Proof of Nuprl Lemma : loop-class-memory-fun-eq

Step * 3 2 2 of Lemma loop-class-memory-fun-eq

1. Info : Type
2. B : Type
3. X : EClass(B ─→ B)
4. init : Id ─→ bag(B)
5. es : EO+(Info)
6. e : E
7. ¬↑pred(e) ∈_b X
8. ¬↑first(e)
9. ∀l:Id. (1 ≤ #(init l))
10. ∀l:Id. single-valued-bag(init l;B)
11. single-valued-classrel(es;X;B ─→ B)
12. y : ¬(∃e':{E| ((e' <loc e) ∧ (↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e')))})@i
13. (last(λe'.0 <z #(eclass3(X;loop-class-memory(X;init)) es e')) e)
= (inr y )
∈ ((∃e':{E| ((e' <loc e)
            ∧ (↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e'))
            ∧ (∀e'':E. ((e' <loc e'') ⇒ (e'' <loc e) ⇒ (¬↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e'')))))})
  ∨ (¬(∃e':{E| ((e' <loc e) ∧ (↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e')))})))@i
14. y1 : ¬(∃e':{E| ((e' <loc pred(e)) ∧ (↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e')))})@i
15. (last(λe'.0 <z #(eclass3(X;loop-class-memory(X;init)) es e')) pred(e))
= (inr y1 )
∈ ((∃e':{E| ((e' <loc pred(e))
            ∧ (↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e'))
            ∧ (∀e'':E
                 ((e' <loc e'') ⇒ (e'' <loc pred(e)) ⇒ (¬↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e'')))))})
  ∨ (¬(∃e':{E| ((e' <loc pred(e)) ∧ (↑0 <z #(eclass3(X;loop-class-memory(X;init)) es e')))})))@i
⊢ sv-bag-only(init loc(e)) = sv-bag-only(init loc(pred(e))) ∈ B
BY
{ ((Assert ⌈loc(pred(e)) = loc(e) ∈ Id⌉⋅ THENA Auto)
   THEN (RWO "-1" 0 THEN Auto)
   THEN (InstHyp [⌈loc(e)⌉] 9⋅ THEN Auto)
   THEN RWO "-3" 0
   THEN Auto) }

Latex:

Latex:
1. Info : Type 2. B : Type 3. X : EClass(B {}\mrightarrow{} B) 4. init : Id {}\mrightarrow{} bag(B) 5. es : EO+(Info) 6. e : E 7. \mneg{}\muparrow{}pred(e) \mmember{}\msubb{} X 8. \mneg{}\muparrow{}first(e) 9. \mforall{}l:Id. (1 \mleq{} \#(init l)) 10. \mforall{}l:Id. single-valued-bag(init l;B) 11. single-valued-classrel(es;X;B {}\mrightarrow{} B) 12. y : \mneg{}(\mexists{}e':\{E| ((e' <loc e) \mwedge{} (\muparrow{}0 <z \#(eclass3(X;loop-class-memory(X;init)) es e')))\})@i 13. (last(\mlambda{}e'.0 <z \#(eclass3(X;loop-class-memory(X;init)) es e')) e) = (inr y )@i 14. y1 : \mneg{}(\mexists{}e':\{E| ((e' <loc pred(e)) \mwedge{} (\muparrow{}0 <z \#(eclass3(X;loop-class-memory(X;init)) es e')))\})@i 15. (last(\mlambda{}e'.0 <z \#(eclass3(X;loop-class-memory(X;init)) es e')) pred(e)) = (inr y1 )@i \mvdash{} sv-bag-only(init loc(e)) = sv-bag-only(init loc(pred(e))) By Latex: ((Assert \mkleeneopen{}loc(pred(e)) = loc(e)\mkleeneclose{}\mcdot{} THENA Auto) THEN (RWO "-1" 0 THEN Auto) THEN (InstHyp [\mkleeneopen{}loc(e)\mkleeneclose{}] 9\mcdot{} THEN Auto) THEN RWO "-3" 0 THEN Auto) Home Index