Proof of Nuprl Lemma : primed-classrel

Step * 1 1 of Lemma primed-classrel

1. Info : Type
2. T : Type
3. X : EClass(T)
4. es : EO+(Info)
5. v : T
6. e : E
7. x : ∃e':{E| ((e' <loc e) ∧ (↑0 <z #(X es e')) ∧ (∀e'':E. ((e' <loc e'') ⇒ (e'' <loc e) ⇒ (¬↑0 <z #(X es e'')))))}@i
8. (last(λe'.0 <z #(X es e')) e)
= (inl x)
∈ ((∃e':{E| ((e' <loc e)
            ∧ (↑((λe'.0 <z #(X es e')) e'))
            ∧ (∀e'':E. ((e' <loc e'') ⇒ (e'' <loc e) ⇒ (¬↑((λe'.0 <z #(X es e')) e'')))))})
  ∨ (¬(∃e':{E| ((e' <loc e) ∧ (↑((λe'.0 <z #(X es e')) e')))})))@i
9. v ↓∈ X es x@i
⊢ ↓∃e'<e.v ↓∈ X es e' ∧ ∀e''<e.∀w:T. (w ↓∈ X es e'' ⇒ e'' ≤loc e' )
BY
{ (DVar `x'
   THEN D 0
   THEN With ⌈x⌉ (D 0)⋅
   THEN Auto
   THEN D 0
   THEN Auto
   THEN SupposeNot
   THEN Auto
   THEN OnMaybeHyp 10 (\h. ((InstHyp [⌈e''⌉] h⋅ THENA Complete (Auto)) THEN D -1))) }

1
1. Info : Type
2. T : Type
3. X : EClass(T)
4. es : EO+(Info)
5. v : T
6. e : E
7. x : E@i
8. (x <loc e)@i
9. ↑0 <z #(X es x)@i
10. ∀e'':E. ((x <loc e'') ⇒ (e'' <loc e) ⇒ (¬↑0 <z #(X es e'')))@i
11. (last(λe'.0 <z #(X es e')) e)
= (inl x)
∈ ((∃e':{E| ((e' <loc e)
            ∧ (↑((λe'.0 <z #(X es e')) e'))
            ∧ (∀e'':E. ((e' <loc e'') ⇒ (e'' <loc e) ⇒ (¬↑((λe'.0 <z #(X es e')) e'')))))})
  ∨ (¬(∃e':{E| ((e' <loc e) ∧ (↑((λe'.0 <z #(X es e')) e')))})))@i
12. v ↓∈ X es x@i
13. (x <loc e)
14. v ↓∈ X es x
15. e'' : E@i
16. (e'' <loc e)@i
17. w : T@i
18. w ↓∈ X es e''@i
19. ¬e'' ≤loc x
⊢ ↑0 <z #(X es e'')

Latex:

Latex:
1. Info : Type 2. T : Type 3. X : EClass(T) 4. es : EO+(Info) 5. v : T 6. e : E 7. x : \mexists{}e':\{E| ((e' <loc e) \mwedge{} (\muparrow{}0 <z \#(X es e')) \mwedge{} (\mforall{}e'':E. ((e' <loc e'') {}\mRightarrow{} (e'' <loc e) {}\mRightarrow{} (\mneg{}\muparrow{}0 <z \#(X es e'')))))\}@i 8. (last(\mlambda{}e'.0 <z \#(X es e')) e) = (inl x)@i 9. v \mdownarrow{}\mmember{} X es x@i \mvdash{} \mdownarrow{}\mexists{}e'<e.v \mdownarrow{}\mmember{} X es e' \mwedge{} \mforall{}e''<e.\mforall{}w:T. (w \mdownarrow{}\mmember{} X es e'' {}\mRightarrow{} e'' \mleq{}loc e' ) By Latex: (DVar `x' THEN D 0 THEN With \mkleeneopen{}x\mkleeneclose{} (D 0)\mcdot{} THEN Auto THEN D 0 THEN Auto THEN SupposeNot THEN Auto THEN OnMaybeHyp 10 (\mbackslash{}h. ((InstHyp [\mkleeneopen{}e''\mkleeneclose{}] h\mcdot{} THENA Complete (Auto)) THEN D -1))) Home Index