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Theorem fvmptf 5729
Description: Value of a function given by an ordered-pair class abstraction. This version of fvmptg 5712 uses bound-variable hypotheses instead of distinct variable conditions. (Contributed by NM, 8-Nov-2005.) (Revised by Mario Carneiro, 15-Oct-2016.)
Hypotheses
Ref Expression
fvmptf.1 |- F/_ x A
fvmptf.2 |- F/_ x C
fvmptf.3 |- ( x = A -> B = C )
fvmptf.4 |- F = ( x e. D |-> B )
Assertion
Ref Expression
fvmptf |- ( ( A e. D /\ C e. V ) -> ( F ` A ) = C )
Distinct variable group:   x, D
Allowed substitution hints:   A( x)   B( x)   C( x)   F( x)   V( x)
Proof of Theorem fvmptf
StepHypRef Expression
1 elex 2811 . . 3 |- ( C e. V -> C e. _V )
2 fvmptf.1 . . . 4 |- F/_ x A
3 fvmptf.2 . . . . . 6 |- F/_ x C
43nfel1 2383 . . . . 5 |- F/ x C e. _V
5 fvmptf.4 . . . . . . . 8 |- F = ( x e. D |-> B )
6 nfmpt1 4177 . . . . . . . 8 |- F/_ x ( x e. D |-> B )
75, 6nfcxfr 2369 . . . . . . 7 |- F/_ x F
87, 2nffv 5639 . . . . . 6 |- F/_ x ( F ` A )
98, 3nfeq 2380 . . . . 5 |- F/ x ( F ` A ) = C
104, 9nfim 1618 . . . 4 |- F/ x ( C e. _V -> ( F ` A ) = C )
11 fvmptf.3 . . . . . 6 |- ( x = A -> B = C )
1211eleq1d 2298 . . . . 5 |- ( x = A -> ( B e. _V <-> C e. _V ) )
13 fveq2 5629 . . . . . 6 |- ( x = A -> ( F ` x ) = ( F ` A ) )
1413, 11eqeq12d 2244 . . . . 5 |- ( x = A -> ( ( F ` x ) = B <-> ( F ` A ) = C ) )
1512, 14imbi12d 234 . . . 4 |- ( x = A -> ( ( B e. _V -> ( F ` x ) = B ) <-> ( C e. _V -> ( F ` A ) = C ) ) )
165fvmpt2 5720 . . . . 5 |- ( ( x e. D /\ B e. _V ) -> ( F ` x ) = B )
1716ex 115 . . . 4 |- ( x e. D -> ( B e. _V -> ( F ` x ) = B ) )
182, 10, 15, 17vtoclgaf 2866 . . 3 |- ( A e. D -> ( C e. _V -> ( F ` A ) = C ) )
191, 18syl5 32 . 2 |- ( A e. D -> ( C e. V -> ( F ` A ) = C ) )
2019imp 124 1 |- ( ( A e. D /\ C e. V ) -> ( F ` A ) = C )
Colors of variables: wff set class
Syntax hints:   -> wi 4   /\ wa 104   = wceq 1395   e. wcel 2200   F/_wnfc 2359   _Vcvv 2799   |-> cmpt 4145   ` cfv 5318
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-ia1 106  ax-ia2 107  ax-ia3 108  ax-io 714  ax-5 1493  ax-7 1494  ax-gen 1495  ax-ie1 1539  ax-ie2 1540  ax-8 1550  ax-10 1551  ax-11 1552  ax-i12 1553  ax-bndl 1555  ax-4 1556  ax-17 1572  ax-i9 1576  ax-ial 1580  ax-i5r 1581  ax-14 2203  ax-ext 2211  ax-sep 4202  ax-pow 4258  ax-pr 4293
This theorem depends on definitions:  df-bi 117  df-3an 1004  df-tru 1398  df-nf 1507  df-sb 1809  df-eu 2080  df-mo 2081  df-clab 2216  df-cleq 2222  df-clel 2225  df-nfc 2361  df-ral 2513  df-rex 2514  df-v 2801  df-sbc 3029  df-csb 3125  df-un 3201  df-in 3203  df-ss 3210  df-pw 3651  df-sn 3672  df-pr 3673  df-op 3675  df-uni 3889  df-br 4084  df-opab 4146  df-mpt 4147  df-id 4384  df-xp 4725  df-rel 4726  df-cnv 4727  df-co 4728  df-dm 4729  df-iota 5278  df-fun 5320  df-fv 5326
This theorem is referenced by:  fvmptd3  5730  elfvmptrab1  5731  sumrbdclem  11903  fsum3  11913  isumss  11917  prodrbdclem  12097  prodmodclem2a  12102  zproddc  12105  fprodntrivap  12110  prodssdc  12115  pcmpt  12881
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