Proof of Nuprl Lemma : Accum-class-trans

Step * 3 of Lemma Accum-class-trans

1. Info : Type
2. B : Type
3. A : Type
4. R : B ⟶ B ⟶ ℙ@i'
5. f : A ⟶ B ⟶ B@i
6. init : Id ⟶ bag(B)@i
7. X : EClass(A)@i'
8. es : EO+(Info)@i'
9. e1 : E@i
10. e2 : E@i
11. ∀e':E
      ((e' < e2)
      ⇒ (∀v1,v2:B.
            (Trans(B;x,y.R[x;y])
            ⇒ (∀s1,s2:B.  SqStable(R[s1;s2]))
            ⇒ (∀a:A. ∀e:E.
                  ((e1 <loc e)
                  ⇒ e ≤loc e'
                  ⇒ a ∈ X(e)
                  ⇒ (∀s:B. (s ∈ Prior(Accum-class(f;init;X))?init(e) ⇒ R[s;f a s]))))
            ⇒ single-valued-classrel(es;X;A)
            ⇒ single-valued-bag(init loc(e1);B)
            ⇒ v1 ∈ Accum-class(f;init;X)(e1)
            ⇒ v2 ∈ Accum-class(f;init;X)(e')
            ⇒ (e1 <loc e')
            ⇒ R[v1;v2])))
12. v1 : B@i
13. v2 : B@i
14. Trans(B;x,y.R[x;y])@i
15. ∀s1,s2:B.  SqStable(R[s1;s2])@i
16. ∀a:A. ∀e:E.
      ((e1 <loc e) ⇒ e ≤loc e2  ⇒ a ∈ X(e) ⇒ (∀s:B. (s ∈ Prior(Accum-class(f;init;X))?init(e) ⇒ R[s;f a s])))@i
17. single-valued-classrel(es;X;A)@i
18. single-valued-bag(init loc(e1);B)@i
19. v1 ∈ Accum-class(f;init;X)(e1)@i
20. a : A
21. b : B
22. v2 = (f a b) ∈ B
23. e' : E
24. (e' <loc e2)
25. ↓∃w:B. w ∈ Accum-class(f;init;X)(e')
26. ∀e'':E. ((e'' <loc e2) ⇒ (e' <loc e'') ⇒ (¬↓∃w:B. w ∈ Accum-class(f;init;X)(e'')))
27. b ∈ Accum-class(f;init;X)(e')
28. a ∈ X(e2)
29. (e1 <loc e2)@i
30. (e' <loc e1)
⊢ R[v1;v2]
BY
{ ((Assert ⌜False⌝⋅ THEN Auto)
   THEN (InstHyp [⌜e1⌝] (-5)⋅ THENA Auto)
   THEN D (-1)
   THEN D 0
   THEN InstConcl [⌜v1⌝]⋅
   THEN Auto) }

Latex:

Latex:
1. Info : Type 2. B : Type 3. A : Type 4. R : B {}\mrightarrow{} B {}\mrightarrow{} \mBbbP{}@i' 5. f : A {}\mrightarrow{} B {}\mrightarrow{} B@i 6. init : Id {}\mrightarrow{} bag(B)@i 7. X : EClass(A)@i' 8. es : EO+(Info)@i' 9. e1 : E@i 10. e2 : E@i 11. \mforall{}e':E ((e' < e2) {}\mRightarrow{} (\mforall{}v1,v2:B. (Trans(B;x,y.R[x;y]) {}\mRightarrow{} (\mforall{}s1,s2:B. SqStable(R[s1;s2])) {}\mRightarrow{} (\mforall{}a:A. \mforall{}e:E. ((e1 <loc e) {}\mRightarrow{} e \mleq{}loc e' {}\mRightarrow{} a \mmember{} X(e) {}\mRightarrow{} (\mforall{}s:B. (s \mmember{} Prior(Accum-class(f;init;X))?init(e) {}\mRightarrow{} R[s;f a s])))) {}\mRightarrow{} single-valued-classrel(es;X;A) {}\mRightarrow{} single-valued-bag(init loc(e1);B) {}\mRightarrow{} v1 \mmember{} Accum-class(f;init;X)(e1) {}\mRightarrow{} v2 \mmember{} Accum-class(f;init;X)(e') {}\mRightarrow{} (e1 <loc e') {}\mRightarrow{} R[v1;v2]))) 12. v1 : B@i 13. v2 : B@i 14. Trans(B;x,y.R[x;y])@i 15. \mforall{}s1,s2:B. SqStable(R[s1;s2])@i 16. \mforall{}a:A. \mforall{}e:E. ((e1 <loc e) {}\mRightarrow{} e \mleq{}loc e2 {}\mRightarrow{} a \mmember{} X(e) {}\mRightarrow{} (\mforall{}s:B. (s \mmember{} Prior(Accum-class(f;init;X))?init(e) {}\mRightarrow{} R[s;f a s])))@i 17. single-valued-classrel(es;X;A)@i 18. single-valued-bag(init loc(e1);B)@i 19. v1 \mmember{} Accum-class(f;init;X)(e1)@i 20. a : A 21. b : B 22. v2 = (f a b) 23. e' : E 24. (e' <loc e2) 25. \mdownarrow{}\mexists{}w:B. w \mmember{} Accum-class(f;init;X)(e') 26. \mforall{}e'':E. ((e'' <loc e2) {}\mRightarrow{} (e' <loc e'') {}\mRightarrow{} (\mneg{}\mdownarrow{}\mexists{}w:B. w \mmember{} Accum-class(f;init;X)(e''))) 27. b \mmember{} Accum-class(f;init;X)(e') 28. a \mmember{} X(e2) 29. (e1 <loc e2)@i 30. (e' <loc e1) \mvdash{} R[v1;v2] By Latex: ((Assert \mkleeneopen{}False\mkleeneclose{}\mcdot{} THEN Auto) THEN (InstHyp [\mkleeneopen{}e1\mkleeneclose{}] (-5)\mcdot{} THENA Auto) THEN D (-1) THEN D 0 THEN InstConcl [\mkleeneopen{}v1\mkleeneclose{}]\mcdot{} THEN Auto) Home Index