Proof of Nuprl Lemma : State-comb-exists

Step * 2 1 1 1 of Lemma State-comb-exists

1. Info : Type
2. B : Type
3. A : Type
4. f : A ─→ B ─→ B
5. init : Id ─→ bag(B)
6. X : EClass(A)
7. es : EO+(Info)
8. e : E@i
9. ∀e':E. ((e' < e) ⇒ (#(init loc(e')) > 0) ⇒ (↓∃v:B. v ∈ State-comb(init;f;X)(e')))
10. #(init loc(e)) > 0@i
11. ¬↑first(e)
12. v : B
13. v ∈ State-comb(init;f;X)(pred(e))
14. #(X es e) = 0 ∈ ℤ
15. (X es e) = {} ∈ bag(A)
16. (pred(e) <loc e)
17. ∃w:B. w ∈ State-comb(init;f;X)(pred(e))
18. e'' : E@i
19. (e'' <loc e)@i
20. (pred(e) <loc e'')@i
⊢ ¬↓∃w:B. w ∈ State-comb(init;f;X)(e'')
BY
{ ((Assert ⌈False⌉⋅ THEN Auto)
   THEN InstLemma `es-pred_property` [⌈es⌉;⌈e⌉]⋅
   THEN Auto
   THEN (InstHyp [⌈e''⌉] (-1)⋅ THENA Auto)
   THEN D (-1)
   THEN MaAuto) }

Latex:

Latex:
1. Info : Type 2. B : Type 3. A : Type 4. f : A {}\mrightarrow{} B {}\mrightarrow{} B 5. init : Id {}\mrightarrow{} bag(B) 6. X : EClass(A) 7. es : EO+(Info) 8. e : E@i 9. \mforall{}e':E. ((e' < e) {}\mRightarrow{} (\#(init loc(e')) > 0) {}\mRightarrow{} (\mdownarrow{}\mexists{}v:B. v \mmember{} State-comb(init;f;X)(e'))) 10. \#(init loc(e)) > 0@i 11. \mneg{}\muparrow{}first(e) 12. v : B 13. v \mmember{} State-comb(init;f;X)(pred(e)) 14. \#(X es e) = 0 15. (X es e) = \{\} 16. (pred(e) <loc e) 17. \mexists{}w:B. w \mmember{} State-comb(init;f;X)(pred(e)) 18. e'' : E@i 19. (e'' <loc e)@i 20. (pred(e) <loc e'')@i \mvdash{} \mneg{}\mdownarrow{}\mexists{}w:B. w \mmember{} State-comb(init;f;X)(e'') By Latex: ((Assert \mkleeneopen{}False\mkleeneclose{}\mcdot{} THEN Auto) THEN InstLemma `es-pred\_property` [\mkleeneopen{}es\mkleeneclose{};\mkleeneopen{}e\mkleeneclose{}]\mcdot{} THEN Auto THEN (InstHyp [\mkleeneopen{}e''\mkleeneclose{}] (-1)\mcdot{} THENA Auto) THEN D (-1) THEN MaAuto) Home Index