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Theorem ndxid 16896
Description: A structure component extractor is defined by its own index. This theorem, together with strfv 16903 below, is useful for avoiding direct reference to the hard-coded numeric index in component extractor definitions, such as the 1 in df-base 16911 and the 10 in df-ple 16980, making it easier to change should the need arise.

For example, we can refer to a specific poset with base set 𝐵 and order relation 𝐿 using {⟨(Base‘ndx), 𝐵⟩, ⟨(le‘ndx), 𝐿⟩} rather than {⟨1, 𝐵⟩, 10, 𝐿⟩}. The latter, while shorter to state, requires revision if we later change 10 to some other number, and it may also be harder to remember. (Contributed by NM, 19-Oct-2012.) (Revised by Mario Carneiro, 6-Oct-2013.) (Proof shortened by BJ, 27-Dec-2021.)

Hypotheses
Ref Expression
ndxarg.e 𝐸 = Slot 𝑁
ndxarg.n 𝑁 ∈ ℕ
Assertion
Ref Expression
ndxid 𝐸 = Slot (𝐸‘ndx)

Proof of Theorem ndxid
StepHypRef Expression
1 ndxarg.e . . . 4 𝐸 = Slot 𝑁
2 ndxarg.n . . . 4 𝑁 ∈ ℕ
31, 2ndxarg 16895 . . 3 (𝐸‘ndx) = 𝑁
43eqcomi 2749 . 2 𝑁 = (𝐸‘ndx)
5 sloteq 16882 . . 3 (𝑁 = (𝐸‘ndx) → Slot 𝑁 = Slot (𝐸‘ndx))
61, 5eqtrid 2792 . 2 (𝑁 = (𝐸‘ndx) → 𝐸 = Slot (𝐸‘ndx))
74, 6ax-mp 5 1 𝐸 = Slot (𝐸‘ndx)
Colors of variables: wff setvar class
Syntax hints:   = wceq 1542  wcel 2110  cfv 6432  cn 11973  Slot cslot 16880  ndxcnx 16892
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1802  ax-4 1816  ax-5 1917  ax-6 1975  ax-7 2015  ax-8 2112  ax-9 2120  ax-10 2141  ax-11 2158  ax-12 2175  ax-ext 2711  ax-sep 5227  ax-nul 5234  ax-pow 5292  ax-pr 5356  ax-un 7582  ax-cnex 10928  ax-1cn 10930  ax-addcl 10932
This theorem depends on definitions:  df-bi 206  df-an 397  df-or 845  df-3or 1087  df-3an 1088  df-tru 1545  df-fal 1555  df-ex 1787  df-nf 1791  df-sb 2072  df-mo 2542  df-eu 2571  df-clab 2718  df-cleq 2732  df-clel 2818  df-nfc 2891  df-ne 2946  df-ral 3071  df-rex 3072  df-reu 3073  df-rab 3075  df-v 3433  df-sbc 3721  df-csb 3838  df-dif 3895  df-un 3897  df-in 3899  df-ss 3909  df-pss 3911  df-nul 4263  df-if 4466  df-pw 4541  df-sn 4568  df-pr 4570  df-op 4574  df-uni 4846  df-iun 4932  df-br 5080  df-opab 5142  df-mpt 5163  df-tr 5197  df-id 5490  df-eprel 5496  df-po 5504  df-so 5505  df-fr 5545  df-we 5547  df-xp 5596  df-rel 5597  df-cnv 5598  df-co 5599  df-dm 5600  df-rn 5601  df-res 5602  df-ima 5603  df-pred 6201  df-ord 6268  df-on 6269  df-lim 6270  df-suc 6271  df-iota 6390  df-fun 6434  df-fn 6435  df-f 6436  df-f1 6437  df-fo 6438  df-f1o 6439  df-fv 6440  df-ov 7274  df-om 7707  df-2nd 7825  df-frecs 8088  df-wrecs 8119  df-recs 8193  df-rdg 8232  df-nn 11974  df-slot 16881  df-ndx 16893
This theorem is referenced by:  strndxid  16897  setsidvaldOLD  16899  baseid  16913  2strop  16934  2strop1  16938  resslemOLD  16950  plusgid  16987  mulrid  17002  starvid  17011  scaid  17023  vscaid  17028  ipid  17039  tsetid  17061  pleid  17075  ocid  17090  dsid  17094  unifid  17104  homid  17120  ccoid  17122  oppglemOLD  18953  mgplemOLD  19723  opprlemOLD  19866  sralemOLD  20438  zlmlemOLD  20717  znbaslemOLD  20741  opsrbaslemOLD  21249  tnglemOLD  23795  itvid  26798  lngid  26799  ttglemOLD  27237  cchhllemOLD  27253  edgfid  27356  resvlemOLD  31527  hlhilslemOLD  39949  mnringnmulrdOLD  41798
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