let X be set ; :: thesis: for Y being complex-functions-membered set
for c1, c2 being Complex
for f being PartFunc of X,Y holds (f [+] c1) [-] c2 = f [+] (c1 - c2)
let Y be complex-functions-membered set ; :: thesis: for c1, c2 being Complex
for f being PartFunc of X,Y holds (f [+] c1) [-] c2 = f [+] (c1 - c2)
let c1, c2 be Complex; :: thesis: for f being PartFunc of X,Y holds (f [+] c1) [-] c2 = f [+] (c1 - c2)
let f be PartFunc of X,Y; :: thesis: (f [+] c1) [-] c2 = f [+] (c1 - c2)
set f1 = f [+] c1;
A1: dom ((f [+] c1) [-] c2) = dom (f [+] c1) by Def37;
dom (f [+] c1) = dom f by Def37;
hence A2: dom ((f [+] c1) [-] c2) = dom (f [+] (c1 - c2)) by A1, Def37; :: according to FUNCT_1:def 11 :: thesis: for b₁ being object holds
( not b₁ in dom ((f [+] c1) [-] c2) or ((f [+] c1) [-] c2) . b₁ = (f [+] (c1 - c2)) . b₁ )
let x be object ; :: thesis: ( not x in dom ((f [+] c1) [-] c2) or ((f [+] c1) [-] c2) . x = (f [+] (c1 - c2)) . x )
assume A3: x in dom ((f [+] c1) [-] c2) ; :: thesis: ((f [+] c1) [-] c2) . x = (f [+] (c1 - c2)) . x
hence ((f [+] c1) [-] c2) . x = ((f [+] c1) . x) - c2 by Def37
.= ((f . x) + c1) - c2 by A1, A3, Def37
.= (f . x) + (c1 - c2) by Th12
.= (f [+] (c1 - c2)) . x by A2, A3, Def37 ;
:: thesis: verum