let C1 be non empty AltGraph ; for C2 being non empty reflexive AltGraph
for o2 being object of C2
for m being Morphism of o2,o2
for F being feasible Covariant FunctorStr of C1,C2 st F = C1 --> m holds
for o, o9 being object of C1
for f being Morphism of o,o9 st <^o,o9^> <> {} holds
F . f = m
let C2 be non empty reflexive AltGraph ; for o2 being object of C2
for m being Morphism of o2,o2
for F being feasible Covariant FunctorStr of C1,C2 st F = C1 --> m holds
for o, o9 being object of C1
for f being Morphism of o,o9 st <^o,o9^> <> {} holds
F . f = m
let o2 be object of C2; for m being Morphism of o2,o2
for F being feasible Covariant FunctorStr of C1,C2 st F = C1 --> m holds
for o, o9 being object of C1
for f being Morphism of o,o9 st <^o,o9^> <> {} holds
F . f = m
A1:
<^o2,o2^> <> {}
by ALTCAT_2:def 7;
let m be Morphism of o2,o2; for F being feasible Covariant FunctorStr of C1,C2 st F = C1 --> m holds
for o, o9 being object of C1
for f being Morphism of o,o9 st <^o,o9^> <> {} holds
F . f = m
let F be feasible Covariant FunctorStr of C1,C2; ( F = C1 --> m implies for o, o9 being object of C1
for f being Morphism of o,o9 st <^o,o9^> <> {} holds
F . f = m )
assume A2:
F = C1 --> m
; for o, o9 being object of C1
for f being Morphism of o,o9 st <^o,o9^> <> {} holds
F . f = m
let o, o9 be object of C1; for f being Morphism of o,o9 st <^o,o9^> <> {} holds
F . f = m
let f be Morphism of o,o9; ( <^o,o9^> <> {} implies F . f = m )
assume A3:
<^o,o9^> <> {}
; F . f = m
then
<^(F . o),(F . o9)^> <> {}
by Def19;
hence F . f =
(Morph-Map (F,o,o9)) . f
by A3, Def16
.=
m
by A1, A2, A3, Th25
;
verum