Theorem psrval 19362

Description: Value of the multivariate power series structure. (Contributed by Mario Carneiro, 29-Dec-2014.)

Hypotheses

Ref	Expression
psrval.s	|- S = ( I mPwSer R )
psrval.k	|- K = ( Base ` R )
psrval.a	|- .+ = ( +g ` R )
psrval.m	|- .x. = ( .r ` R )
psrval.o	|- O = ( TopOpen ` R )
psrval.d	|- D = { h e. ( NN0 ^m I ) | ( `' h " NN ) e. Fin }
psrval.b	|- ( ph -> B = ( K ^m D ) )
psrval.p	|- .+b = ( oF .+ |` ( B X. B ) )
psrval.t	|- .X. = ( f e. B , g e. B |-> ( k e. D |-> ( R gsumg ( x e. { y e. D | y oR <_ k } |-> ( ( f ` x ) .x. ( g ` ( k oF - x ) ) ) ) ) ) )
psrval.v	|- .xb = ( x e. K , f e. B |-> ( ( D X. { x } ) oF .x. f ) )
psrval.j	|- ( ph -> J = ( Xt_ ` ( D X. { O } ) ) )
psrval.i	|- ( ph -> I e. W )
psrval.r	|- ( ph -> R e. X )

Assertion

Ref	Expression
psrval	|- ( ph -> S = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )

Distinct variable groups:   y, h   f, g, k, x, ph   B, f, g, k, x   f, h, I, g, k, x   R, f, g, k, x   y, f, D, g, k, x

Allowed substitution hints:   ph( y, h)   B( y, h)   D( h)   .+ ( x, y, f, g, h, k)   .+b ( x, y, f, g, h, k)   R( y, h)   S( x, y, f, g, h, k)   .xb ( x, y, f, g, h, k)   .x. ( x, y, f, g, h, k)   .X. ( x, y, f, g, h, k)   I( y)   J( x, y, f, g, h, k)   K( x, y, f, g, h, k)   O( x, y, f, g, h, k)   W( x, y, f, g, h, k)   X( x, y, f, g, h, k)

Proof of Theorem psrval

Dummy variables i r b d are mutually distinct and distinct from all other variables.

Step	Hyp	Ref	Expression
1		psrval.s	. 2 |- S = ( I mPwSer R )
2		df-psr 19356	. . . 4 |- mPwSer = ( i e. _V , r e. _V |-> [_ { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } / d ]_ [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) )
3	2	a1i 11	. . 3 |- ( ph -> mPwSer = ( i e. _V , r e. _V |-> [_ { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } / d ]_ [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) ) )
4		simprl 794	. . . . . . . 8 |- ( ( ph /\ ( i = I /\ r = R ) ) -> i = I )
5	4	oveq2d 6666	. . . . . . 7 |- ( ( ph /\ ( i = I /\ r = R ) ) -> ( NN0 ^m i ) = ( NN0 ^m I ) )
6		rabeq 3192	. . . . . . 7 |- ( ( NN0 ^m i ) = ( NN0 ^m I ) -> { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } = { h e. ( NN0 ^m I ) | ( `' h " NN ) e. Fin } )
7	5, 6	syl 17	. . . . . 6 |- ( ( ph /\ ( i = I /\ r = R ) ) -> { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } = { h e. ( NN0 ^m I ) | ( `' h " NN ) e. Fin } )
8		psrval.d	. . . . . 6 |- D = { h e. ( NN0 ^m I ) | ( `' h " NN ) e. Fin }
9	7, 8	syl6eqr 2674	. . . . 5 |- ( ( ph /\ ( i = I /\ r = R ) ) -> { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } = D )
10	9	csbeq1d 3540	. . . 4 |- ( ( ph /\ ( i = I /\ r = R ) ) -> [_ { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } / d ]_ [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) = [_ D / d ]_ [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) )
11		ovex 6678	. . . . . . 7 |- ( NN0 ^m i ) e. _V
12	11	rabex 4813	. . . . . 6 |- { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } e. _V
13	9, 12	syl6eqelr 2710	. . . . 5 |- ( ( ph /\ ( i = I /\ r = R ) ) -> D e. _V )
14		simplrr 801	. . . . . . . . . . 11 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> r = R )
15	14	fveq2d 6195	. . . . . . . . . 10 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> ( Base ` r ) = ( Base ` R ) )
16		psrval.k	. . . . . . . . . 10 |- K = ( Base ` R )
17	15, 16	syl6eqr 2674	. . . . . . . . 9 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> ( Base ` r ) = K )
18		simpr 477	. . . . . . . . 9 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> d = D )
19	17, 18	oveq12d 6668	. . . . . . . 8 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> ( ( Base ` r ) ^m d ) = ( K ^m D ) )
20		psrval.b	. . . . . . . . 9 |- ( ph -> B = ( K ^m D ) )
21	20	ad2antrr 762	. . . . . . . 8 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> B = ( K ^m D ) )
22	19, 21	eqtr4d 2659	. . . . . . 7 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> ( ( Base ` r ) ^m d ) = B )
23	22	csbeq1d 3540	. . . . . 6 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) = [_ B / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) )
24		ovex 6678	. . . . . . . 8 |- ( ( Base ` r ) ^m d ) e. _V
25	22, 24	syl6eqelr 2710	. . . . . . 7 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> B e. _V )
26		simpr 477	. . . . . . . . . 10 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> b = B )
27	26	opeq2d 4409	. . . . . . . . 9 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> <. ( Base ` ndx ) , b >. = <. ( Base ` ndx ) , B >. )
28	14	adantr 481	. . . . . . . . . . . . . . 15 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> r = R )
29	28	fveq2d 6195	. . . . . . . . . . . . . 14 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( +g ` r ) = ( +g ` R ) )
30		psrval.a	. . . . . . . . . . . . . 14 |- .+ = ( +g ` R )
31	29, 30	syl6eqr 2674	. . . . . . . . . . . . 13 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( +g ` r ) = .+ )
32		ofeq 6899	. . . . . . . . . . . . 13 |- ( ( +g ` r ) = .+ -> oF ( +g ` r ) = oF .+ )
33	31, 32	syl 17	. . . . . . . . . . . 12 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> oF ( +g ` r ) = oF .+ )
34	26, 26	xpeq12d 5140	. . . . . . . . . . . 12 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( b X. b ) = ( B X. B ) )
35	33, 34	reseq12d 5397	. . . . . . . . . . 11 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( oF ( +g ` r ) |` ( b X. b ) ) = ( oF .+ |` ( B X. B ) ) )
36		psrval.p	. . . . . . . . . . 11 |- .+b = ( oF .+ |` ( B X. B ) )
37	35, 36	syl6eqr 2674	. . . . . . . . . 10 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( oF ( +g ` r ) |` ( b X. b ) ) = .+b )
38	37	opeq2d 4409	. . . . . . . . 9 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. = <. ( +g ` ndx ) , .+b >. )
39	18	adantr 481	. . . . . . . . . . . . 13 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> d = D )
40		rabeq 3192	. . . . . . . . . . . . . . . 16 |- ( d = D -> { y e. d | y oR <_ k } = { y e. D | y oR <_ k } )
41	39, 40	syl 17	. . . . . . . . . . . . . . 15 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> { y e. d | y oR <_ k } = { y e. D | y oR <_ k } )
42	28	fveq2d 6195	. . . . . . . . . . . . . . . . 17 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( .r ` r ) = ( .r ` R ) )
43		psrval.m	. . . . . . . . . . . . . . . . 17 |- .x. = ( .r ` R )
44	42, 43	syl6eqr 2674	. . . . . . . . . . . . . . . 16 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( .r ` r ) = .x. )
45	44	oveqd 6667	. . . . . . . . . . . . . . 15 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) = ( ( f ` x ) .x. ( g ` ( k oF - x ) ) ) )
46	41, 45	mpteq12dv 4733	. . . . . . . . . . . . . 14 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) = ( x e. { y e. D | y oR <_ k } |-> ( ( f ` x ) .x. ( g ` ( k oF - x ) ) ) ) )
47	28, 46	oveq12d 6668	. . . . . . . . . . . . 13 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) = ( R gsumg ( x e. { y e. D | y oR <_ k } |-> ( ( f ` x ) .x. ( g ` ( k oF - x ) ) ) ) ) )
48	39, 47	mpteq12dv 4733	. . . . . . . . . . . 12 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) = ( k e. D |-> ( R gsumg ( x e. { y e. D | y oR <_ k } |-> ( ( f ` x ) .x. ( g ` ( k oF - x ) ) ) ) ) ) )
49	26, 26, 48	mpt2eq123dv 6717	. . . . . . . . . . 11 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) = ( f e. B , g e. B |-> ( k e. D |-> ( R gsumg ( x e. { y e. D | y oR <_ k } |-> ( ( f ` x ) .x. ( g ` ( k oF - x ) ) ) ) ) ) ) )
50		psrval.t	. . . . . . . . . . 11 |- .X. = ( f e. B , g e. B |-> ( k e. D |-> ( R gsumg ( x e. { y e. D | y oR <_ k } |-> ( ( f ` x ) .x. ( g ` ( k oF - x ) ) ) ) ) ) )
51	49, 50	syl6eqr 2674	. . . . . . . . . 10 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) = .X. )
52	51	opeq2d 4409	. . . . . . . . 9 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. = <. ( .r ` ndx ) , .X. >. )
53	27, 38, 52	tpeq123d 4283	. . . . . . . 8 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } = { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } )
54	28	opeq2d 4409	. . . . . . . . 9 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> <. (Scalar ` ndx ) , r >. = <. (Scalar ` ndx ) , R >. )
55	17	adantr 481	. . . . . . . . . . . 12 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( Base ` r ) = K )
56		ofeq 6899	. . . . . . . . . . . . . 14 |- ( ( .r ` r ) = .x. -> oF ( .r ` r ) = oF .x. )
57	44, 56	syl 17	. . . . . . . . . . . . 13 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> oF ( .r ` r ) = oF .x. )
58	39	xpeq1d 5138	. . . . . . . . . . . . 13 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( d X. { x } ) = ( D X. { x } ) )
59		eqidd 2623	. . . . . . . . . . . . 13 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> f = f )
60	57, 58, 59	oveq123d 6671	. . . . . . . . . . . 12 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( ( d X. { x } ) oF ( .r ` r ) f ) = ( ( D X. { x } ) oF .x. f ) )
61	55, 26, 60	mpt2eq123dv 6717	. . . . . . . . . . 11 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) = ( x e. K , f e. B |-> ( ( D X. { x } ) oF .x. f ) ) )
62		psrval.v	. . . . . . . . . . 11 |- .xb = ( x e. K , f e. B |-> ( ( D X. { x } ) oF .x. f ) )
63	61, 62	syl6eqr 2674	. . . . . . . . . 10 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) = .xb )
64	63	opeq2d 4409	. . . . . . . . 9 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. = <. ( .s ` ndx ) , .xb >. )
65	28	fveq2d 6195	. . . . . . . . . . . . . . 15 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( TopOpen ` r ) = ( TopOpen ` R ) )
66		psrval.o	. . . . . . . . . . . . . . 15 |- O = ( TopOpen ` R )
67	65, 66	syl6eqr 2674	. . . . . . . . . . . . . 14 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( TopOpen ` r ) = O )
68	67	sneqd 4189	. . . . . . . . . . . . 13 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> { ( TopOpen ` r ) } = { O } )
69	39, 68	xpeq12d 5140	. . . . . . . . . . . 12 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( d X. { ( TopOpen ` r ) } ) = ( D X. { O } ) )
70	69	fveq2d 6195	. . . . . . . . . . 11 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) = ( Xt_ ` ( D X. { O } ) ) )
71		psrval.j	. . . . . . . . . . . 12 |- ( ph -> J = ( Xt_ ` ( D X. { O } ) ) )
72	71	ad3antrrr 766	. . . . . . . . . . 11 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> J = ( Xt_ ` ( D X. { O } ) ) )
73	70, 72	eqtr4d 2659	. . . . . . . . . 10 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) = J )
74	73	opeq2d 4409	. . . . . . . . 9 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. = <. (TopSet ` ndx ) , J >. )
75	54, 64, 74	tpeq123d 4283	. . . . . . . 8 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } = { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } )
76	53, 75	uneq12d 3768	. . . . . . 7 |- ( ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) /\ b = B ) -> ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )
77	25, 76	csbied 3560	. . . . . 6 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> [_ B / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )
78	23, 77	eqtrd 2656	. . . . 5 |- ( ( ( ph /\ ( i = I /\ r = R ) ) /\ d = D ) -> [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )
79	13, 78	csbied 3560	. . . 4 |- ( ( ph /\ ( i = I /\ r = R ) ) -> [_ D / d ]_ [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )
80	10, 79	eqtrd 2656	. . 3 |- ( ( ph /\ ( i = I /\ r = R ) ) -> [_ { h e. ( NN0 ^m i ) | ( `' h " NN ) e. Fin } / d ]_ [_ ( ( Base ` r ) ^m d ) / b ]_ ( { <. ( Base ` ndx ) , b >. , <. ( +g ` ndx ) , ( oF ( +g ` r ) |` ( b X. b ) ) >. , <. ( .r ` ndx ) , ( f e. b , g e. b |-> ( k e. d |-> ( r gsumg ( x e. { y e. d | y oR <_ k } |-> ( ( f ` x ) ( .r ` r ) ( g ` ( k oF - x ) ) ) ) ) ) ) >. } u. { <. (Scalar ` ndx ) , r >. , <. ( .s ` ndx ) , ( x e. ( Base ` r ) , f e. b |-> ( ( d X. { x } ) oF ( .r ` r ) f ) ) >. , <. (TopSet ` ndx ) , ( Xt_ ` ( d X. { ( TopOpen ` r ) } ) ) >. } ) = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )
81		psrval.i	. . . 4 |- ( ph -> I e. W )
82		elex 3212	. . . 4 |- ( I e. W -> I e. _V )
83	81, 82	syl 17	. . 3 |- ( ph -> I e. _V )
84		psrval.r	. . . 4 |- ( ph -> R e. X )
85		elex 3212	. . . 4 |- ( R e. X -> R e. _V )
86	84, 85	syl 17	. . 3 |- ( ph -> R e. _V )
87		tpex 6957	. . . . 5 |- { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } e. _V
88		tpex 6957	. . . . 5 |- { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } e. _V
89	87, 88	unex 6956	. . . 4 |- ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) e. _V
90	89	a1i 11	. . 3 |- ( ph -> ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) e. _V )
91	3, 80, 83, 86, 90	ovmpt2d 6788	. 2 |- ( ph -> ( I mPwSer R ) = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )
92	1, 91	syl5eq 2668	1 |- ( ph -> S = ( { <. ( Base ` ndx ) , B >. , <. ( +g ` ndx ) , .+b >. , <. ( .r ` ndx ) , .X. >. } u. { <. (Scalar ` ndx ) , R >. , <. ( .s ` ndx ) , .xb >. , <. (TopSet ` ndx ) , J >. } ) )

Syntax hints:   -> wi 4   /\ wa 384   = wceq 1483   e. wcel 1990   {crab 2916   _Vcvv 3200   [_csb 3533   u. cun 3572   {csn 4177   {ctp 4181   <.cop 4183   class class class wbr 4653   |-> cmpt 4729   X. cxp 5112   `'ccnv 5113   |` cres 5116   "cima 5117   ` cfv 5888  (class class class)co 6650   |-> cmpt2 6652   oFcof 6895   oRcofr 6896   ^m cmap 7857   Fincfn 7955   <_ cle 10075   - cmin 10266   NNcn 11020   NN0cn0 11292   ndxcnx 15854   Basecbs 15857   +g cplusg 15941   .rcmulr 15942  Scalarcsca 15944   .scvsca 15945  TopSetcts 15947   TopOpenctopn 16082   Xt_cpt 16099   gsum_g cgsu 16101   mPwSer cmps 19351

This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1722  ax-4 1737  ax-5 1839  ax-6 1888  ax-7 1935  ax-8 1992  ax-9 1999  ax-10 2019  ax-11 2034  ax-12 2047  ax-13 2246  ax-ext 2602  ax-sep 4781  ax-nul 4789  ax-pr 4906  ax-un 6949

This theorem depends on definitions:  df-bi 197  df-or 385  df-an 386  df-3an 1039  df-tru 1486  df-ex 1705  df-nf 1710  df-sb 1881  df-eu 2474  df-mo 2475  df-clab 2609  df-cleq 2615  df-clel 2618  df-nfc 2753  df-ral 2917  df-rex 2918  df-rab 2921  df-v 3202  df-sbc 3436  df-csb 3534  df-dif 3577  df-un 3579  df-in 3581  df-ss 3588  df-nul 3916  df-if 4087  df-sn 4178  df-pr 4180  df-tp 4182  df-op 4184  df-uni 4437  df-br 4654  df-opab 4713  df-mpt 4730  df-id 5024  df-xp 5120  df-rel 5121  df-cnv 5122  df-co 5123  df-dm 5124  df-res 5126  df-iota 5851  df-fun 5890  df-fv 5896  df-ov 6653  df-oprab 6654  df-mpt2 6655  df-of 6897  df-psr 19356

This theorem is referenced by:  psrbas  19378  psrplusg  19381  psrmulr  19384  psrsca  19389  psrvscafval  19390