b,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* b),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
c is V95() Element of the carrier of SCM+FSA
(IExec (b,P,s)) . c is ext-real V27() V28() V29() set
(Initialized s) . c is ext-real V27() V28() V29() set
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
DataPart (Initialize (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Comput ((P +* b),(Initialize (Initialized s)),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* b),(Initialize (Initialized s)),0)) . c is ext-real V27() V28() V29() set
(Initialize (Initialized s)) . c is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized a) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized a) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed set
IExec (c,P,a) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* c),(Initialized a)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec (c,P,a)) . (intloc 0) is ext-real V27() V28() V29() set
DataPart (Initialized a) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized a) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized a)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized a)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* c),(Initialize (Initialized a)),sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* c),(Initialize (Initialized a)),sa)) . (intloc 0) is ext-real V27() V28() V29() set
(Initialize (Initialized a)) . (intloc 0) is ext-real V27() V28() V29() set
(Initialized a) . (intloc 0) is ext-real V27() V28() V29() set
Result ((P +* c),(Initialize (Initialized a))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Result ((P +* c),(Initialize (Initialized a)))) . (intloc 0) is ext-real V27() V28() V29() set
LifeSpan ((P +* c),(Initialize (Initialized a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* c),(Initialize (Initialized a)),(LifeSpan ((P +* c),(Initialize (Initialized a))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* c),(Initialize (Initialized a)),(LifeSpan ((P +* c),(Initialize (Initialized a)))))) . (intloc 0) is ext-real V27() V28() V29() set
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* c),(Initialize (Initialized a)),sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* c),(Initialize (Initialized a)),sa)) . (intloc 0) is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
b is V95() Element of the carrier of SCM+FSA
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* a),(Initialize s),I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),I)) . (IC ) is set
I + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* a),(Initialize s),(I + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize s),(I + 1))) . b is ext-real V27() V28() V29() set
(Comput ((P +* a),(Initialize s),I)) . b is ext-real V27() V28() V29() set
(P +* a) . (IC (Comput ((P +* a),(Initialize s),I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
a . (IC (Comput ((P +* a),(Initialize s),I))) is set
rng a is non empty V34() set
Following ((P +* a),(Comput ((P +* a),(Initialize s),I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* a) /. (IC (Comput ((P +* a),(Initialize s),I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),I)))),(Comput ((P +* a),(Initialize s),I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),I))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),I))))) . (Comput ((P +* a),(Initialize s),I)) is set
(Following ((P +* a),(Comput ((P +* a),(Initialize s),I)))) . b is ext-real V27() V28() V29() set
Exec (((P +* a) . (IC (Comput ((P +* a),(Initialize s),I)))),(Comput ((P +* a),(Initialize s),I))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,((P +* a) . (IC (Comput ((P +* a),(Initialize s),I))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,((P +* a) . (IC (Comput ((P +* a),(Initialize s),I))))) . (Comput ((P +* a),(Initialize s),I)) is set
(Exec (((P +* a) . (IC (Comput ((P +* a),(Initialize s),I)))),(Comput ((P +* a),(Initialize s),I)))) . b is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
b is V95() Element of the carrier of SCM+FSA
s . b is ext-real V27() V28() V29() set
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize s),D)) . b is ext-real V27() V28() V29() set
D + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* a),(Initialize s),(D + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize s),(D + 1))) . b is ext-real V27() V28() V29() set
D + 0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
IC (Comput ((P +* a),(Initialize s),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),D)) . (IC ) is set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize s),D)) . b is ext-real V27() V28() V29() set
Comput ((P +* a),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize s),0)) . b is ext-real V27() V28() V29() set
(Initialize s) . b is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
s . (intloc 0) is ext-real V27() V28() V29() set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),c) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize s),c)) . (intloc 0) is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized a) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized a) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
IExec (b,P,a) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* b),(Initialized a)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec (b,P,a)) . (intloc 0) is ext-real V27() V28() V29() set
(Initialized a) . (intloc 0) is ext-real V27() V28() V29() set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize (Initialized a)),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* b),(Initialize (Initialized a)),D)) . (intloc 0) is ext-real V27() V28() V29() set
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize (Initialized a)),sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* b),(Initialize (Initialized a)),sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* b),(Initialize (Initialized a)),sa)) . (IC ) is set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
D + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize (Initialized a)),sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* b),(Initialize (Initialized a)),sa)) . (intloc 0) is ext-real V27() V28() V29() set
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize (Initialized a)),s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* b),(Initialize (Initialized a)),s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* b),(Initialize (Initialized a)),s)) . (IC ) is set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize (Initialized a)),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* b),(Initialize (Initialized a)),D)) . (intloc 0) is ext-real V27() V28() V29() set
Result ((P +* b),(Initialize (Initialized a))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Result ((P +* b),(Initialize (Initialized a)))) . (intloc 0) is ext-real V27() V28() V29() set
LifeSpan ((P +* b),(Initialize (Initialized a))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize (Initialized a)),(LifeSpan ((P +* b),(Initialize (Initialized a))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* b),(Initialize (Initialized a)),(LifeSpan ((P +* b),(Initialize (Initialized a)))))) . (intloc 0) is ext-real V27() V28() V29() set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* b),(Initialize (Initialized a)),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* b),(Initialize (Initialized a)),D)) . (intloc 0) is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
s . (intloc 0) is ext-real V27() V28() V29() set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),b) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize s),b)) . (intloc 0) is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
b is V95() non read-only Element of the carrier of SCM+FSA
SubFrom (b,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a ";" (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (b,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a ";" (Macro (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
P +* (a ";" (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialize (Initialized s)),(LifeSpan ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialize (Initialized s)),(LifeSpan ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialize (Initialized s)))))) . b is ext-real V27() V28() V29() set
s . b is ext-real V27() V28() V29() set
(s . b) - 1 is ext-real V27() V28() V29() set
dom (Start-At (0,SCM+FSA)) is non empty V34() set
IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . b is ext-real V27() V28() V29() set
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (b,(intloc 0)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (b,(intloc 0)))) . (IExec (a,P,s)) is set
(Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,s)))) . b is ext-real V27() V28() V29() set
(IExec (a,P,s)) . b is ext-real V27() V28() V29() set
(IExec (a,P,s)) . (intloc 0) is ext-real V27() V28() V29() set
((IExec (a,P,s)) . b) - ((IExec (a,P,s)) . (intloc 0)) is ext-real V27() V28() V29() set
((IExec (a,P,s)) . b) - 1 is ext-real V27() V28() V29() set
Comput ((P +* a),(Initialize (Initialized s)),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* a),(Initialize (Initialized s)),0)) . b is ext-real V27() V28() V29() set
((Comput ((P +* a),(Initialize (Initialized s)),0)) . b) - 1 is ext-real V27() V28() V29() set
(Initialize (Initialized s)) . b is ext-real V27() V28() V29() set
((Initialize (Initialized s)) . b) - 1 is ext-real V27() V28() V29() set
(Initialized s) . b is ext-real V27() V28() V29() set
((Initialized s) . b) - 1 is ext-real V27() V28() V29() set
P is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Macro P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* I2),(Initialize a),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((s +* I2),(Initialize b),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* I2),(Comput ((P +* I2),(Initialize a),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* I2),(Initialize a),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialize a),s0)) . (IC ) is set
(P +* I2) /. (IC (Comput ((P +* I2),(Initialize a),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr ((s +* I2),(Comput ((s +* I2),(Initialize b),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((s +* I2),(Initialize b),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialize b),s0)) . (IC ) is set
(s +* I2) /. (IC (Comput ((s +* I2),(Initialize b),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
dom I2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
s21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((s +* I2),(Initialize b),s21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((s +* I2),(Initialize b),s21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialize b),s21)) . (IC ) is set
(s +* I2) . (IC (Comput ((s +* I2),(Initialize b),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
I2 . (IC (Comput ((s +* I2),(Initialize b),s0))) is set
(P +* I2) . (IC (Comput ((P +* I2),(Initialize a),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart a is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
a | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((P +* I2),(Initialize a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
s +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((s +* I2),(Initialize b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Result ((P +* I2),(Initialize a)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((s +* I2),(Initialize b)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* I2),(Initialize a),(LifeSpan ((P +* I2),(Initialize a)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((s +* I2),(Initialize b),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((s +* I2),(Comput ((s +* I2),(Initialize b),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((s +* I2),(Initialize b),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialize b),s0)) . (IC ) is set
(s +* I2) /. (IC (Comput ((s +* I2),(Initialize b),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* I2),(Initialize a),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* I2),(Comput ((P +* I2),(Initialize a),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* I2),(Initialize a),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialize a),s0)) . (IC ) is set
(P +* I2) /. (IC (Comput ((P +* I2),(Initialize a),s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((s +* I2),(Initialize b),(LifeSpan ((P +* I2),(Initialize a)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((s +* I2),(Comput ((s +* I2),(Initialize b),(LifeSpan ((P +* I2),(Initialize a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((s +* I2),(Initialize b),(LifeSpan ((P +* I2),(Initialize a))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((s +* I2),(Initialize b),(LifeSpan ((P +* I2),(Initialize a))))) . (IC ) is set
(s +* I2) /. (IC (Comput ((s +* I2),(Initialize b),(LifeSpan ((P +* I2),(Initialize a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr ((P +* I2),(Comput ((P +* I2),(Initialize a),(LifeSpan ((P +* I2),(Initialize a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* I2),(Initialize a),(LifeSpan ((P +* I2),(Initialize a))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* I2),(Initialize a),(LifeSpan ((P +* I2),(Initialize a))))) . (IC ) is set
(P +* I2) /. (IC (Comput ((P +* I2),(Initialize a),(LifeSpan ((P +* I2),(Initialize a)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
Result (P,a) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result (s,b) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Initialize b is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
b +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialize a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (P,(Comput (P,a,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (P,a,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,I)) . (IC ) is set
P /. (IC (Comput (P,a,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
dom (Comput (P,a,D)) is non empty set
IC (Comput (P,a,D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,D)) . (IC ) is set
IC b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
b . (IC ) is set
IC (Initialize b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize b) . (IC ) is set
Initialize (Comput (P,a,D)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Comput (P,a,D)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
s0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,(Comput (P,a,D)),s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,(Comput (P,a,D)),s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,(Comput (P,a,D)),s0)) . (IC ) is set
D + s0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,(D + s0)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,a,(D + s0))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,(D + s0))) . (IC ) is set
dom I2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
I + D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,(I + D)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput (P,(Comput (P,a,D)),I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput (P,a,D)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P,a,D)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart b is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
b | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
s0 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,a,s0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (P,(Comput (P,a,s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (P,a,s0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,a,s0)) . (IC ) is set
P /. (IC (Comput (P,a,s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P . (IC (Comput (P,a,s0))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Result (P,(Comput (P,a,D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (P,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto 0 is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
dom (Directed (P,0)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() Element of K32(NAT)
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (P,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
P +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
s is V95() Element of the carrier of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
(P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (P,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free good set
P +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (P,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
P +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
rng (P) is non empty V34() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((P +* a),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (a,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
a +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* (a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (a)),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
D + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* a),(Initialize s),(D + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (a)),(Initialize s),(D + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* a),(Comput ((P +* a),(Initialize s),D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* a),(Initialize s),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),D)) . (IC ) is set
(P +* a) /. (IC (Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),D)))),(Comput ((P +* a),(Initialize s),D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),D))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),D))))) . (Comput ((P +* a),(Initialize s),D)) is set
Following ((P +* (a)),(Comput ((P +* (a)),(Initialize s),D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),(Initialize s),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),(Initialize s),D)) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),D)))),(Comput ((P +* (a)),(Initialize s),D))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),D))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),D))))) . (Comput ((P +* (a)),(Initialize s),D)) is set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* a) . (IC (Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
a . (IC (Comput ((P +* a),(Initialize s),D))) is set
(P +* (a)) . (IC (Comput ((P +* (a)),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
dom (a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(a) . (IC (Comput ((P +* a),(Initialize s),D))) is set
(P +* (a)) . (IC (Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* a),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (a)),(Initialize s),0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((P +* a),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (a,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
a +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* (a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* a),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* a),(Initialize s),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),D)) . (IC ) is set
(P +* a) /. (IC (Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* (a)),(Initialize s),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),(Initialize s),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),(Initialize s),D)) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
dom (a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(P +* a) . (IC (Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
a . (IC (Comput ((P +* a),(Initialize s),D))) is set
(P +* (a)) . (IC (Comput ((P +* (a)),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(a) . (IC (Comput ((P +* a),(Initialize s),D))) is set
(P +* (a)) . (IC (Comput ((P +* a),(Initialize s),D))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
id the InstructionsF of SCM+FSA is non empty Relation-like the InstructionsF of SCM+FSA -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one total Element of K32(K33( the InstructionsF of SCM+FSA, the InstructionsF of SCM+FSA))
K33( the InstructionsF of SCM+FSA, the InstructionsF of SCM+FSA) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA, the InstructionsF of SCM+FSA)) is set
dom (id the InstructionsF of SCM+FSA) is non empty set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (a,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
a +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* (a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((P +* a),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s))))) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s))))) . (IC ) is set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
dom (a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* a) /. (IC (Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* a) . (IC (Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
a . (IC (Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is set
rng a is non empty V34() set
(P +* (a)) . (IC (Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* (a)) . (IC (Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(a) . (IC (Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is set
(id the InstructionsF of SCM+FSA) +* ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
a * ((id the InstructionsF of SCM+FSA) +* ((halt SCM+FSA),(goto 0))) is Relation-like NAT -defined Function-like V34() set
(a * ((id the InstructionsF of SCM+FSA) +* ((halt SCM+FSA),(goto 0)))) . (IC (Comput ((P +* a),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is set
((id the InstructionsF of SCM+FSA) +* ((halt SCM+FSA),(goto 0))) . (halt SCM+FSA) is set
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (a)),(Initialize s),sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),(Initialize s),sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),(Initialize s),sa)) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),(Initialize s),sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* a),(Initialize s),sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* a),(Comput ((P +* a),(Initialize s),sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* a),(Initialize s),sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* a),(Initialize s),sa)) . (IC ) is set
(P +* a) /. (IC (Comput ((P +* a),(Initialize s),sa))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
LifeSpan ((P +* a),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (a,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
a +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* (a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Comput ((P +* (a)),(Initialize s),b) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),b))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),(Initialize s),b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),(Initialize s),b)) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),(Initialize s),b))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
(a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (a,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
a +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* (a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((P +* a),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s))))) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),(Initialize s),(LifeSpan ((P +* a),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
LifeSpan (P,s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed set
(a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (a,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
a +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* (a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P,s,I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (a)),s,I2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
I2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput (P,s,(I2 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (a)),s,(I2 + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,s,I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,s,I2)) . (IC ) is set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
dom (a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
P /. (IC (Comput (P,s,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P . (IC (Comput (P,s,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
CurInstr (P,(Comput (P,s,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
a . (IC (Comput (P,s,I2))) is set
Following ((P +* (a)),(Comput ((P +* (a)),s,I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),s,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),s,I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),s,I2)) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),s,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* (a)),(Comput ((P +* (a)),s,I2)))),(Comput ((P +* (a)),s,I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (a)),(Comput ((P +* (a)),s,I2))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* (a)),(Comput ((P +* (a)),s,I2))))) . (Comput ((P +* (a)),s,I2)) is set
Following (P,(Comput (P,s,I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr (P,(Comput (P,s,I2)))),(Comput (P,s,I2))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,s,I2))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P,(Comput (P,s,I2))))) . (Comput (P,s,I2)) is set
(P +* (a)) . (IC (Comput ((P +* (a)),s,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(a) . (IC (Comput (P,s,I2))) is set
(P +* (a)) . (IC (Comput (P,s,I2))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (P,s,0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (a)),s,0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
LifeSpan (P,s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
(a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (a,0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
a +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* (a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (a)),s,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* (a)),(Comput ((P +* (a)),s,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* (a)),s,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (a)),s,I)) . (IC ) is set
(P +* (a)) /. (IC (Comput ((P +* (a)),s,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (P,s,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,s,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,s,I)) . (IC ) is set
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
dom (a) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
I2 is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
Comput (P,I2,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P,I2,I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P,I2,I)) . (IC ) is set
(a) . (IC (Comput (P,s,I))) is set
rng (a) is non empty V34() set
(P +* (a)) . (IC (Comput ((P +* (a)),s,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput ((P +* (a)),I2,I) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(P +* (a)) . (IC (Comput (P,s,I))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P is V95() Element of the carrier of SCM+FSA
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
SubFrom (P,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
s ";" (SubFrom (P,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (SubFrom (P,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
K249(SCM+FSA,(SubFrom (P,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (P,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (P,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s ";" (Macro (SubFrom (P,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(s,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop s) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop s)),(card (CutLastLoc (stop s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop s))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop s)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop s))))) is Relation-like Function-like set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (P,(intloc 0)))),(card s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (P,(intloc 0)))),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (P,(intloc 0)))),(card s))),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop s))) +* (Reloc ((Macro (SubFrom (P,(intloc 0)))),(card s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (P,((if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
P is V95() Element of the carrier of SCM+FSA
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(P,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
SubFrom (P,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
s ";" (SubFrom (P,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (SubFrom (P,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
K249(SCM+FSA,(SubFrom (P,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (P,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (P,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s ";" (Macro (SubFrom (P,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(s,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop s) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop s)),(card (CutLastLoc (stop s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop s))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop s)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop s))))) is Relation-like Function-like set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (P,(intloc 0)))),(card s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (P,(intloc 0)))),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (P,(intloc 0)))),(card s))),(card s)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop s))) +* (Reloc ((Macro (SubFrom (P,(intloc 0)))),(card s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (P,((if=0 (P,(Goto 2),(s ";" (SubFrom (P,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
s is V95() non read-only Element of the carrier of SCM+FSA
SubFrom (s,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P ";" (SubFrom (s,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (SubFrom (s,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (s,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (s,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (s,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P ";" (Macro (SubFrom (s,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (s,(intloc 0)))),(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (s,(intloc 0)))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (s,(intloc 0)))),(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc ((Macro (SubFrom (s,(intloc 0)))),(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
P ";" a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
Reloc (a,(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (a,(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (a,(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc (a,(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card b) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
s =0_goto ((card b) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
Macro (s =0_goto ((card b) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(s =0_goto ((card b) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(s =0_goto ((card b) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(s =0_goto ((card b) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
if=0 (s,(Goto 2),b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
(s =0_goto ((card b) + 3)) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (s =0_goto ((card b) + 3))) ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (s =0_goto ((card b) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (s =0_goto ((card b) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (s =0_goto ((card b) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (s =0_goto ((card b) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (s =0_goto ((card b) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (s =0_goto ((card b) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (s =0_goto ((card b) + 3))))),(card (CutLastLoc (stop (Macro (s =0_goto ((card b) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (s =0_goto ((card b) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (s =0_goto ((card b) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (s =0_goto ((card b) + 3)))))))) is Relation-like Function-like set
card (Macro (s =0_goto ((card b) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (s =0_goto ((card b) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (b,(card (Macro (s =0_goto ((card b) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card (Macro (s =0_goto ((card b) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card (Macro (s =0_goto ((card b) + 3)))))),(card (Macro (s =0_goto ((card b) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (s =0_goto ((card b) + 3)))))) +* (Reloc (b,(card (Macro (s =0_goto ((card b) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (Goto 2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Goto 2)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card (Goto 2)) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card (Goto 2)) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card (Goto 2)) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card (Goto 2)) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card (Goto 2)) + 1))} -valued Function-like constant total V31({0},{(goto ((card (Goto 2)) + 1))}) V34() Element of K32(K33({0},{(goto ((card (Goto 2)) + 1))}))
{(goto ((card (Goto 2)) + 1))} is non empty V34() set
K33({0},{(goto ((card (Goto 2)) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card (Goto 2)) + 1))})) is V34() V38() set
((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((s =0_goto ((card b) + 3)) ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((s =0_goto ((card b) + 3)) ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b))),(card (CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b)))))) is Relation-like Function-like set
card ((s =0_goto ((card b) + 3)) ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((s =0_goto ((card b) + 3)) ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card (Goto 2)) + 1)),(card ((s =0_goto ((card b) + 3)) ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card (Goto 2)) + 1)),(card ((s =0_goto ((card b) + 3)) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card (Goto 2)) + 1)),(card ((s =0_goto ((card b) + 3)) ";" b)))),(card ((s =0_goto ((card b) + 3)) ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((s =0_goto ((card b) + 3)) ";" b)))) +* (Reloc ((Goto ((card (Goto 2)) + 1)),(card ((s =0_goto ((card b) + 3)) ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))),(card (CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1)))))))) is Relation-like Function-like set
card (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1)))))),(card (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1)))))) +* (Reloc ((Goto 2),(card (((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))),(card (CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))))) is Relation-like Function-like set
card ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))),(card ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card ((((s =0_goto ((card b) + 3)) ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
c ";" b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
stop c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(c,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop c) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop c)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop c)),(card (CutLastLoc (stop c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop c))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop c)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop c))))) is Relation-like Function-like set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (b,(card c)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (b,(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (b,(card c))),(card c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop c))) +* (Reloc (b,(card c))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(c ";" b) ";" (Goto ((card (Goto 2)) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
stop (c ";" b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((c ";" b),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (c ";" b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (c ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (c ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (c ";" b))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (c ";" b))),(card (CutLastLoc (stop (c ";" b))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (c ";" b)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (c ";" b))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (c ";" b)))))) is Relation-like Function-like set
card (c ";" b) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (c ";" b) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card (Goto 2)) + 1)),(card (c ";" b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card (Goto 2)) + 1)),(card (c ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card (Goto 2)) + 1)),(card (c ";" b)))),(card (c ";" b))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (c ";" b)))) +* (Reloc ((Goto ((card (Goto 2)) + 1)),(card (c ";" b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((c ";" b) ";" (Goto ((card (Goto 2)) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))),(card (CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1)))))))) is Relation-like Function-like set
card ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card ((c ";" b) ";" (Goto ((card (Goto 2)) + 1)))))),(card ((c ";" b) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((c ";" b) ";" (Goto ((card (Goto 2)) + 1)))))) +* (Reloc ((Goto 2),(card ((c ";" b) ";" (Goto ((card (Goto 2)) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free good set
stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))),(card (CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))))) is Relation-like Function-like set
card (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))),(card (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card (((c ";" b) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a is V95() Element of the carrier of SCM+FSA
SubFrom (a,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P ";" (SubFrom (a,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (SubFrom (a,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
K249(SCM+FSA,(SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (a,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P ";" (Macro (SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (a,(intloc 0)))),(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc ((Macro (SubFrom (a,(intloc 0)))),(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (a,(Goto 2),(P ";" (SubFrom (a,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
card (P ";" (SubFrom (a,(intloc 0)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (P ";" (SubFrom (a,(intloc 0)))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (P ";" (SubFrom (a,(intloc 0))))) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(if=0 (a,(Goto 2),(P ";" (SubFrom (a,(intloc 0)))))) . ((card (P ";" (SubFrom (a,(intloc 0))))) + 3) is set
(card (P ";" (SubFrom (a,(intloc 0))))) + 5 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 5) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))) ";" (P ";" (SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))),(card (CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)))))))) is Relation-like Function-like set
card (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((P ";" (SubFrom (a,(intloc 0)))),(card (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((P ";" (SubFrom (a,(intloc 0)))),(card (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((P ";" (SubFrom (a,(intloc 0)))),(card (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)))))),(card (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)))))) +* (Reloc ((P ";" (SubFrom (a,(intloc 0)))),(card (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (Goto 2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Goto 2)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card (Goto 2)) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card (Goto 2)) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card (Goto 2)) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card (Goto 2)) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card (Goto 2)) + 1))} -valued Function-like constant total V31({0},{(goto ((card (Goto 2)) + 1))}) V34() Element of K32(K33({0},{(goto ((card (Goto 2)) + 1))}))
{(goto ((card (Goto 2)) + 1))} is non empty V34() set
K33({0},{(goto ((card (Goto 2)) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card (Goto 2)) + 1))})) is V34() V38() set
((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))),(card (CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0)))))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0)))))))))) is Relation-like Function-like set
card ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card (Goto 2)) + 1)),(card ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card (Goto 2)) + 1)),(card ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card (Goto 2)) + 1)),(card ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0)))))))),(card ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0)))))))) +* (Reloc ((Goto ((card (Goto 2)) + 1)),(card ((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0)))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))),(card (CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))))))) is Relation-like Function-like set
card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))))),(card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))))) +* (Reloc ((Goto 2),(card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
card (Goto ((card (Goto 2)) + 1)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto ((card (Goto 2)) + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Macro (a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)))) + (card (P ";" (SubFrom (a,(intloc 0))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
2 + (card (P ";" (SubFrom (a,(intloc 0))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (P ";" (SubFrom (a,(intloc 0))))) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card (P ";" (SubFrom (a,(intloc 0))))) + 2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
2 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 1)) -' (card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Goto 2) . (((card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 1)) -' (card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is set
(card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1)))) + (card (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) . ((card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 1)) is set
IncAddr ((goto 2),(card (((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
2 + ((card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 1)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto (2 + ((card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 1))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
2 + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 3) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto ((card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 3)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
((card (P ";" (SubFrom (a,(intloc 0))))) + (2 + 1)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(2 + 1) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (P ";" (SubFrom (a,(intloc 0))))) + ((2 + 1) + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card (P ";" (SubFrom (a,(intloc 0))))) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))),(card (CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))))) is Relation-like Function-like set
Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))),(card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA)) . ((card (P ";" (SubFrom (a,(intloc 0))))) + 3) is set
Directed ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) +~ ((halt SCM+FSA),(goto (card ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like Function-like set
(Directed ((((a =0_goto ((card (P ";" (SubFrom (a,(intloc 0))))) + 3)) ";" (P ";" (SubFrom (a,(intloc 0))))) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) . ((card (P ";" (SubFrom (a,(intloc 0))))) + 3) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
b is V95() non read-only Element of the carrier of SCM+FSA
s . b is ext-real V27() V28() V29() set
SubFrom (b,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a ";" (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (b,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a ";" (Macro (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
card I2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom I2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card I2) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
b =0_goto ((card I2) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
D + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
sa is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
sa . (intloc 0) is ext-real V27() V28() V29() set
sa . b is ext-real V27() V28() V29() set
Initialize sa is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
sa +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . b is ext-real V27() V28() V29() set
(sa . b) - 1 is ext-real V27() V28() V29() set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . (intloc 0) is ext-real V27() V28() V29() set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))))) . (IC ) is set
(P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) /. (IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))))))) . (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))))) is set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . (IC ) is set
Exec ((goto 0),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 0)) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 0)) . (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))))) is set
(Exec ((goto 0),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))))))) . (IC ) is set
Initialized sa is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
sa +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
IExec ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),P,sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialized sa)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec (I2,P,sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* I2),(Initialized sa)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
card (Goto 2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Goto 2)) + (card I2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Goto 2)) + (card I2)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Start-At ((((card (Goto 2)) + (card I2)) + 3),SCM+FSA) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible V34() ((card (Goto 2)) + (card I2)) + 3 -started set
(IC ) .--> (((card (Goto 2)) + (card I2)) + 3) is V5() Relation-like the carrier of SCM+FSA -defined {(IC )} -defined NAT -valued Function-like one-to-one constant V34() set
{(IC )} --> (((card (Goto 2)) + (card I2)) + 3) is non empty Relation-like non-empty non empty-yielding {(IC )} -defined NAT -valued {(((card (Goto 2)) + (card I2)) + 3)} -valued Function-like constant total V31({(IC )},{(((card (Goto 2)) + (card I2)) + 3)}) V34() Element of K32(K33({(IC )},{(((card (Goto 2)) + (card I2)) + 3)}))
{(((card (Goto 2)) + (card I2)) + 3)} is non empty V34() V45() V46() set
K33({(IC )},{(((card (Goto 2)) + (card I2)) + 3)}) is Relation-like V34() set
K32(K33({(IC )},{(((card (Goto 2)) + (card I2)) + 3)})) is V34() V38() set
(IExec (I2,P,sa)) +* (Start-At ((((card (Goto 2)) + (card I2)) + 3),SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total ((card (Goto 2)) + (card I2)) + 3 -started set
(IExec ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),P,sa)) . b is ext-real V27() V28() V29() set
(IExec (I2,P,sa)) . b is ext-real V27() V28() V29() set
card (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
((card (Goto 2)) + (card I2)) + 4 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card I2) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card I2) + 1) + 4 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card I2) + 3) + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
card (dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
1 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card I2) + 3) + (1 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card I2) + 3) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((card I2) + 3) + 1) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom sa is non empty set
sa +* ((intloc 0) .--> 1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Initialized sa) . b is ext-real V27() V28() V29() set
Initialize (Initialized sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized sa) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
J3 is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(sa +* ((intloc 0) .--> 1)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
((sa +* ((intloc 0) .--> 1)) +* (Start-At (0,SCM+FSA))) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s2 is V95() Element of the carrier of SCM+FSA
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . s2 is ext-real V27() V28() V29() set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))))) . s2 is ext-real V27() V28() V29() set
Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3)))) . s2 is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3)))) . b is ext-real V27() V28() V29() set
LifeSpan ((P +* I2),(Initialize (Initialized sa))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* I2),((Initialized sa) +* (Start-At (0,SCM+FSA))),(LifeSpan ((P +* I2),(Initialize (Initialized sa))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* I2),((Initialized sa) +* (Start-At (0,SCM+FSA))),(LifeSpan ((P +* I2),(Initialize (Initialized sa)))))) . b is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),J3)))) . (intloc 0) is ext-real V27() V28() V29() set
Macro (b =0_goto ((card I2) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(b =0_goto ((card I2) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(b =0_goto ((card I2) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(b =0_goto ((card I2) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (b =0_goto ((card I2) + 3))) . 0 is set
dom (Macro (b =0_goto ((card I2) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
(b =0_goto ((card I2) + 3)) ";" I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (b =0_goto ((card I2) + 3))) ";" I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (b =0_goto ((card I2) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (b =0_goto ((card I2) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3))))),(card (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3)))))))) is Relation-like Function-like set
card (Macro (b =0_goto ((card I2) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (b =0_goto ((card I2) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (I2,(card (Macro (b =0_goto ((card I2) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (I2,(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (I2,(card (Macro (b =0_goto ((card I2) + 3)))))),(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3)))))) +* (Reloc (I2,(card (Macro (b =0_goto ((card I2) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(card (Goto 2)) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card (Goto 2)) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card (Goto 2)) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card (Goto 2)) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card (Goto 2)) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card (Goto 2)) + 1))} -valued Function-like constant total V31({0},{(goto ((card (Goto 2)) + 1))}) V34() Element of K32(K33({0},{(goto ((card (Goto 2)) + 1))}))
{(goto ((card (Goto 2)) + 1))} is non empty V34() set
K33({0},{(goto ((card (Goto 2)) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card (Goto 2)) + 1))})) is V34() V38() set
((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((b =0_goto ((card I2) + 3)) ";" I2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((b =0_goto ((card I2) + 3)) ";" I2),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2))),(card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2)))))) is Relation-like Function-like set
card ((b =0_goto ((card I2) + 3)) ";" I2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((b =0_goto ((card I2) + 3)) ";" I2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card (Goto 2)) + 1)),(card ((b =0_goto ((card I2) + 3)) ";" I2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card (Goto 2)) + 1)),(card ((b =0_goto ((card I2) + 3)) ";" I2))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card (Goto 2)) + 1)),(card ((b =0_goto ((card I2) + 3)) ";" I2)))),(card ((b =0_goto ((card I2) + 3)) ";" I2))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" I2)))) +* (Reloc ((Goto ((card (Goto 2)) + 1)),(card ((b =0_goto ((card I2) + 3)) ";" I2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))),(card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1)))))))) is Relation-like Function-like set
card (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1)))))),(card (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1)))))) +* (Reloc ((Goto 2),(card (((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))),(card (CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))))) is Relation-like Function-like set
card ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))),(card ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card ((((b =0_goto ((card I2) + 3)) ";" I2) ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
I2 ";" (Goto ((card (Goto 2)) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop I2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(I2,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop I2) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop I2)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop I2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop I2)),(card (CutLastLoc (stop I2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop I2))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop I2)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop I2))))) is Relation-like Function-like set
Reloc ((Goto ((card (Goto 2)) + 1)),(card I2)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card (Goto 2)) + 1)),(card I2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card (Goto 2)) + 1)),(card I2))),(card I2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop I2))) +* (Reloc ((Goto ((card (Goto 2)) + 1)),(card I2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (b =0_goto ((card I2) + 3))) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Reloc ((I2 ";" (Goto ((card (Goto 2)) + 1))),(card (Macro (b =0_goto ((card I2) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((I2 ";" (Goto ((card (Goto 2)) + 1))),(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((I2 ";" (Goto ((card (Goto 2)) + 1))),(card (Macro (b =0_goto ((card I2) + 3)))))),(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3)))))) +* (Reloc ((I2 ";" (Goto ((card (Goto 2)) + 1))),(card (Macro (b =0_goto ((card I2) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))),(card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))))))))) is Relation-like Function-like set
card ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))))))),(card ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))))))) +* (Reloc ((Goto 2),(card ((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))),(card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2))))))) is Relation-like Function-like set
card (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2))))),(card (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card (((b =0_goto ((card I2) + 3)) ";" (I2 ";" (Goto ((card (Goto 2)) + 1)))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (I2 ";" (Goto ((card (Goto 2)) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((I2 ";" (Goto ((card (Goto 2)) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1))))),(card (CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1)))))))) is Relation-like Function-like set
card (I2 ";" (Goto ((card (Goto 2)) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (I2 ";" (Goto ((card (Goto 2)) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto 2),(card (I2 ";" (Goto ((card (Goto 2)) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto 2),(card (I2 ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto 2),(card (I2 ";" (Goto ((card (Goto 2)) + 1)))))),(card (I2 ";" (Goto ((card (Goto 2)) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (I2 ";" (Goto ((card (Goto 2)) + 1)))))) +* (Reloc ((Goto 2),(card (I2 ";" (Goto ((card (Goto 2)) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (b =0_goto ((card I2) + 3))) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Reloc (((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(card (Macro (b =0_goto ((card I2) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(card (Macro (b =0_goto ((card I2) + 3)))))),(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3)))))) +* (Reloc (((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(card (Macro (b =0_goto ((card I2) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))),(card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))))) is Relation-like Function-like set
card ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))),(card ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) +* (Reloc ((Stop SCM+FSA),(card ((b =0_goto ((card I2) + 3)) ";" ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))),(card (CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))))) is Relation-like Function-like set
card ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))),(card ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) +* (Reloc ((Stop SCM+FSA),(card ((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(b =0_goto ((card I2) + 3)) ";" (((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (b =0_goto ((card I2) + 3))) ";" (((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
Reloc ((((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA)),(card (Macro (b =0_goto ((card I2) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA)),(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA)),(card (Macro (b =0_goto ((card I2) + 3)))))),(card (Macro (b =0_goto ((card I2) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (b =0_goto ((card I2) + 3)))))) +* (Reloc ((((I2 ";" (Goto ((card (Goto 2)) + 1))) ";" (Goto 2)) ";" (Stop SCM+FSA)),(card (Macro (b =0_goto ((card I2) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) . 0 is set
3 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card I2) + (3 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) . ((card I2) + 3) is set
goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((card I2) + 3) + 0 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) /. (IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) . 0 is set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1))) . (IC ) is set
(P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) /. (IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) . (IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Following ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))))) . (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) is set
Exec ((b =0_goto ((card I2) + 3)),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(b =0_goto ((card I2) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(b =0_goto ((card I2) + 3))) . (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) is set
CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
(P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) . ((card I2) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) . ((card I2) + 3) is set
J3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),J3) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))))) . (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1))) is set
Exec ((goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))) . (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),(((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + 1))) is set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),J3)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),J3)) . (IC ) is set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D)) . (IC ) is set
IC (Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa),D)) . (IC ) is set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D)) . (IC ) is set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),D)) . (IC ) is set
Initialized (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
J3 is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialize (Initialized (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)))) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) +* ((IC ) .--> 0) is non empty Relation-like the carrier of SCM+FSA -defined Function-like total set
J3 . (intloc 0) is ext-real V27() V28() V29() set
J3 . b is ext-real V27() V28() V29() set
(P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialize J3 is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
J3 +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize J3),D) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize J3),D)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize J3),D)) . (IC ) is set
((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) + D is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
dom (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) is non empty set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
s2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),s2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),s2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),s2)) . (IC ) is set
P2 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),P2)) . (IC ) is set
IC (Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa),P2)) . (IC ) is set
P2 -' ((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
P2 - ((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) is ext-real V27() V28() V29() set
k + ((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),P2) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),P2)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),P2)) . (IC ) is set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))),k) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))),k)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))),k)) . (IC ) is set
s2 - ((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1) is ext-real V27() V28() V29() set
sa is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
sa . (intloc 0) is ext-real V27() V28() V29() set
sa . b is ext-real V27() V28() V29() set
Initialize sa is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
sa +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . b is ext-real V27() V28() V29() set
(sa . b) - 1 is ext-real V27() V28() V29() set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . (intloc 0) is ext-real V27() V28() V29() set
D is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
sa is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
sa . (intloc 0) is ext-real V27() V28() V29() set
sa . b is ext-real V27() V28() V29() set
Initialize sa is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
sa +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . b is ext-real V27() V28() V29() set
(sa . b) - 1 is ext-real V27() V28() V29() set
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize sa),((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize sa))) + 1))) . (intloc 0) is ext-real V27() V28() V29() set
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize s),sa) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize s),sa)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize s),sa)) . (IC ) is set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
b is V95() non read-only Element of the carrier of SCM+FSA
s . b is ext-real V27() V28() V29() set
SubFrom (b,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a ";" (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (b,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a ";" (Macro (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
(Initialized s) . b is ext-real V27() V28() V29() set
(Initialized s) . (intloc 0) is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
b is V95() non read-only Element of the carrier of SCM+FSA
(b,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
SubFrom (b,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a ";" (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (b,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a ";" (Macro (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (b,((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
s . b is ext-real V27() V28() V29() set
Directed ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) +~ ((halt SCM+FSA),(goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))) is Relation-like Function-like set
s . b is ext-real V27() V28() V29() set
s . b is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
s is V95() non read-only Element of the carrier of SCM+FSA
(s,P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
SubFrom (s,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
P ";" (SubFrom (s,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (s,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (s,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (s,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (s,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
P ";" (Macro (SubFrom (s,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(P,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop P) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop P)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop P)),(card (CutLastLoc (stop P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop P))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop P)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop P))))) is Relation-like Function-like set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (s,(intloc 0)))),(card P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (s,(intloc 0)))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (s,(intloc 0)))),(card P))),(card P)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop P))) +* (Reloc ((Macro (SubFrom (s,(intloc 0)))),(card P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (s,((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a . s is ext-real V27() V28() V29() set
Initialized a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized a) . s is ext-real V27() V28() V29() set
Directed ((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card ((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))),(card ((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0)))))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0))))))) +~ ((halt SCM+FSA),(goto (card ((if=0 (s,(Goto 2),(P ";" (SubFrom (s,(intloc 0)))))))))) is Relation-like Function-like set
(Initialized a) . (intloc 0) is ext-real V27() V28() V29() set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a . s is ext-real V27() V28() V29() set
Initialized a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
a +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
(Initialized a) . s is ext-real V27() V28() V29() set
a is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a . s is ext-real V27() V28() V29() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
b is V95() Element of the carrier of SCM+FSA
a is V95() Element of the carrier of SCM+FSA
if=0 (a,P,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
if>0 (a,P,s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
card P is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom P is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card P) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Goto ((card P) + 1) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
goto ((card P) + 1) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
0 .--> (goto ((card P) + 1)) is V5() Relation-like NAT -defined {0} -defined the InstructionsF of SCM+FSA -valued Function-like one-to-one constant V34() set
{0} --> (goto ((card P) + 1)) is non empty Relation-like {0} -defined the InstructionsF of SCM+FSA -valued {(goto ((card P) + 1))} -valued Function-like constant total V31({0},{(goto ((card P) + 1))}) V34() Element of K32(K33({0},{(goto ((card P) + 1))}))
{(goto ((card P) + 1))} is non empty V34() set
K33({0},{(goto ((card P) + 1))}) is Relation-like V34() set
K32(K33({0},{(goto ((card P) + 1))})) is V34() V38() set
card s is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom s is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card s) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
a =0_goto ((card s) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(a =0_goto ((card s) + 3)) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (a =0_goto ((card s) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(a =0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (a =0_goto ((card s) + 3))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (a =0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (a =0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))),(card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (a =0_goto ((card s) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))))) is Relation-like Function-like set
card (Macro (a =0_goto ((card s) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (a =0_goto ((card s) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (Macro (a =0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (Macro (a =0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (Macro (a =0_goto ((card s) + 3)))))),(card (Macro (a =0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (a =0_goto ((card s) + 3)))))) +* (Reloc (s,(card (Macro (a =0_goto ((card s) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((a =0_goto ((card s) + 3)) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((a =0_goto ((card s) + 3)) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))),(card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))))) is Relation-like Function-like set
card ((a =0_goto ((card s) + 3)) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((a =0_goto ((card s) + 3)) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s)))),(card ((a =0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((a =0_goto ((card s) + 3)) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((a =0_goto ((card s) + 3)) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))),(card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))))) is Relation-like Function-like set
card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc (P,(card (((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
a >0_goto ((card s) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(a >0_goto ((card s) + 3)) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Macro (a >0_goto ((card s) + 3)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K249(SCM+FSA,(a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(a >0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (a >0_goto ((card s) + 3))) ";" s is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (Macro (a >0_goto ((card s) + 3))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (a >0_goto ((card s) + 3))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))),(card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (a >0_goto ((card s) + 3))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))))) is Relation-like Function-like set
card (Macro (a >0_goto ((card s) + 3))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (a >0_goto ((card s) + 3))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (s,(card (Macro (a >0_goto ((card s) + 3))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (s,(card (Macro (a >0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (s,(card (Macro (a >0_goto ((card s) + 3)))))),(card (Macro (a >0_goto ((card s) + 3))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (a >0_goto ((card s) + 3)))))) +* (Reloc (s,(card (Macro (a >0_goto ((card s) + 3)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop ((a >0_goto ((card s) + 3)) ";" s) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((a >0_goto ((card s) + 3)) ";" s),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))),(card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))))) is Relation-like Function-like set
card ((a >0_goto ((card s) + 3)) ";" s) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((a >0_goto ((card s) + 3)) ";" s) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s)))),(card ((a >0_goto ((card s) + 3)) ";" s))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((a >0_goto ((card s) + 3)) ";" s)))) +* (Reloc ((Goto ((card P) + 1)),(card ((a >0_goto ((card s) + 3)) ";" s)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))),(card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))))) is Relation-like Function-like set
card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))),(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) +* (Reloc (P,(card (((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))),(card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))))) is Relation-like Function-like set
card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) +* (Reloc ((Stop SCM+FSA),(card ((((a =0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))),(card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))))) is Relation-like Function-like set
card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) +* (Reloc ((Stop SCM+FSA),(card ((((a >0_goto ((card s) + 3)) ";" s) ";" (Goto ((card P) + 1))) ";" P)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
s +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
b is V95() non read-only Element of the carrier of SCM+FSA
s . b is ext-real V27() V28() V29() set
SubFrom (b,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a ";" (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (b,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a ";" (Macro (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(s +* (Start-At (0,SCM+FSA)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(s +* (Start-At (0,SCM+FSA))))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(s . b) - 1 is ext-real V27() V28() V29() set
dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
Initialize s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial paraclosed parahalting set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
dom s is non empty set
s +* ((intloc 0) .--> 1) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Initialized s) . b is ext-real V27() V28() V29() set
s0 is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s21 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P21 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s21,s0,P21) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput (s21,s0,P21)) . b is ext-real V27() V28() V29() set
(Comput (s21,s0,P21)) . (intloc 0) is ext-real V27() V28() V29() set
IC (Comput (s21,s0,P21)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s21,s0,P21)) . (IC ) is set
(s +* ((intloc 0) .--> 1)) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
((s +* ((intloc 0) .--> 1)) +* (Start-At (0,SCM+FSA))) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
IExec ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec (c,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* c is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* c),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
card (Goto 2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card c is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom c is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Goto 2)) + (card c) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Goto 2)) + (card c)) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Start-At ((((card (Goto 2)) + (card c)) + 3),SCM+FSA) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible V34() ((card (Goto 2)) + (card c)) + 3 -started set
(IC ) .--> (((card (Goto 2)) + (card c)) + 3) is V5() Relation-like the carrier of SCM+FSA -defined {(IC )} -defined NAT -valued Function-like one-to-one constant V34() set
{(IC )} --> (((card (Goto 2)) + (card c)) + 3) is non empty Relation-like non-empty non empty-yielding {(IC )} -defined NAT -valued {(((card (Goto 2)) + (card c)) + 3)} -valued Function-like constant total V31({(IC )},{(((card (Goto 2)) + (card c)) + 3)}) V34() Element of K32(K33({(IC )},{(((card (Goto 2)) + (card c)) + 3)}))
{(((card (Goto 2)) + (card c)) + 3)} is non empty V34() V45() V46() set
K33({(IC )},{(((card (Goto 2)) + (card c)) + 3)}) is Relation-like V34() set
K32(K33({(IC )},{(((card (Goto 2)) + (card c)) + 3)})) is V34() V38() set
(IExec (c,P,s)) +* (Start-At ((((card (Goto 2)) + (card c)) + 3),SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total ((card (Goto 2)) + (card c)) + 3 -started set
(IExec ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),P,s)) . b is ext-real V27() V28() V29() set
(IExec (c,P,s)) . b is ext-real V27() V28() V29() set
Comput (s21,s0,((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following (s21,(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (s21,(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
IC (Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))))) . (IC ) is set
s21 /. (IC (Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr (s21,(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))))))),(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s21,(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (s21,(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))))))) . (Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))))) is set
Exec ((goto 0),(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s)))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 0)) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(goto 0)) . (Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))))) is set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))),(Initialize s),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s31 is V95() Element of the carrier of SCM+FSA
(Comput (s21,s0,((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1))) . s31 is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)))))) . s31 is ext-real V27() V28() V29() set
(Comput (s21,s0,((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1))) . b is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)))))) . b is ext-real V27() V28() V29() set
LifeSpan ((P +* c),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* c),(Initialize (Initialized s)),(LifeSpan ((P +* c),(Initialize (Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput ((P +* c),(Initialize (Initialized s)),(LifeSpan ((P +* c),(Initialize (Initialized s)))))) . b is ext-real V27() V28() V29() set
(Comput (s21,s0,((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1))) . (intloc 0) is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)))))) . (intloc 0) is ext-real V27() V28() V29() set
s31 is V95() non read-only Element of the carrier of SCM+FSA
(Comput (s21,s0,P21)) . s31 is ext-real V27() V28() V29() set
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)))))) . s31 is ext-real V27() V28() V29() set
(IExec ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),P,s)) . s31 is ext-real V27() V28() V29() set
(IExec (c,P,s)) . s31 is ext-real V27() V28() V29() set
Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (b,(intloc 0)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (b,(intloc 0)))) . (IExec (a,P,s)) is set
(Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,s)))) . s31 is ext-real V27() V28() V29() set
(IExec (a,P,s)) . s31 is ext-real V27() V28() V29() set
s31 is FinSeq-Location
(Comput (s21,s0,((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1))) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))))) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput (s21,s0,P21)) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)),(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)))))) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(IExec ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),P,s)) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(IExec (c,P,s)) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,s)))) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(IExec (a,P,s)) . s31 is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
IC (Comput (s21,s0,((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s21,s0,((LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))) + 1))) . (IC ) is set
(Exec ((goto 0),(Comput (s21,s0,(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s))))))) . (IC ) is set
s31 is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (s21,s0,s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (s21,s0,s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (s21,s0,s31)) . (IC ) is set
Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s),s31) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s),s31)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize s),s31)) . (IC ) is set
dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card (dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
card (dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
card (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . (intloc 0) is ext-real V27() V28() V29() set
DataPart s is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
s | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
c is V95() non read-only Element of the carrier of SCM+FSA
s . c is ext-real V27() V28() V29() set
(c,b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
SubFrom (c,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
b ";" (SubFrom (c,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (c,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (c,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (c,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (c,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
b ";" (Macro (SubFrom (c,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop b is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(b,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop b) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop b)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop b)),(card (CutLastLoc (stop b)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop b))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop b)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop b))))) is Relation-like Function-like set
card b is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom b is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (c,(intloc 0)))),(card b)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (c,(intloc 0)))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (c,(intloc 0)))),(card b))),(card b)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop b))) +* (Reloc ((Macro (SubFrom (c,(intloc 0)))),(card b))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (c,(Goto 2),(b ";" (SubFrom (c,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (c,(Goto 2),(b ";" (SubFrom (c,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (c,(Goto 2),(b ";" (SubFrom (c,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (c,(Goto 2),(b ";" (SubFrom (c,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (c,((if=0 (c,(Goto 2),(b ";" (SubFrom (c,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((c,b),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (c,b) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (c,b)),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((c,b),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((c,b),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
(Initialized s) . c is ext-real V27() V28() V29() set
(Stop SCM+FSA) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free keeping_0 good paraclosed parahalting set
stop (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Stop SCM+FSA),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Stop SCM+FSA))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Stop SCM+FSA))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Stop SCM+FSA))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Stop SCM+FSA))),(card (CutLastLoc (stop (Stop SCM+FSA))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Stop SCM+FSA)))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Stop SCM+FSA))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Stop SCM+FSA)))))) is Relation-like Function-like set
card (Stop SCM+FSA) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Stop SCM+FSA) is non empty V5() ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card (Stop SCM+FSA))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card (Stop SCM+FSA)))),(card (Stop SCM+FSA))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Stop SCM+FSA)))) +* (Reloc ((Stop SCM+FSA),(card (Stop SCM+FSA)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IExec (((Stop SCM+FSA) ";" (Stop SCM+FSA)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* ((Stop SCM+FSA) ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* ((Stop SCM+FSA) ";" (Stop SCM+FSA))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec ((Stop SCM+FSA),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (Stop SCM+FSA)),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized (IExec ((Stop SCM+FSA),P,(Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(IExec ((Stop SCM+FSA),P,(Initialized s))) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (Stop SCM+FSA)),(Initialized (IExec ((Stop SCM+FSA),P,(Initialized s))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IncIC ((IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s))))),(card (Stop SCM+FSA))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s))))) . (IC ) is set
(IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Start-At (((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA))),SCM+FSA) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible V34() (IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)) -started set
(IC ) .--> ((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA))) is V5() Relation-like the carrier of SCM+FSA -defined {(IC )} -defined NAT -valued Function-like one-to-one constant V34() set
{(IC )} --> ((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA))) is non empty Relation-like {(IC )} -defined NAT -valued {((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)))} -valued Function-like constant total V31({(IC )},{((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)))}) V34() Element of K32(K33({(IC )},{((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)))}))
{((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)))} is non empty V34() set
K33({(IC )},{((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)))}) is Relation-like V34() set
K32(K33({(IC )},{((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)))})) is V34() V38() set
(IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s))))) +* (Start-At (((IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA))),SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total (IC (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s)))))) + (card (Stop SCM+FSA)) -started set
(Initialized s) . (intloc 0) is ext-real V27() V28() V29() set
DataPart (IExec ((Stop SCM+FSA),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((Stop SCM+FSA),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialized (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
I is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed I is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
card I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom I is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Directed (I,(card I)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card I) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
I +~ ((halt SCM+FSA),(goto (card I))) is Relation-like Function-like set
Directed (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) good set
Directed ((Stop SCM+FSA),(card (Stop SCM+FSA))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free good set
goto (card (Stop SCM+FSA)) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Stop SCM+FSA) +~ ((halt SCM+FSA),(goto (card (Stop SCM+FSA)))) is Relation-like Function-like set
IExec ((c,b),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (c,b)),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((c,b),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((c,b),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (IExec (((Stop SCM+FSA) ";" (Stop SCM+FSA)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec (((Stop SCM+FSA) ";" (Stop SCM+FSA)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((Stop SCM+FSA),P,(IExec ((Stop SCM+FSA),P,(Initialized s))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
b is V95() non read-only Element of the carrier of SCM+FSA
s . b is ext-real V27() V28() V29() set
SubFrom (b,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
a ";" (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (b,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (b,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
a ";" (Macro (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(a,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop a) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop a)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop a)),(card (CutLastLoc (stop a)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop a))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop a)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop a))))) is Relation-like Function-like set
card a is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom a is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (b,(intloc 0)))),(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc ((Macro (SubFrom (b,(intloc 0)))),(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (a ";" (SubFrom (b,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . b is ext-real V27() V28() V29() set
(s . b) - 1 is ext-real V27() V28() V29() set
(b,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (b,((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((b,a),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (b,a) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (b,a)),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b,a),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
(IExec ((b,a),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((b,a),P,(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (b,a)),(Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b,a),P,(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((b,a),P,(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Initialize (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial V62( SCM+FSA ) set
K211(((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))),(card (CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))))) is Relation-like Function-like set
card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Stop SCM+FSA),(card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
IncAddr ((Stop SCM+FSA),(card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Stop SCM+FSA),(card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))),(card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))) +* (Reloc ((Stop SCM+FSA),(card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like V34() non halt-free set
P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) +* (Start-At (0,SCM+FSA)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() Element of K32(NAT)
J3 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
a ";" J3 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial good set
Reloc (J3,(card a)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr (J3,(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr (J3,(card a))),(card a)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop a))) +* (Reloc (J3,(card a))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . (intloc 0) is ext-real V27() V28() V29() set
(Initialized s) . b is ext-real V27() V28() V29() set
(Initialized s) . (intloc 0) is ext-real V27() V28() V29() set
Directed ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) +~ ((halt SCM+FSA),(goto (card ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))))) is Relation-like Function-like set
P +* ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(LifeSpan ((P +* (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))),(Initialize (Initialized s)))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((Initialized s) . b) - 1 is ext-real V27() V28() V29() set
IExec (a,P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* a is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* a),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s2 is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P2 is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
k is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P2,s2,k) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(Comput (P2,s2,k)) . b is ext-real V27() V28() V29() set
(Comput (P2,s2,k)) . (intloc 0) is ext-real V27() V28() V29() set
IC (Comput (P2,s2,k)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P2,s2,k)) . (IC ) is set
f is FinSeq-Location
(Comput (P2,s2,k)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(IExec (a,P,(Initialized s))) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,(Initialized s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (b,(intloc 0)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (b,(intloc 0)))) . (IExec (a,P,(Initialized s))) is set
(Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,(Initialized s))))) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
IExec ((a ";" (SubFrom (b,(intloc 0)))),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (a ";" (SubFrom (b,(intloc 0))))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,(Initialized s))) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
IExec (a,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* a),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (b,(intloc 0)))) . (IExec (a,P,s)) is set
(Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,s)))) . b is ext-real V27() V28() V29() set
(IExec (a,P,s)) . b is ext-real V27() V28() V29() set
(IExec (a,P,s)) . (intloc 0) is ext-real V27() V28() V29() set
((IExec (a,P,s)) . b) - ((IExec (a,P,s)) . (intloc 0)) is ext-real V27() V28() V29() set
((IExec (a,P,s)) . b) - 1 is ext-real V27() V28() V29() set
f is V95() Element of the carrier of SCM+FSA
(Comput (P2,s2,k)) . f is ext-real V27() V28() V29() set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . f is ext-real V27() V28() V29() set
f is V95() Element of the carrier of SCM+FSA
(Comput (P2,s2,k)) . f is ext-real V27() V28() V29() set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . f is ext-real V27() V28() V29() set
f is V95() Element of the carrier of SCM+FSA
(Comput (P2,s2,k)) . f is ext-real V27() V28() V29() set
bb is V95() non read-only Element of the carrier of SCM+FSA
(IExec (a,P,(Initialized s))) . bb is ext-real V27() V28() V29() set
(Exec ((SubFrom (b,(intloc 0))),(IExec (a,P,(Initialized s))))) . f is ext-real V27() V28() V29() set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,(Initialized s))) . f is ext-real V27() V28() V29() set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . f is ext-real V27() V28() V29() set
f is V95() Element of the carrier of SCM+FSA
DataPart (Comput (P2,s2,k)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P2,s2,k)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((b,a),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (b,a)),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((b,a),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((b,a),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
card (a ";" (SubFrom (b,(intloc 0)))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (a ";" (SubFrom (b,(intloc 0)))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (a ";" (SubFrom (b,(intloc 0))))) + 3 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) . ((card (a ";" (SubFrom (b,(intloc 0))))) + 3) is set
(card (a ";" (SubFrom (b,(intloc 0))))) + 5 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
goto ((card (a ";" (SubFrom (b,(intloc 0))))) + 5) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
3 + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (a ";" (SubFrom (b,(intloc 0))))) + (3 + 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
(card (a ";" (SubFrom (b,(intloc 0))))) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
((card (a ";" (SubFrom (b,(intloc 0))))) + 1) + 4 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (Goto 2) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Goto 2) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
(card (Goto 2)) + (card (a ";" (SubFrom (b,(intloc 0))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (Goto 2)) + (card (a ";" (SubFrom (b,(intloc 0)))))) + 4 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
card (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
card (dom (if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
card (dom ((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
((card (a ";" (SubFrom (b,(intloc 0))))) + 3) + 0 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P2 . ((card (a ";" (SubFrom (b,(intloc 0))))) + 3) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) . ((card (a ";" (SubFrom (b,(intloc 0))))) + 3) is set
InsCode (P2 . ((card (a ";" (SubFrom (b,(intloc 0))))) + 3)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of InsCodes the InstructionsF of SCM+FSA
InsCodes the InstructionsF of SCM+FSA is non empty set
K23( the InstructionsF of SCM+FSA) is set
k + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput (P2,s2,(k + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following (P2,(Comput (P2,s2,k))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (P2,(Comput (P2,s2,k))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P2 /. (IC (Comput (P2,s2,k))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr (P2,(Comput (P2,s2,k)))),(Comput (P2,s2,k))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P2,(Comput (P2,s2,k))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P2,(Comput (P2,s2,k))))) . (Comput (P2,s2,k)) is set
P2 . 0 is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((P2 . 0),(Comput (P2,s2,k))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(P2 . 0)) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(P2 . 0)) . (Comput (P2,s2,k)) is set
((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) . 0 is set
(if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))) . 0 is set
b =0_goto ((card (a ";" (SubFrom (b,(intloc 0))))) + 3) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
IC (Comput (P2,s2,(k + 1))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P2,s2,(k + 1))) . (IC ) is set
f is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput (P2,s2,f) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P2,s2,f)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P2,s2,f)) . (IC ) is set
(k + 1) + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
1 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
k + (1 + 1) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
P2 /. (IC (Comput (P2,s2,(k + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
P2 . (IC (Comput (P2,s2,(k + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Comput (P2,s2,(k + (1 + 1))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Comput (P2,s2,((k + 1) + 1)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Following (P2,(Comput (P2,s2,(k + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
CurInstr (P2,(Comput (P2,s2,(k + 1)))) is with_explicit_jumps IC-relocable Element of the InstructionsF of SCM+FSA
Exec ((CurInstr (P2,(Comput (P2,s2,(k + 1))))),(Comput (P2,s2,(k + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P2,(Comput (P2,s2,(k + 1)))))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(CurInstr (P2,(Comput (P2,s2,(k + 1)))))) . (Comput (P2,s2,(k + 1))) is set
Exec ((P2 . ((card (a ";" (SubFrom (b,(intloc 0))))) + 3)),(Comput (P2,s2,(k + 1)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(P2 . ((card (a ";" (SubFrom (b,(intloc 0))))) + 3))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(P2 . ((card (a ";" (SubFrom (b,(intloc 0))))) + 3))) . (Comput (P2,s2,(k + 1))) is set
k + 2 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
Comput (P2,s2,(k + 2)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IC (Comput (P2,s2,(k + 2))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput (P2,s2,(k + 2))) . (IC ) is set
pseudo-LifeSpan ((Initialized s),P,((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
InsCode (P2 . 0) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of InsCodes the InstructionsF of SCM+FSA
DataPart (Comput (P2,s2,(k + 1))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P2,s2,(k + 1))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Comput (P2,s2,(k + 2))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput (P2,s2,(k + 2))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
0 + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
pseudo-LifeSpan ((Initialized s),P,((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0)))))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
f is V95() Element of the carrier of SCM+FSA
(Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k)) . f is ext-real V27() V28() V29() set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . f is ext-real V27() V28() V29() set
(Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) . f is ext-real V27() V28() V29() set
(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))) . f is ext-real V27() V28() V29() set
f is V95() Element of the carrier of SCM+FSA
(Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k)) . f is ext-real V27() V28() V29() set
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . f is ext-real V27() V28() V29() set
(Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) . f is ext-real V27() V28() V29() set
(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))) . f is ext-real V27() V28() V29() set
f is V95() Element of the carrier of SCM+FSA
f is FinSeq-Location
(Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))) . f is Relation-like NAT -defined INT -valued Function-like V34() V42() V43() M7( INT )
IC (Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Comput ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)),k)) . (IC ) is set
IC (Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))) . (IC ) is set
Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialize (Initialized (Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))))))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA))),(Initialized (IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((((if=0 (b,(Goto 2),(a ";" (SubFrom (b,(intloc 0))))))) ";" (Stop SCM+FSA)),P,(IExec ((a ";" (SubFrom (b,(intloc 0)))),P,s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
P is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
a is V95() non read-only Element of the carrier of SCM+FSA
b is V95() non read-only Element of the carrier of SCM+FSA
c is V95() non read-only Element of the carrier of SCM+FSA
s . a is ext-real V27() V28() V29() set
AddTo (b,c) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
Macro (AddTo (b,c)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(AddTo (b,c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(AddTo (b,c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(AddTo (b,c))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(a,(Macro (AddTo (b,c)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
SubFrom (a,(intloc 0)) is ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) parahalting keeping_0 with_explicit_jumps IC-relocable V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(Macro (AddTo (b,c))) ";" (SubFrom (a,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
Macro (SubFrom (a,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
K249(SCM+FSA,(SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() 1 -element initial set
stop K249(SCM+FSA,(SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(K249(SCM+FSA,(SubFrom (a,(intloc 0)))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
(Macro (AddTo (b,c))) ";" (Macro (SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop (Macro (AddTo (b,c))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211((Macro (AddTo (b,c))),(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop (Macro (AddTo (b,c)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop (Macro (AddTo (b,c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop (Macro (AddTo (b,c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop (Macro (AddTo (b,c))))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop (Macro (AddTo (b,c))))),(card (CutLastLoc (stop (Macro (AddTo (b,c))))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop (Macro (AddTo (b,c)))))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop (Macro (AddTo (b,c))))) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop (Macro (AddTo (b,c)))))))) is Relation-like Function-like set
card (Macro (AddTo (b,c))) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (Macro (AddTo (b,c))) is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (a,(intloc 0)))),(card (Macro (AddTo (b,c))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card (Macro (AddTo (b,c))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card (Macro (AddTo (b,c)))))),(card (Macro (AddTo (b,c))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop (Macro (AddTo (b,c)))))) +* (Reloc ((Macro (SubFrom (a,(intloc 0)))),(card (Macro (AddTo (b,c)))))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (a,(Goto 2),((Macro (AddTo (b,c))) ";" (SubFrom (a,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (a,(Goto 2),((Macro (AddTo (b,c))) ";" (SubFrom (a,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (a,(Goto 2),((Macro (AddTo (b,c))) ";" (SubFrom (a,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (a,(Goto 2),((Macro (AddTo (b,c))) ";" (SubFrom (a,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (a,((if=0 (a,(Goto 2),((Macro (AddTo (b,c))) ";" (SubFrom (a,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((a,(Macro (AddTo (b,c)))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (a,(Macro (AddTo (b,c)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (a,(Macro (AddTo (b,c))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a,(Macro (AddTo (b,c)))),P,s)) . b is ext-real V27() V28() V29() set
s . b is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
(s . c) * (s . a) is ext-real V27() V28() V29() set
(s . b) + ((s . c) * (s . a)) is ext-real V27() V28() V29() set
NonZero SCM+FSA is Element of K32( the carrier of SCM+FSA)
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
sa + 1 is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V45() Element of NAT
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . a is ext-real V27() V28() V29() set
IExec ((a,(Macro (AddTo (b,c)))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (a,(Macro (AddTo (b,c))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a,(Macro (AddTo (b,c)))),P,s)) . b is ext-real V27() V28() V29() set
s . b is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
(s . c) * (s . a) is ext-real V27() V28() V29() set
(s . b) + ((s . c) * (s . a)) is ext-real V27() V28() V29() set
I is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
(a,I) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
I ";" (SubFrom (a,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
I ";" (Macro (SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop I is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(I,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop I) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop I)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop I)),(card (CutLastLoc (stop I)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop I))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop I)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop I))))) is Relation-like Function-like set
card I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom I is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (a,(intloc 0)))),(card I)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card I)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card I))),(card I)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop I))) +* (Reloc ((Macro (SubFrom (a,(intloc 0)))),(card I))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (a,((if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((a,I),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (a,I) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Result ((P +* (a,I)),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((a,I),P,s)) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((a,I),P,s)) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (I ";" (SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* (I ";" (SubFrom (a,(intloc 0))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
IExec ((a,I),P,(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized (IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (a,I)),(Initialized (IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((a,I),P,(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((a,I),P,(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)) . c is ext-real V27() V28() V29() set
IExec (I,P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* I is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like total set
Result ((P +* I),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Exec ((SubFrom (a,(intloc 0))),(IExec (I,P,s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)) is set
K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) is set
the Execution of SCM+FSA is Relation-like the InstructionsF of SCM+FSA -defined K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))) -valued Function-like V31( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) Element of K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))))
K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))) is Relation-like set
K32(K33( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))))) is set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (a,(intloc 0)))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(SubFrom (a,(intloc 0)))) . (IExec (I,P,s)) is set
(Exec ((SubFrom (a,(intloc 0))),(IExec (I,P,s)))) . c is ext-real V27() V28() V29() set
(IExec (I,P,s)) . c is ext-real V27() V28() V29() set
Exec ((AddTo (b,c)),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(AddTo (b,c))) is Element of K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)))
K141( the InstructionsF of SCM+FSA,K139(K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA)),K263(( the Object-Kind of SCM+FSA * the U7 of SCM+FSA))), the Execution of SCM+FSA,(AddTo (b,c))) . (Initialized s) is set
(Exec ((AddTo (b,c)),(Initialized s))) . c is ext-real V27() V28() V29() set
(Initialized s) . c is ext-real V27() V28() V29() set
(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)) . b is ext-real V27() V28() V29() set
(Exec ((SubFrom (a,(intloc 0))),(IExec (I,P,s)))) . b is ext-real V27() V28() V29() set
(IExec (I,P,s)) . b is ext-real V27() V28() V29() set
(Exec ((AddTo (b,c)),(Initialized s))) . b is ext-real V27() V28() V29() set
(Initialized s) . b is ext-real V27() V28() V29() set
((Initialized s) . b) + ((Initialized s) . c) is ext-real V27() V28() V29() set
((Initialized s) . b) + (s . c) is ext-real V27() V28() V29() set
(s . b) + (s . c) is ext-real V27() V28() V29() set
(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)) . a is ext-real V27() V28() V29() set
(s . a) - 1 is ext-real V27() V28() V29() set
(IExec ((a,I),P,(IExec ((I ";" (SubFrom (a,(intloc 0)))),P,s)))) . b is ext-real V27() V28() V29() set
(s . c) * ((s . a) - 1) is ext-real V27() V28() V29() set
((s . b) + (s . c)) + ((s . c) * ((s . a) - 1)) is ext-real V27() V28() V29() set
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . a is ext-real V27() V28() V29() set
IExec ((a,(Macro (AddTo (b,c)))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (a,(Macro (AddTo (b,c))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a,(Macro (AddTo (b,c)))),P,s)) . b is ext-real V27() V28() V29() set
s . b is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
(s . c) * (s . a) is ext-real V27() V28() V29() set
(s . b) + ((s . c) * (s . a)) is ext-real V27() V28() V29() set
(Initialized s) . (intloc 0) is ext-real V27() V28() V29() set
(Initialized s) . a is ext-real V27() V28() V29() set
I is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 good paraclosed parahalting set
(a,I) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
I ";" (SubFrom (a,(intloc 0))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
I ";" (Macro (SubFrom (a,(intloc 0)))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial keeping_0 paraclosed parahalting set
stop I is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K211(I,(Stop SCM+FSA)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
CutLastLoc (stop I) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
Directed (CutLastLoc (stop I)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
card (CutLastLoc (stop I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom (CutLastLoc (stop I)) is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V126() set
Directed ((CutLastLoc (stop I)),(card (CutLastLoc (stop I)))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() halt-free set
goto (card (CutLastLoc (stop I))) is non ins-loc-free V58( the InstructionsF of SCM+FSA) V91(3, SCM+FSA ) with_explicit_jumps IC-relocable V146(3, SCM+FSA ) V148(3, SCM+FSA ) Element of the InstructionsF of SCM+FSA
(CutLastLoc (stop I)) +~ ((halt SCM+FSA),(goto (card (CutLastLoc (stop I))))) is Relation-like Function-like set
card I is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
dom I is non empty ext-real positive non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() V34() V45() V126() set
Reloc ((Macro (SubFrom (a,(intloc 0)))),(card I)) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card I)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial set
K500((IncAddr ((Macro (SubFrom (a,(intloc 0)))),(card I))),(card I)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
(Directed (CutLastLoc (stop I))) +* (Reloc ((Macro (SubFrom (a,(intloc 0)))),(card I))) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like V34() set
if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
((if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0))))))) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free V62( SCM+FSA ) set
Directed ((if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0)))))),0) is Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial halt-free set
(if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0)))))) +~ ((halt SCM+FSA),(goto 0)) is Relation-like Function-like set
if>0 (a,((if=0 (a,(Goto 2),(I ";" (SubFrom (a,(intloc 0))))))),(Stop SCM+FSA)) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued Function-like T-Sequence-like V34() initial non halt-free set
IExec ((a,I),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
P +* (a,I) is non empty Relation-like NAT -defined the InstructionsF of SCM+FSA -valued the InstructionsF of SCM+FSA -valued Function-like total non halt-free set
Initialized (Initialized s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
(Initialized s) +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (a,I)),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
DataPart (IExec ((a,I),P,(Initialized s))) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(IExec ((a,I),P,(Initialized s))) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
DataPart (Initialized s) is Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible data-only set
(Initialized s) | (NonZero SCM+FSA) is Relation-like the carrier of SCM+FSA -defined NonZero SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible set
IExec ((a,(Macro (AddTo (b,c)))),P,(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Result ((P +* (a,(Macro (AddTo (b,c))))),(Initialized (Initialized s))) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a,(Macro (AddTo (b,c)))),P,(Initialized s))) . b is ext-real V27() V28() V29() set
(Initialized s) . b is ext-real V27() V28() V29() set
sa is ext-real non negative epsilon-transitive epsilon-connected ordinal natural V27() V28() V29() Element of NAT
s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
s . a is ext-real V27() V28() V29() set
IExec ((a,(Macro (AddTo (b,c)))),P,s) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
Initialized s is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total 0 -started set
s +* (Initialize ((intloc 0) .--> 1)) is non empty Relation-like the carrier of SCM+FSA -defined the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible K274(3,SCM+FSA) -compatible total 0 -started set
Result ((P +* (a,(Macro (AddTo (b,c))))),(Initialized s)) is non empty Relation-like the carrier of SCM+FSA -defined Function-like K274(3,SCM+FSA) -compatible total set
(IExec ((a,(Macro (AddTo (b,c)))),P,s)) . b is ext-real V27() V28() V29() set
s . b is ext-real V27() V28() V29() set
s . c is ext-real V27() V28() V29() set
(s . c) * (s . a) is ext-real V27() V28() V29() set
(s . b) + ((s . c) * (s . a)) is ext-real V27() V28() V29() set