:: CLOPBAN2  semantic presentation begin  
theorem :: CLOPBAN2:1 (Bool  "for" (Set (Var "X")) "," (Set (Var "Y")) "," (Set (Var "Z")) "being"   ($#l1_clvect_1 :::"ComplexLinearSpace":::)  (Bool  "for" (Set (Var "f")) "being"   ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "Y"))  (Bool  "for" (Set (Var "g")) "being"   ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "Y")) "," (Set (Var "Z")) "holds"  (Bool (Set (Set (Var "g"))  ($#k1_partfun1 :::"*"::: )  (Set (Var "f"))) "is"   ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "Z")))))) ; 
 
theorem :: CLOPBAN2:2 (Bool  "for" (Set (Var "X")) "," (Set (Var "Y")) "," (Set (Var "Z")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "being"   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "Y"))  (Bool  "for" (Set (Var "g")) "being"   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "Y")) "," (Set (Var "Z")) "holds"   (Bool  "("  (Bool (Set (Set (Var "g"))  ($#k1_partfun1 :::"*"::: )  (Set (Var "f"))) "is"   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "Z"))) & (Bool  "("   "for" (Set (Var "x")) "being"   ($#m1_subset_1 :::"VECTOR":::) "of" (Set (Var "X")) "holds"   (Bool  "("  (Bool (Set  ($#k1_normsp_0 :::"||."::: ) (Set  "(" (Set  "(" (Set (Var "g"))  ($#k1_partfun1 :::"*"::: )  (Set (Var "f")) ")" )  ($#k3_funct_2 :::"."::: )  (Set (Var "x")) ")" ) ($#k1_normsp_0 :::".||"::: ) )  ($#r1_xxreal_0 :::"<="::: )  (Set (Set  "(" (Set  "(" (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" (Set (Var "Y")) "," (Set (Var "Z")) ")"  ")" )  ($#k1_funct_1 :::"."::: )  (Set (Var "g")) ")" )  ($#k3_xcmplx_0 :::"*"::: )  (Set  "(" (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" (Set (Var "X")) "," (Set (Var "Y")) ")"  ")" )  ($#k1_funct_1 :::"."::: )  (Set (Var "f")) ")" ) ")" )  ($#k4_real_1 :::"*"::: )  (Set  ($#k1_normsp_0 :::"||."::: ) (Set (Var "x")) ($#k1_normsp_0 :::".||"::: ) ))) & (Bool (Set (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" (Set (Var "X")) "," (Set (Var "Z")) ")"  ")" )  ($#k1_funct_1 :::"."::: )  (Set  "(" (Set (Var "g"))  ($#k1_partfun1 :::"*"::: )  (Set (Var "f")) ")" ))  ($#r1_xxreal_0 :::"<="::: )  (Set (Set  "(" (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" (Set (Var "Y")) "," (Set (Var "Z")) ")"  ")" )  ($#k1_funct_1 :::"."::: )  (Set (Var "g")) ")" )  ($#k3_xcmplx_0 :::"*"::: )  (Set  "(" (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" (Set (Var "X")) "," (Set (Var "Y")) ")"  ")" )  ($#k1_funct_1 :::"."::: )  (Set (Var "f")) ")" )))  ")" )  ")" )  ")" )))) ; 
 definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); let "f", "g" be   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Const "X")) "," (Set (Const "X")); :: original: :::"*"::: redefine func "g" :::"*"::: "f" ->   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" "X" "," "X"; end; definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); let "f", "g" be    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Const "X")) "," (Set (Const "X")) ")" ); func "f" :::"+"::: "g" ->    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")" ) equals :: CLOPBAN2:def 1 (Set (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" )  ($#k5_binop_1 :::"."::: )   "(" "f" "," "g" ")" ); end; 







:: deftheorem    defines :::"+"::: CLOPBAN2:def 1 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" ) "holds"  (Bool (Set (Set (Var "f"))  ($#k2_clopban2 :::"+"::: )  (Set (Var "g")))  ($#r1_hidden :::"="::: )  (Set (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" )  ($#k5_binop_1 :::"."::: )   "(" (Set (Var "f")) "," (Set (Var "g")) ")" )))); 
 definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); let "f", "g" be    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Const "X")) "," (Set (Const "X")) ")" ); func "g" :::"*"::: "f" ->    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")" ) equals :: CLOPBAN2:def 2 (Set (Set  "("  ($#k11_clopban1 :::"modetrans"::: )   "(" "g" "," "X" "," "X" ")"  ")" )  ($#k1_clopban2 :::"*"::: )  (Set  "("  ($#k11_clopban1 :::"modetrans"::: )   "(" "f" "," "X" "," "X" ")"  ")" )); end; 







:: deftheorem    defines :::"*"::: CLOPBAN2:def 2 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" ) "holds"  (Bool (Set (Set (Var "g"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "f")))  ($#r1_hidden :::"="::: )  (Set (Set  "("  ($#k11_clopban1 :::"modetrans"::: )   "(" (Set (Var "g")) "," (Set (Var "X")) "," (Set (Var "X")) ")"  ")" )  ($#k1_clopban2 :::"*"::: )  (Set  "("  ($#k11_clopban1 :::"modetrans"::: )   "(" (Set (Var "f")) "," (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ))))); 
 definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); let "f" be    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Const "X")) "," (Set (Const "X")) ")" ); let "z" be   ($#m1_hidden :::"Complex":::); func "z" :::"*"::: "f" ->    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")" ) equals :: CLOPBAN2:def 3 (Set (Set  "("  ($#k9_csspace :::"Mult_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" )  ($#k1_binop_1 :::"."::: )   "(" "z" "," "f" ")" ); end; 







:: deftheorem    defines :::"*"::: CLOPBAN2:def 3 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" )  (Bool  "for" (Set (Var "z")) "being"   ($#m1_hidden :::"Complex":::) "holds"  (Bool (Set (Set (Var "z"))  ($#k4_clopban2 :::"*"::: )  (Set (Var "f")))  ($#r1_hidden :::"="::: )  (Set (Set  "("  ($#k9_csspace :::"Mult_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" )  ($#k1_binop_1 :::"."::: )   "(" (Set (Var "z")) "," (Set (Var "f")) ")" ))))); 
 definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); func  :::"FuncMult"::: "X" ->   ($#m1_subset_1 :::"BinOp":::) "of" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) means :: CLOPBAN2:def 4 (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")" ) "holds"  (Bool (Set it  ($#k5_binop_1 :::"."::: )   "(" (Set (Var "f")) "," (Set (Var "g")) ")" )  ($#r1_hidden :::"="::: )  (Set (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "g"))))); end; 





:: deftheorem    defines :::"FuncMult"::: CLOPBAN2:def 4 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "b2")) "being"   ($#m1_subset_1 :::"BinOp":::) "of" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "holds"   (Bool  "("  (Bool (Set (Var "b2"))  ($#r1_hidden :::"="::: )  (Set   ($#k5_clopban2 :::"FuncMult"::: )  (Set (Var "X")))) "iff" (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" ) "holds"  (Bool (Set (Set (Var "b2"))  ($#k5_binop_1 :::"."::: )   "(" (Set (Var "f")) "," (Set (Var "g")) ")" )  ($#r1_hidden :::"="::: )  (Set (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "g")))))  ")" ))); 
 
theorem :: CLOPBAN2:3 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k6_partfun1 :::"id"::: )  (Set  "the"  ($#u1_struct_0 :::"carrier"::: )  "of" (Set (Var "X")))) "is"   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "X")))) ; 
 definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); func  :::"FuncUnit"::: "X" ->    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")" ) equals :: CLOPBAN2:def 5 (Set   ($#k6_partfun1 :::"id"::: )  (Set  "the"  ($#u1_struct_0 :::"carrier"::: )  "of" "X")); end; 





:: deftheorem    defines :::"FuncUnit"::: CLOPBAN2:def 5 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X")))  ($#r1_hidden :::"="::: )  (Set   ($#k6_partfun1 :::"id"::: )  (Set  "the"  ($#u1_struct_0 :::"carrier"::: )  "of" (Set (Var "X")))))); 
 
theorem :: CLOPBAN2:4 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "," (Set (Var "h")) "being"   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "X")) "holds"   (Bool  "("  (Bool (Set (Var "h"))  ($#r2_funct_2 :::"="::: )  (Set (Set (Var "f"))  ($#k1_clopban2 :::"*"::: )  (Set (Var "g")))) "iff" (Bool  "for" (Set (Var "x")) "being"   ($#m1_subset_1 :::"VECTOR":::) "of" (Set (Var "X")) "holds"  (Bool (Set (Set (Var "h"))  ($#k3_funct_2 :::"."::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "f"))  ($#k3_funct_2 :::"."::: )  (Set  "(" (Set (Var "g"))  ($#k3_funct_2 :::"."::: )  (Set (Var "x")) ")" ))))  ")" ))) ; 
 
theorem :: CLOPBAN2:5 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "," (Set (Var "h")) "being"   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "X")) "holds"  (Bool (Set (Set (Var "f"))  ($#k1_clopban2 :::"*"::: )  (Set  "(" (Set (Var "g"))  ($#k1_clopban2 :::"*"::: )  (Set (Var "h")) ")" ))  ($#r2_funct_2 :::"="::: )  (Set (Set  "(" (Set (Var "f"))  ($#k1_clopban2 :::"*"::: )  (Set (Var "g")) ")" )  ($#k1_clopban2 :::"*"::: )  (Set (Var "h")))))) ; 
 
theorem :: CLOPBAN2:6 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "being"   ($#v2_clopban1 :::"Lipschitzian"::: )    ($#m1_subset_1 :::"LinearOperator":::) "of" (Set (Var "X")) "," (Set (Var "X")) "holds"   (Bool  "("  (Bool (Set (Set (Var "f"))  ($#k1_partfun1 :::"*"::: )  (Set  "("  ($#k6_partfun1 :::"id"::: )  (Set  "the"  ($#u1_struct_0 :::"carrier"::: )  "of" (Set (Var "X"))) ")" ))  ($#r2_funct_2 :::"="::: )  (Set (Var "f"))) & (Bool (Set (Set  "("  ($#k6_partfun1 :::"id"::: )  (Set  "the"  ($#u1_struct_0 :::"carrier"::: )  "of" (Set (Var "X"))) ")" )  ($#k1_partfun1 :::"*"::: )  (Set (Var "f")))  ($#r2_funct_2 :::"="::: )  (Set (Var "f")))  ")" ))) ; 
 
theorem :: CLOPBAN2:7 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "," (Set (Var "h")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" ) "holds"  (Bool (Set (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set  "(" (Set (Var "g"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "h")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "g")) ")" )  ($#k3_clopban2 :::"*"::: )  (Set (Var "h")))))) ; 
 
theorem :: CLOPBAN2:8 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" ) "holds"   (Bool  "("  (Bool (Set (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Var "f"))) & (Bool (Set (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X")) ")" )  ($#k3_clopban2 :::"*"::: )  (Set (Var "f")))  ($#r1_hidden :::"="::: )  (Set (Var "f")))  ")" ))) ; 
 
theorem :: CLOPBAN2:9 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "," (Set (Var "h")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" ) "holds"  (Bool (Set (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set  "(" (Set (Var "g"))  ($#k2_clopban2 :::"+"::: )  (Set (Var "h")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "g")) ")" )  ($#k2_clopban2 :::"+"::: )  (Set  "(" (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "h")) ")" ))))) ; 
 
theorem :: CLOPBAN2:10 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "," (Set (Var "h")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" ) "holds"  (Bool (Set (Set  "(" (Set (Var "g"))  ($#k2_clopban2 :::"+"::: )  (Set (Var "h")) ")" )  ($#k3_clopban2 :::"*"::: )  (Set (Var "f")))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "g"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "f")) ")" )  ($#k2_clopban2 :::"+"::: )  (Set  "(" (Set (Var "h"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "f")) ")" ))))) ; 
 
theorem :: CLOPBAN2:11 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" )  (Bool  "for" (Set (Var "a")) "," (Set (Var "b")) "being"   ($#m1_hidden :::"Complex":::) "holds"  (Bool (Set (Set  "(" (Set (Var "a"))  ($#k3_xcmplx_0 :::"*"::: )  (Set (Var "b")) ")" )  ($#k4_clopban2 :::"*"::: )  (Set  "(" (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "g")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k4_clopban2 :::"*"::: )  (Set (Var "f")) ")" )  ($#k3_clopban2 :::"*"::: )  (Set  "(" (Set (Var "b"))  ($#k4_clopban2 :::"*"::: )  (Set (Var "g")) ")" )))))) ; 
 
theorem :: CLOPBAN2:12 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "f")) "," (Set (Var "g")) "being"    ($#m2_subset_1 :::"Element"::: )   "of" (Set   ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")" )  (Bool  "for" (Set (Var "a")) "being"   ($#m1_hidden :::"Complex":::) "holds"  (Bool (Set (Set (Var "a"))  ($#k4_clopban2 :::"*"::: )  (Set  "(" (Set (Var "f"))  ($#k3_clopban2 :::"*"::: )  (Set (Var "g")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k4_clopban2 :::"*"::: )  (Set (Var "f")) ")" )  ($#k3_clopban2 :::"*"::: )  (Set (Var "g"))))))) ; 
 definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); func  :::"Ring_of_BoundedLinearOperators"::: "X" ->    ($#l6_algstr_0 :::"doubleLoopStr"::: )   equals :: CLOPBAN2:def 6 (Set   ($#g6_algstr_0 :::"doubleLoopStr"::: )  "(#"  (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k5_clopban2 :::"FuncMult"::: )  "X" ")" ) "," (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  "X" ")" ) "," (Set  "("  ($#k10_csspace :::"Zero_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "#)" ); end; 





:: deftheorem    defines :::"Ring_of_BoundedLinearOperators"::: CLOPBAN2:def 6 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  (Set (Var "X")))  ($#r1_hidden :::"="::: )  (Set   ($#g6_algstr_0 :::"doubleLoopStr"::: )  "(#"  (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k5_clopban2 :::"FuncMult"::: )  (Set (Var "X")) ")" ) "," (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X")) ")" ) "," (Set  "("  ($#k10_csspace :::"Zero_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "#)" ))); 
 registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  "X") ->  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v36_algstr_0 :::"strict"::: )   ; 
end; registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  "X") ->   ($#v1_group_1 :::"unital"::: )   ; 
end; 
theorem :: CLOPBAN2:13 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "x")) "," (Set (Var "y")) "," (Set (Var "z")) "being"   ($#m1_subset_1 :::"Element":::) "of" (Set  "("  ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) "holds"   (Bool  "("  (Bool (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "x")))) & (Bool (Set (Set  "(" (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set  "("  ($#k4_struct_0 :::"0."::: )  (Set  "("  ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" ))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Var "x")) "is"   ($#v10_algstr_0 :::"right_complementable"::: )  ) & (Bool (Set (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "y"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "("  ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" ))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Set  "("  ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "y"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "z"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")) ")" )))  ")" ))) ; 
 
theorem :: CLOPBAN2:14 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#l6_algstr_0 :::"Ring":::))) ; 
 registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  "X") ->   ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_group_1 :::"associative"::: )     ($#v4_vectsp_1 :::"well-unital"::: )     ($#v5_vectsp_1 :::"distributive"::: )   ; 
end; definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); func  :::"C_Algebra_of_BoundedLinearOperators"::: "X" ->    ($#l1_cfuncdom :::"ComplexAlgebraStr"::: )   equals :: CLOPBAN2:def 7 (Set   ($#g1_cfuncdom :::"ComplexAlgebraStr"::: )  "(#"  (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k5_clopban2 :::"FuncMult"::: )  "X" ")" ) "," (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k9_csspace :::"Mult_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  "X" ")" ) "," (Set  "("  ($#k10_csspace :::"Zero_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "#)" ); end; 





:: deftheorem    defines :::"C_Algebra_of_BoundedLinearOperators"::: CLOPBAN2:def 7 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")))  ($#r1_hidden :::"="::: )  (Set   ($#g1_cfuncdom :::"ComplexAlgebraStr"::: )  "(#"  (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k5_clopban2 :::"FuncMult"::: )  (Set (Var "X")) ")" ) "," (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k9_csspace :::"Mult_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X")) ")" ) "," (Set  "("  ($#k10_csspace :::"Zero_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "#)" ))); 
 registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  "X") ->  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v1_cfuncdom :::"strict"::: )   ; 
end; registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  "X") ->   ($#v1_group_1 :::"unital"::: )   ; 
end; 
theorem :: CLOPBAN2:15 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "x")) "," (Set (Var "y")) "," (Set (Var "z")) "being"   ($#m1_subset_1 :::"Element":::) "of" (Set  "("  ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" )  (Bool  "for" (Set (Var "a")) "," (Set (Var "b")) "being"   ($#m1_hidden :::"Complex":::) "holds"   (Bool  "("  (Bool (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "x")))) & (Bool (Set (Set  "(" (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set  "("  ($#k4_struct_0 :::"0."::: )  (Set  "("  ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" ))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Var "x")) "is"   ($#v10_algstr_0 :::"right_complementable"::: )  ) & (Bool (Set (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "y"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "("  ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" ))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Set  "("  ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "y"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "z"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")) ")" ))) & (Bool (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")))) & (Bool (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "y")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "a"))  ($#k2_xcmplx_0 :::"+"::: )  (Set (Var "b")) ")" )  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "b"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "a"))  ($#k3_xcmplx_0 :::"*"::: )  (Set (Var "b")) ")" )  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "b"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "a"))  ($#k3_xcmplx_0 :::"*"::: )  (Set (Var "b")) ")" )  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "b"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "y")) ")" )))  ")" )))) ; 
 definitionmode ComplexBLAlgebra is  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v2_cfuncdom :::"vector-associative"::: )     ($#l1_cfuncdom :::"ComplexAlgebraStr"::: )  ; end; registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  "X") ->   ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v2_cfuncdom :::"vector-associative"::: )   ; 
end; 
theorem :: CLOPBAN2:16 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#l1_cfuncdom :::"ComplexBLAlgebra":::))) ; 
 registration
cluster (Set   ($#k3_csspace3 :::"Complex_l1_Space"::: )  ) ->   ($#v3_clopban1 :::"complete"::: )   ; 
end; registration
cluster (Set   ($#k3_csspace3 :::"Complex_l1_Space"::: )  ) ->  ($#~v7_struct_0  "non"   ($#v7_struct_0 :::"trivial"::: )   )  ; 
end; registration
cluster  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )   ($#~v7_struct_0  "non"   ($#v7_struct_0 :::"trivial"::: )   )    ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_normsp_0 :::"discerning"::: )     ($#v4_normsp_0 :::"reflexive"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v5_clvect_1 :::"scalar-unital"::: )     ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )     ($#v3_clopban1 :::"complete"::: )    for    ($#l2_clvect_1 :::"CNORMSTR"::: )  ; 
end; 
theorem :: CLOPBAN2:17 (Bool  "for" (Set (Var "X")) "being"  ($#~v7_struct_0  "non"   ($#v7_struct_0 :::"trivial"::: )   )   ($#l2_clvect_1 :::"ComplexNormSpace":::) (Bool  "ex" (Set (Var "w")) "being"   ($#m1_subset_1 :::"VECTOR":::) "of" (Set (Var "X")) "st" (Bool (Set  ($#k1_normsp_0 :::"||."::: ) (Set (Var "w")) ($#k1_normsp_0 :::".||"::: ) )  ($#r1_hidden :::"="::: )  (Num 1)))) ; 
 
theorem :: CLOPBAN2:18 (Bool  "for" (Set (Var "X")) "being"  ($#~v7_struct_0  "non"   ($#v7_struct_0 :::"trivial"::: )   )   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" )  ($#k1_funct_1 :::"."::: )  (Set  "("  ($#k6_partfun1 :::"id"::: )  (Set  "the"  ($#u1_struct_0 :::"carrier"::: )  "of" (Set (Var "X"))) ")" ))  ($#r1_hidden :::"="::: )  (Num 1))) ; 
 definitionattr "c1" is  :::"strict"::: ; struct  :::"Normed_Complex_AlgebraStr":::  ->    ($#l1_cfuncdom :::"ComplexAlgebraStr"::: )   ","    ($#l2_clvect_1 :::"CNORMSTR"::: )  ; aggr :::"Normed_Complex_AlgebraStr":::(# :::"carrier":::, :::"multF":::, :::"addF":::, :::"Mult":::, :::"OneF":::, :::"ZeroF":::, :::"normF"::: #) ->    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; end; registration
cluster  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )   for    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; 
end; definitionlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); func  :::"C_Normed_Algebra_of_BoundedLinearOperators"::: "X" ->    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )   equals :: CLOPBAN2:def 8 (Set   ($#g1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  "(#"  (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k5_clopban2 :::"FuncMult"::: )  "X" ")" ) "," (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k9_csspace :::"Mult_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  "X" ")" ) "," (Set  "("  ($#k10_csspace :::"Zero_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" "X" "," "X" ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" "X" "," "X" ")"  ")" ) "#)" ); end; 





:: deftheorem    defines :::"C_Normed_Algebra_of_BoundedLinearOperators"::: CLOPBAN2:def 8 :  (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")))  ($#r1_hidden :::"="::: )  (Set   ($#g1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  "(#"  (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k5_clopban2 :::"FuncMult"::: )  (Set (Var "X")) ")" ) "," (Set  "("  ($#k8_csspace :::"Add_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k9_csspace :::"Mult_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X")) ")" ) "," (Set  "("  ($#k10_csspace :::"Zero_"::: )   "(" (Set  "("  ($#k8_clopban1 :::"BoundedLinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "," (Set  "("  ($#k6_clopban1 :::"C_VectorSpace_of_LinearOperators"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) ")"  ")" ) "," (Set  "("  ($#k13_clopban1 :::"BoundedLinearOperatorsNorm"::: )   "(" (Set (Var "X")) "," (Set (Var "X")) ")"  ")" ) "#)" ))); 
 registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  "X") ->  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v1_clopban2 :::"strict"::: )   ; 
end; registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  "X") ->   ($#v1_group_1 :::"unital"::: )   ; 
end; 
theorem :: CLOPBAN2:19 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::)  (Bool  "for" (Set (Var "x")) "," (Set (Var "y")) "," (Set (Var "z")) "being"   ($#m1_subset_1 :::"Element":::) "of" (Set  "("  ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" )  (Bool  "for" (Set (Var "a")) "," (Set (Var "b")) "being"   ($#m1_hidden :::"Complex":::) "holds"   (Bool  "("  (Bool (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "x")))) & (Bool (Set (Set  "(" (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set  "("  ($#k4_struct_0 :::"0."::: )  (Set  "("  ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" ))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Var "x")) "is"   ($#v10_algstr_0 :::"right_complementable"::: )  ) & (Bool (Set (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "y"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "("  ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" ))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Set  "("  ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Var "x"))) & (Bool (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "z")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "y"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "z")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "y"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "z"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "x")) ")" ))) & (Bool (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")))) & (Bool (Set (Set  "(" (Set (Var "a"))  ($#k3_xcmplx_0 :::"*"::: )  (Set (Var "b")) ")" )  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "b"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "y")) ")" ))) & (Bool (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k1_algstr_0 :::"+"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "y")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "a"))  ($#k2_xcmplx_0 :::"+"::: )  (Set (Var "b")) ")" )  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" )  ($#k1_algstr_0 :::"+"::: )  (Set  "(" (Set (Var "b"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" ))) & (Bool (Set (Set  "(" (Set (Var "a"))  ($#k3_xcmplx_0 :::"*"::: )  (Set (Var "b")) ")" )  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "b"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")) ")" ))) & (Bool (Set (Set  ($#k6_complex1 :::"1r"::: ) )  ($#k1_clvect_1 :::"*"::: )  (Set (Var "x")))  ($#r1_hidden :::"="::: )  (Set (Var "x")))  ")" )))) ; 
 
theorem :: CLOPBAN2:20 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"   (Bool  "("  (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v4_normsp_0 :::"reflexive"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v3_normsp_0 :::"discerning"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v2_rlvect_1 :::"Abelian"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v3_rlvect_1 :::"add-associative"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v4_rlvect_1 :::"right_zeroed"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v13_algstr_0 :::"right_complementable"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v3_group_1 :::"associative"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v3_vectsp_1 :::"right_unital"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v1_vectsp_1 :::"right-distributive"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v2_clvect_1 :::"vector-distributive"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v3_clvect_1 :::"scalar-distributive"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v4_clvect_1 :::"scalar-associative"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v2_cfuncdom :::"vector-associative"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v2_clvect_1 :::"vector-distributive"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v3_clvect_1 :::"scalar-distributive"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v4_clvect_1 :::"scalar-associative"::: )  ) & (Bool (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X"))) "is"   ($#v5_clvect_1 :::"scalar-unital"::: )  )  ")" )) ; 
 registration
cluster  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_normsp_0 :::"discerning"::: )     ($#v4_normsp_0 :::"reflexive"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v5_clvect_1 :::"scalar-unital"::: )     ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v2_cfuncdom :::"vector-associative"::: )     ($#v1_clopban2 :::"strict"::: )    for    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; 
end; definitionmode Normed_Complex_Algebra is  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_normsp_0 :::"discerning"::: )     ($#v4_normsp_0 :::"reflexive"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v5_clvect_1 :::"scalar-unital"::: )     ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v2_cfuncdom :::"vector-associative"::: )     ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; end; registrationlet "X" be   ($#l2_clvect_1 :::"ComplexNormSpace":::); 
cluster (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  "X") ->   ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_normsp_0 :::"discerning"::: )     ($#v4_normsp_0 :::"reflexive"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v5_clvect_1 :::"scalar-unital"::: )     ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v2_cfuncdom :::"vector-associative"::: )   ; 
end; definitionlet "X" be  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; attr "X" is  :::"Banach_Algebra-like_1":::  means :: CLOPBAN2:def 9 (Bool  "for" (Set (Var "x")) "," (Set (Var "y")) "being"   ($#m1_subset_1 :::"Element":::) "of" "X" "holds"  (Bool (Set  ($#k1_normsp_0 :::"||."::: ) (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ) ($#k1_normsp_0 :::".||"::: ) )  ($#r1_xxreal_0 :::"<="::: )  (Set (Set  ($#k1_normsp_0 :::"||."::: ) (Set (Var "x")) ($#k1_normsp_0 :::".||"::: ) )  ($#k8_real_1 :::"*"::: )  (Set  ($#k1_normsp_0 :::"||."::: ) (Set (Var "y")) ($#k1_normsp_0 :::".||"::: ) )))); attr "X" is  :::"Banach_Algebra-like_2":::  means :: CLOPBAN2:def 10 (Bool (Set  ($#k1_normsp_0 :::"||."::: ) (Set  "("  ($#k5_struct_0 :::"1."::: )  "X" ")" ) ($#k1_normsp_0 :::".||"::: ) )  ($#r1_hidden :::"="::: )  (Num 1)); attr "X" is  :::"Banach_Algebra-like_3":::  means :: CLOPBAN2:def 11 (Bool  "for" (Set (Var "a")) "being"   ($#m1_hidden :::"Complex":::)  (Bool  "for" (Set (Var "x")) "," (Set (Var "y")) "being"   ($#m1_subset_1 :::"Element":::) "of" "X" "holds"  (Bool (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "y")) ")" ))))); end; 












:: deftheorem    defines :::"Banach_Algebra-like_1"::: CLOPBAN2:def 9 :  (Bool  "for" (Set (Var "X")) "being"  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )   "holds"   (Bool  "("  (Bool (Set (Var "X")) "is"   ($#v2_clopban2 :::"Banach_Algebra-like_1"::: )  ) "iff" (Bool  "for" (Set (Var "x")) "," (Set (Var "y")) "being"   ($#m1_subset_1 :::"Element":::) "of" (Set (Var "X")) "holds"  (Bool (Set  ($#k1_normsp_0 :::"||."::: ) (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ) ($#k1_normsp_0 :::".||"::: ) )  ($#r1_xxreal_0 :::"<="::: )  (Set (Set  ($#k1_normsp_0 :::"||."::: ) (Set (Var "x")) ($#k1_normsp_0 :::".||"::: ) )  ($#k8_real_1 :::"*"::: )  (Set  ($#k1_normsp_0 :::"||."::: ) (Set (Var "y")) ($#k1_normsp_0 :::".||"::: ) ))))  ")" )); 
 
:: deftheorem    defines :::"Banach_Algebra-like_2"::: CLOPBAN2:def 10 :  (Bool  "for" (Set (Var "X")) "being"  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )   "holds"   (Bool  "("  (Bool (Set (Var "X")) "is"   ($#v3_clopban2 :::"Banach_Algebra-like_2"::: )  ) "iff" (Bool (Set  ($#k1_normsp_0 :::"||."::: ) (Set  "("  ($#k5_struct_0 :::"1."::: )  (Set (Var "X")) ")" ) ($#k1_normsp_0 :::".||"::: ) )  ($#r1_hidden :::"="::: )  (Num 1))  ")" )); 
 
:: deftheorem    defines :::"Banach_Algebra-like_3"::: CLOPBAN2:def 11 :  (Bool  "for" (Set (Var "X")) "being"  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )   "holds"   (Bool  "("  (Bool (Set (Var "X")) "is"   ($#v4_clopban2 :::"Banach_Algebra-like_3"::: )  ) "iff" (Bool  "for" (Set (Var "a")) "being"   ($#m1_hidden :::"Complex":::)  (Bool  "for" (Set (Var "x")) "," (Set (Var "y")) "being"   ($#m1_subset_1 :::"Element":::) "of" (Set (Var "X")) "holds"  (Bool (Set (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set  "(" (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set (Var "y")) ")" ))  ($#r1_hidden :::"="::: )  (Set (Set (Var "x"))  ($#k6_algstr_0 :::"*"::: )  (Set  "(" (Set (Var "a"))  ($#k1_clvect_1 :::"*"::: )  (Set (Var "y")) ")" )))))  ")" )); 
 definitionlet "X" be   ($#l1_clopban2 :::"Normed_Complex_Algebra":::); attr "X" is  :::"Banach_Algebra-like":::  means :: CLOPBAN2:def 12 (Bool  "("  (Bool "X" "is"   ($#v2_clopban2 :::"Banach_Algebra-like_1"::: )  ) & (Bool "X" "is"   ($#v3_clopban2 :::"Banach_Algebra-like_2"::: )  ) & (Bool "X" "is"   ($#v4_clopban2 :::"Banach_Algebra-like_3"::: )  ) & (Bool "X" "is"   ($#v6_vectsp_1 :::"left_unital"::: )  ) & (Bool "X" "is"   ($#v2_vectsp_1 :::"left-distributive"::: )  ) & (Bool "X" "is"   ($#v3_clopban1 :::"complete"::: )  )  ")" ); end; 




:: deftheorem    defines :::"Banach_Algebra-like"::: CLOPBAN2:def 12 :  (Bool  "for" (Set (Var "X")) "being"   ($#l1_clopban2 :::"Normed_Complex_Algebra":::) "holds"   (Bool  "("  (Bool (Set (Var "X")) "is"   ($#v5_clopban2 :::"Banach_Algebra-like"::: )  ) "iff" (Bool  "("  (Bool (Set (Var "X")) "is"   ($#v2_clopban2 :::"Banach_Algebra-like_1"::: )  ) & (Bool (Set (Var "X")) "is"   ($#v3_clopban2 :::"Banach_Algebra-like_2"::: )  ) & (Bool (Set (Var "X")) "is"   ($#v4_clopban2 :::"Banach_Algebra-like_3"::: )  ) & (Bool (Set (Var "X")) "is"   ($#v6_vectsp_1 :::"left_unital"::: )  ) & (Bool (Set (Var "X")) "is"   ($#v2_vectsp_1 :::"left-distributive"::: )  ) & (Bool (Set (Var "X")) "is"   ($#v3_clopban1 :::"complete"::: )  )  ")" )  ")" )); 
 registration
cluster  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_normsp_0 :::"discerning"::: )     ($#v4_normsp_0 :::"reflexive"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v5_clvect_1 :::"scalar-unital"::: )     ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v2_cfuncdom :::"vector-associative"::: )     ($#v5_clopban2 :::"Banach_Algebra-like"::: )    ->   ($#v2_vectsp_1 :::"left-distributive"::: )     ($#v6_vectsp_1 :::"left_unital"::: )     ($#v3_clopban1 :::"complete"::: )     ($#v2_clopban2 :::"Banach_Algebra-like_1"::: )     ($#v3_clopban2 :::"Banach_Algebra-like_2"::: )     ($#v4_clopban2 :::"Banach_Algebra-like_3"::: )    for    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; 

cluster  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_normsp_0 :::"discerning"::: )     ($#v4_normsp_0 :::"reflexive"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v5_clvect_1 :::"scalar-unital"::: )     ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v2_vectsp_1 :::"left-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v6_vectsp_1 :::"left_unital"::: )     ($#v3_clopban1 :::"complete"::: )     ($#v2_cfuncdom :::"vector-associative"::: )     ($#v2_clopban2 :::"Banach_Algebra-like_1"::: )     ($#v3_clopban2 :::"Banach_Algebra-like_2"::: )     ($#v4_clopban2 :::"Banach_Algebra-like_3"::: )    ->   ($#v5_clopban2 :::"Banach_Algebra-like"::: )    for    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; 
end; registrationlet "X" be  ($#~v7_struct_0  "non"   ($#v7_struct_0 :::"trivial"::: )   )   ($#l2_clvect_1 :::"ComplexBanachSpace":::); 
cluster (Set   ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  "X") ->   ($#v5_clopban2 :::"Banach_Algebra-like"::: )   ; 
end; registration
cluster  ($#~v2_struct_0  "non"   ($#v2_struct_0 :::"empty"::: )   )    ($#v13_algstr_0 :::"right_complementable"::: )     ($#v2_rlvect_1 :::"Abelian"::: )     ($#v3_rlvect_1 :::"add-associative"::: )     ($#v4_rlvect_1 :::"right_zeroed"::: )     ($#v3_normsp_0 :::"discerning"::: )     ($#v4_normsp_0 :::"reflexive"::: )     ($#v2_clvect_1 :::"vector-distributive"::: )     ($#v3_clvect_1 :::"scalar-distributive"::: )     ($#v4_clvect_1 :::"scalar-associative"::: )     ($#v5_clvect_1 :::"scalar-unital"::: )     ($#v8_clvect_1 :::"ComplexNormSpace-like"::: )     ($#v3_group_1 :::"associative"::: )     ($#v1_vectsp_1 :::"right-distributive"::: )     ($#v3_vectsp_1 :::"right_unital"::: )     ($#v2_cfuncdom :::"vector-associative"::: )     ($#v5_clopban2 :::"Banach_Algebra-like"::: )    for    ($#l1_clopban2 :::"Normed_Complex_AlgebraStr"::: )  ; 
end; definitionmode Complex_Banach_Algebra is   ($#v5_clopban2 :::"Banach_Algebra-like"::: )    ($#l1_clopban2 :::"Normed_Complex_Algebra":::); end; 
theorem :: CLOPBAN2:21 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k7_clopban2 :::"Ring_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ))  ($#r1_hidden :::"="::: )  (Set   ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X"))))) ; 
 
theorem :: CLOPBAN2:22 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k8_clopban2 :::"C_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ))  ($#r1_hidden :::"="::: )  (Set   ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X"))))) ; 
 
theorem :: CLOPBAN2:23 (Bool  "for" (Set (Var "X")) "being"   ($#l2_clvect_1 :::"ComplexNormSpace":::) "holds"  (Bool (Set   ($#k5_struct_0 :::"1."::: )  (Set  "("  ($#k9_clopban2 :::"C_Normed_Algebra_of_BoundedLinearOperators"::: )  (Set (Var "X")) ")" ))  ($#r1_hidden :::"="::: )  (Set   ($#k6_clopban2 :::"FuncUnit"::: )  (Set (Var "X"))))) ;