let D be non empty set ; :: thesis: for d being Element of D
for i being Nat
for T1, T2 being Element of i -tuples_on D
for F being BinOp of D st F is associative holds
F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2)
let d be Element of D; :: thesis: for i being Nat
for T1, T2 being Element of i -tuples_on D
for F being BinOp of D st F is associative holds
F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2)
let i be Nat; :: thesis: for T1, T2 being Element of i -tuples_on D
for F being BinOp of D st F is associative holds
F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2)
let T1, T2 be Element of i -tuples_on D; :: thesis: for F being BinOp of D st F is associative holds
F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2)
let F be BinOp of D; :: thesis: ( F is associative implies F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2) )
assume A1: F is associative ; :: thesis: F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2)
per cases ( i = 0 or i <> 0 ) ;
suppose i = 0 ; :: thesis: F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2)
then ( F [:] T1,d = <*> D & F [;] d,T2 = <*> D ) by Lm3, Lm4;
then ( F .: (F [:] T1,d),T2 = <*> D & F .: T1,(F [;] d,T2) = <*> D ) by FINSEQ_2:87;
hence F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2) ; :: thesis: verum
end;
suppose i <> 0 ; :: thesis: F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2)
then reconsider C = Seg i as non empty set ;
( T1 is Function of C,D & T2 is Function of C,D ) by Lm5;
hence F .: (F [:] T1,d),T2 = F .: T1,(F [;] d,T2) by A1, FUNCOP_1:75; :: thesis: verum
end;
end;