Users' Mathboxes Mathbox for Norm Megill < Previous   Next >
Nearby theorems
Mirrors  >  Home  >  MPE Home  >  Th. List  >   Mathboxes  >  hdmapffval Structured version   Unicode version

Theorem hdmapffval 37027
Description: Map from vectors to functionals in the closed kernel dual space. (Contributed by NM, 15-May-2015.)
Hypothesis
Ref Expression
hdmapval.h  |-  H  =  ( LHyp `  K
)
Assertion
Ref Expression
hdmapffval  |-  ( K  e.  X  ->  (HDMap `  K )  =  ( w  e.  H  |->  { a  |  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } ) )
Distinct variable groups:    w, H    e, a, i, t, u, v, w, y, z, K
Allowed substitution hints:    H( y, z, v, u, t, e, i, a)    X( y, z, w, v, u, t, e, i, a)

Proof of Theorem hdmapffval
Dummy variable  k is distinct from all other variables.
StepHypRef Expression
1 elex 3127 . 2  |-  ( K  e.  X  ->  K  e.  _V )
2 fveq2 5872 . . . . 5  |-  ( k  =  K  ->  ( LHyp `  k )  =  ( LHyp `  K
) )
3 hdmapval.h . . . . 5  |-  H  =  ( LHyp `  K
)
42, 3syl6eqr 2526 . . . 4  |-  ( k  =  K  ->  ( LHyp `  k )  =  H )
5 fveq2 5872 . . . . . . . . 9  |-  ( k  =  K  ->  ( Base `  k )  =  ( Base `  K
) )
65reseq2d 5279 . . . . . . . 8  |-  ( k  =  K  ->  (  _I  |`  ( Base `  k
) )  =  (  _I  |`  ( Base `  K ) ) )
7 fveq2 5872 . . . . . . . . . 10  |-  ( k  =  K  ->  ( LTrn `  k )  =  ( LTrn `  K
) )
87fveq1d 5874 . . . . . . . . 9  |-  ( k  =  K  ->  (
( LTrn `  k ) `  w )  =  ( ( LTrn `  K
) `  w )
)
98reseq2d 5279 . . . . . . . 8  |-  ( k  =  K  ->  (  _I  |`  ( ( LTrn `  k ) `  w
) )  =  (  _I  |`  ( ( LTrn `  K ) `  w ) ) )
106, 9opeq12d 4227 . . . . . . 7  |-  ( k  =  K  ->  <. (  _I  |`  ( Base `  k
) ) ,  (  _I  |`  ( ( LTrn `  k ) `  w ) ) >.  =  <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.
)
11 dfsbcq 3338 . . . . . . 7  |-  ( <.
(  _I  |`  ( Base `  k ) ) ,  (  _I  |`  (
( LTrn `  k ) `  w ) ) >.  =  <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  ->  ( [. <. (  _I  |`  ( Base `  k
) ) ,  (  _I  |`  ( ( LTrn `  k ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
1210, 11syl 16 . . . . . 6  |-  ( k  =  K  ->  ( [. <. (  _I  |`  ( Base `  k ) ) ,  (  _I  |`  (
( LTrn `  k ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
13 fveq2 5872 . . . . . . . . . 10  |-  ( k  =  K  ->  ( DVecH `  k )  =  ( DVecH `  K )
)
1413fveq1d 5874 . . . . . . . . 9  |-  ( k  =  K  ->  (
( DVecH `  k ) `  w )  =  ( ( DVecH `  K ) `  w ) )
15 dfsbcq 3338 . . . . . . . . 9  |-  ( ( ( DVecH `  k ) `  w )  =  ( ( DVecH `  K ) `  w )  ->  ( [. ( ( DVecH `  k
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  k ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  k ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( ( DVecH `  K
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  k ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  k ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
1614, 15syl 16 . . . . . . . 8  |-  ( k  =  K  ->  ( [. ( ( DVecH `  k
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  k ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  k ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( ( DVecH `  K
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  k ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  k ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
17 fveq2 5872 . . . . . . . . . . . . 13  |-  ( k  =  K  ->  (HDMap1 `  k )  =  (HDMap1 `  K ) )
1817fveq1d 5874 . . . . . . . . . . . 12  |-  ( k  =  K  ->  (
(HDMap1 `  k ) `  w )  =  ( (HDMap1 `  K ) `  w ) )
19 dfsbcq 3338 . . . . . . . . . . . 12  |-  ( ( (HDMap1 `  k ) `  w )  =  ( (HDMap1 `  K ) `  w )  ->  ( [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
2018, 19syl 16 . . . . . . . . . . 11  |-  ( k  =  K  ->  ( [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
21 fveq2 5872 . . . . . . . . . . . . . . . . 17  |-  ( k  =  K  ->  (LCDual `  k )  =  (LCDual `  K ) )
2221fveq1d 5874 . . . . . . . . . . . . . . . 16  |-  ( k  =  K  ->  (
(LCDual `  k ) `  w )  =  ( (LCDual `  K ) `  w ) )
2322fveq2d 5876 . . . . . . . . . . . . . . 15  |-  ( k  =  K  ->  ( Base `  ( (LCDual `  k ) `  w
) )  =  (
Base `  ( (LCDual `  K ) `  w
) ) )
24 fveq2 5872 . . . . . . . . . . . . . . . . . . . . . . . 24  |-  ( k  =  K  ->  (HVMap `  k )  =  (HVMap `  K ) )
2524fveq1d 5874 . . . . . . . . . . . . . . . . . . . . . . 23  |-  ( k  =  K  ->  (
(HVMap `  k ) `  w )  =  ( (HVMap `  K ) `  w ) )
2625fveq1d 5874 . . . . . . . . . . . . . . . . . . . . . 22  |-  ( k  =  K  ->  (
( (HVMap `  k
) `  w ) `  e )  =  ( ( (HVMap `  K
) `  w ) `  e ) )
2726oteq2d 4232 . . . . . . . . . . . . . . . . . . . . 21  |-  ( k  =  K  ->  <. e ,  ( ( (HVMap `  k ) `  w
) `  e ) ,  z >.  =  <. e ,  ( ( (HVMap `  K ) `  w
) `  e ) ,  z >. )
2827fveq2d 5876 . . . . . . . . . . . . . . . . . . . 20  |-  ( k  =  K  ->  (
i `  <. e ,  ( ( (HVMap `  k ) `  w
) `  e ) ,  z >. )  =  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) )
2928oteq2d 4232 . . . . . . . . . . . . . . . . . . 19  |-  ( k  =  K  ->  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.  =  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w
) `  e ) ,  z >. ) ,  t >. )
3029fveq2d 5876 . . . . . . . . . . . . . . . . . 18  |-  ( k  =  K  ->  (
i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w
) `  e ) ,  z >. ) ,  t >. )  =  ( i `  <. z ,  ( i `
 <. e ,  ( ( (HVMap `  K
) `  w ) `  e ) ,  z
>. ) ,  t >.
) )
3130eqeq2d 2481 . . . . . . . . . . . . . . . . 17  |-  ( k  =  K  ->  (
y  =  ( i `
 <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w
) `  e ) ,  z >. ) ,  t >. )  <->  y  =  ( i `  <. z ,  ( i `
 <. e ,  ( ( (HVMap `  K
) `  w ) `  e ) ,  z
>. ) ,  t >.
) ) )
3231imbi2d 316 . . . . . . . . . . . . . . . 16  |-  ( k  =  K  ->  (
( -.  z  e.  ( ( ( LSpan `  u ) `  {
e } )  u.  ( ( LSpan `  u
) `  { t } ) )  -> 
y  =  ( i `
 <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w
) `  e ) ,  z >. ) ,  t >. )
)  <->  ( -.  z  e.  ( ( ( LSpan `  u ) `  {
e } )  u.  ( ( LSpan `  u
) `  { t } ) )  -> 
y  =  ( i `
 <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w
) `  e ) ,  z >. ) ,  t >. )
) ) )
3332ralbidv 2906 . . . . . . . . . . . . . . 15  |-  ( k  =  K  ->  ( A. z  e.  v 
( -.  z  e.  ( ( ( LSpan `  u ) `  {
e } )  u.  ( ( LSpan `  u
) `  { t } ) )  -> 
y  =  ( i `
 <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w
) `  e ) ,  z >. ) ,  t >. )
)  <->  A. z  e.  v  ( -.  z  e.  ( ( ( LSpan `  u ) `  {
e } )  u.  ( ( LSpan `  u
) `  { t } ) )  -> 
y  =  ( i `
 <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w
) `  e ) ,  z >. ) ,  t >. )
) ) )
3423, 33riotaeqbidv 6259 . . . . . . . . . . . . . 14  |-  ( k  =  K  ->  ( iota_ y  e.  ( Base `  ( (LCDual `  k
) `  w )
) A. z  e.  v  ( -.  z  e.  ( ( ( LSpan `  u ) `  {
e } )  u.  ( ( LSpan `  u
) `  { t } ) )  -> 
y  =  ( i `
 <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w
) `  e ) ,  z >. ) ,  t >. )
) )  =  (
iota_ y  e.  ( Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )
3534mpteq2dv 4540 . . . . . . . . . . . . 13  |-  ( k  =  K  ->  (
t  e.  v  |->  (
iota_ y  e.  ( Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  =  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  K ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) )
3635eleq2d 2537 . . . . . . . . . . . 12  |-  ( k  =  K  ->  (
a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  k ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <-> 
a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  K ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
3736sbcbidv 3395 . . . . . . . . . . 11  |-  ( k  =  K  ->  ( [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
3820, 37bitrd 253 . . . . . . . . . 10  |-  ( k  =  K  ->  ( [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
3938sbcbidv 3395 . . . . . . . . 9  |-  ( k  =  K  ->  ( [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
4039sbcbidv 3395 . . . . . . . 8  |-  ( k  =  K  ->  ( [. ( ( DVecH `  K
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  k ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  k ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( ( DVecH `  K
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  K ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  K ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
4116, 40bitrd 253 . . . . . . 7  |-  ( k  =  K  ->  ( [. ( ( DVecH `  k
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  k ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  k ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. ( ( DVecH `  K
) `  w )  /  u ]. [. ( Base `  u )  / 
v ]. [. ( (HDMap1 `  K ) `  w
)  /  i ]. a  e.  ( t  e.  v  |->  ( iota_ y  e.  ( Base `  (
(LCDual `  K ) `  w ) ) A. z  e.  v  ( -.  z  e.  (
( ( LSpan `  u
) `  { e } )  u.  (
( LSpan `  u ) `  { t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
4241sbcbidv 3395 . . . . . 6  |-  ( k  =  K  ->  ( [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
4312, 42bitrd 253 . . . . 5  |-  ( k  =  K  ->  ( [. <. (  _I  |`  ( Base `  k ) ) ,  (  _I  |`  (
( LTrn `  k ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) )  <->  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) ) )
4443abbidv 2603 . . . 4  |-  ( k  =  K  ->  { a  |  [. <. (  _I  |`  ( Base `  k
) ) ,  (  _I  |`  ( ( LTrn `  k ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) }  =  { a  |  [. <. (  _I  |`  ( Base `  K
) ) ,  (  _I  |`  ( ( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } )
454, 44mpteq12dv 4531 . . 3  |-  ( k  =  K  ->  (
w  e.  ( LHyp `  k )  |->  { a  |  [. <. (  _I  |`  ( Base `  k
) ) ,  (  _I  |`  ( ( LTrn `  k ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } )  =  ( w  e.  H  |->  { a  |  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } ) )
46 df-hdmap 36993 . . 3  |- HDMap  =  ( k  e.  _V  |->  ( w  e.  ( LHyp `  k )  |->  { a  |  [. <. (  _I  |`  ( Base `  k
) ) ,  (  _I  |`  ( ( LTrn `  k ) `  w ) ) >.  /  e ]. [. (
( DVecH `  k ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  k
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  k ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  k ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } ) )
47 fvex 5882 . . . . 5  |-  ( LHyp `  K )  e.  _V
483, 47eqeltri 2551 . . . 4  |-  H  e. 
_V
4948mptex 6142 . . 3  |-  ( w  e.  H  |->  { a  |  [. <. (  _I  |`  ( Base `  K
) ) ,  (  _I  |`  ( ( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } )  e.  _V
5045, 46, 49fvmpt 5957 . 2  |-  ( K  e.  _V  ->  (HDMap `  K )  =  ( w  e.  H  |->  { a  |  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } ) )
511, 50syl 16 1  |-  ( K  e.  X  ->  (HDMap `  K )  =  ( w  e.  H  |->  { a  |  [. <. (  _I  |`  ( Base `  K ) ) ,  (  _I  |`  (
( LTrn `  K ) `  w ) ) >.  /  e ]. [. (
( DVecH `  K ) `  w )  /  u ]. [. ( Base `  u
)  /  v ]. [. ( (HDMap1 `  K
) `  w )  /  i ]. a  e.  ( t  e.  v 
|->  ( iota_ y  e.  (
Base `  ( (LCDual `  K ) `  w
) ) A. z  e.  v  ( -.  z  e.  ( (
( LSpan `  u ) `  { e } )  u.  ( ( LSpan `  u ) `  {
t } ) )  ->  y  =  ( i `  <. z ,  ( i `  <. e ,  ( ( (HVMap `  K ) `  w ) `  e
) ,  z >.
) ,  t >.
) ) ) ) } ) )
Colors of variables: wff setvar class
Syntax hints:   -. wn 3    -> wi 4    <-> wb 184    = wceq 1379    e. wcel 1767   {cab 2452   A.wral 2817   _Vcvv 3118   [.wsbc 3336    u. cun 3479   {csn 4033   <.cop 4039   <.cotp 4041    |-> cmpt 4511    _I cid 4796    |` cres 5007   ` cfv 5594   iota_crio 6255   Basecbs 14507   LSpanclspn 17488   LHypclh 35181   LTrncltrn 35298   DVecHcdvh 36276  LCDualclcd 36784  HVMapchvm 36954  HDMap1chdma1 36990  HDMapchdma 36991
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1601  ax-4 1612  ax-5 1680  ax-6 1719  ax-7 1739  ax-9 1771  ax-10 1786  ax-11 1791  ax-12 1803  ax-13 1968  ax-ext 2445  ax-rep 4564  ax-sep 4574  ax-nul 4582  ax-pr 4692
This theorem depends on definitions:  df-bi 185  df-or 370  df-an 371  df-3an 975  df-tru 1382  df-ex 1597  df-nf 1600  df-sb 1712  df-eu 2279  df-mo 2280  df-clab 2453  df-cleq 2459  df-clel 2462  df-nfc 2617  df-ne 2664  df-ral 2822  df-rex 2823  df-reu 2824  df-rab 2826  df-v 3120  df-sbc 3337  df-csb 3441  df-dif 3484  df-un 3486  df-in 3488  df-ss 3495  df-nul 3791  df-if 3946  df-sn 4034  df-pr 4036  df-op 4040  df-ot 4042  df-uni 4252  df-iun 4333  df-br 4454  df-opab 4512  df-mpt 4513  df-id 4801  df-xp 5011  df-rel 5012  df-cnv 5013  df-co 5014  df-dm 5015  df-rn 5016  df-res 5017  df-ima 5018  df-iota 5557  df-fun 5596  df-fn 5597  df-f 5598  df-f1 5599  df-fo 5600  df-f1o 5601  df-fv 5602  df-riota 6256  df-hdmap 36993
This theorem is referenced by:  hdmapfval  37028
  Copyright terms: Public domain W3C validator