let x1, x2 be set ; :: according to FUNCT_1:def 8 :: thesis: ( not x1 in proj1 (distribute A,B,C) or not x2 in proj1 (distribute A,B,C) or not (distribute A,B,C) . x1 = (distribute A,B,C) . x2 or x1 = x2 )
assume x1 in dom (distribute A,B,C) ; :: thesis: ( not x2 in proj1 (distribute A,B,C) or not (distribute A,B,C) . x1 = (distribute A,B,C) . x2 or x1 = x2 )
then reconsider f1 = x1 as Morphism of (Functors A,[:B,C:]) ;
consider F1, F2 being Functor of A,[:B,C:], s being natural_transformation of F1,F2 such that
A1: F1 is_naturally_transformable_to F2 and
dom f1 = F1 and
cod f1 = F2 and
A2: f1 = [[F1,F2],s] by Th9;
assume x2 in dom (distribute A,B,C) ; :: thesis: ( not (distribute A,B,C) . x1 = (distribute A,B,C) . x2 or x1 = x2 )
then reconsider f2 = x2 as Morphism of (Functors A,[:B,C:]) ;
consider G1, G2 being Functor of A,[:B,C:], t being natural_transformation of G1,G2 such that
A3: G1 is_naturally_transformable_to G2 and
dom f2 = G1 and
cod f2 = G2 and
A4: f2 = [[G1,G2],t] by Th9;
assume (distribute A,B,C) . x1 = (distribute A,B,C) . x2 ; :: thesis: x1 = x2
then A5: [[[(Pr1 F1),(Pr1 F2)],(Pr1 s)],[[(Pr2 F1),(Pr2 F2)],(Pr2 s)]] = (distribute A,B,C) . [[G1,G2],t] by A1, A2, A4, Def13
.= [[[(Pr1 G1),(Pr1 G2)],(Pr1 t)],[[(Pr2 G1),(Pr2 G2)],(Pr2 t)]] by A3, Def13 ;
then A6: [[(Pr1 F1),(Pr1 F2)],(Pr1 s)] = [[(Pr1 G1),(Pr1 G2)],(Pr1 t)] by ZFMISC_1:33;
A7: [[(Pr2 F1),(Pr2 F2)],(Pr2 s)] = [[(Pr2 G1),(Pr2 G2)],(Pr2 t)] by A5, ZFMISC_1:33;
then A8: Pr2 s = Pr2 t by ZFMISC_1:33;
A9: [(Pr2 F1),(Pr2 F2)] = [(Pr2 G1),(Pr2 G2)] by A7, ZFMISC_1:33;
then A10: Pr2 F1 = Pr2 G1 by ZFMISC_1:33;
A11: [(Pr1 F1),(Pr1 F2)] = [(Pr1 G1),(Pr1 G2)] by A6, ZFMISC_1:33;
then Pr1 F1 = Pr1 G1 by ZFMISC_1:33;
then A12: F1 = G1 by A10, Th37;
Pr1 s = Pr1 t by A6, ZFMISC_1:33;
then A13: s = t by A1, A3, A8, Th39;
A14: Pr2 F2 = Pr2 G2 by A9, ZFMISC_1:33;
Pr1 F2 = Pr1 G2 by A11, ZFMISC_1:33;
hence x1 = x2 by A2, A4, A14, A13, A12, Th37; :: thesis: verum