Proof of Nuprl Lemma : loop-class-program

Step * 1 1 1 of Lemma loop-class-program_wf

1. Info : Type
2. B : Type
3. valueall-type(B)
4. X : EClass(B ─→ bag(B))
5. init : Id ─→ bag(B)
6. loop-class(X;init) ∈ EClass(B)
7. F : Id ─→ hdataflow(Info;B ─→ bag(B))

8. ∀es:EO+(Info). ∀e:E.  (X(e) = (snd(F loc(e)*(map(λx.info(x);before(e)))(info(e)))) ∈ bag(B ─→ bag(B)))

                        loc(e)*(map(λx.info(x);before(pred(e))))(info(pred(e))));if 0 <z #(loop-class(X;init)(pred(e)))

  then loop-class(X;init)(pred(e))
  else Prior(loop-class(X;init))?init(pred(e))
  fi )
∈ hdataflow(Info;B)
BY
{ ((HypSubst (-1) 0 THENA Auto) THEN GenConclAtAddr [3;2;3] THEN GenConclAtAddr [2;1;1;1]⋅) }

1
1. Info : Type
2. B : Type
3. valueall-type(B)
4. X : EClass(B ─→ bag(B))
5. init : Id ─→ bag(B)
6. loop-class(X;init) ∈ EClass(B)
7. F : Id ─→ hdataflow(Info;B ─→ bag(B))

8. ∀es:EO+(Info). ∀e:E.  (X(e) = (snd(F loc(e)*(map(λx.info(x);before(e)))(info(e)))) ∈ bag(B ─→ bag(B)))

9. es : EO+(Info)@i'
10. e : E@i
11. ∀e1:E
      ((e1 < e)
      ⇒ (simple-hdf-buffer(F loc(e1);init loc(e1))*(map(λx.info(x);before(e1)))
         = simple-hdf-buffer(F loc(e1)*(map(λx.info(x);before(e1)));Prior(loop-class(X;init))?init(e1))
         ∈ hdataflow(Info;B)))
12. ¬↑first(e)
13. simple-hdf-buffer(F loc(e);init loc(e))*(map(λx.info(x);before(pred(e))))
= simple-hdf-buffer(F loc(e)*(map(λx.info(x);before(pred(e))));Prior(loop-class(X;init))?init(pred(e)))
∈ hdataflow(Info;B)
14. v : bag(B)@i
15. Prior(loop-class(X;init))?init(pred(e)) = v ∈ bag(B)@i
16. v1 : hdataflow(Info;B ─→ bag(B))@i
17. F loc(e)*(map(λx.info(x);before(pred(e)))) = v1 ∈ hdataflow(Info;B ─→ bag(B))@i
⊢ (fst(simple-hdf-buffer(v1;v)(info(pred(e)))))
= simple-hdf-buffer(fst(v1(info(pred(e))));if 0 <z #(loop-class(X;init)(pred(e)))
  then loop-class(X;init)(pred(e))
  else v
  fi )
∈ hdataflow(Info;B)

Latex:

Latex:
1. Info : Type 2. B : Type 3. valueall-type(B) 4. X : EClass(B {}\mrightarrow{} bag(B)) 5. init : Id {}\mrightarrow{} bag(B) 6. loop-class(X;init) \mmember{} EClass(B) 7. F : Id {}\mrightarrow{} hdataflow(Info;B {}\mrightarrow{} bag(B)) 8. \mforall{}es:EO+(Info). \mforall{}e:E. (X(e) = (snd(F loc(e)*(map(\mlambda{}x.info(x);before(e)))(info(e))))) 9. es : EO+(Info)@i' 10. e : E@i 11. \mforall{}e1:E ((e1 < e) {}\mRightarrow{} (simple-hdf-buffer(F loc(e1);init loc(e1))*(map(\mlambda{}x.info(x);before(e1))) = simple-hdf-buffer(F loc(e1)*(map(\mlambda{}x.info(x); before(e1)));Prior(loop-class(X;init))?init(e1)))) 12. \mneg{}\muparrow{}first(e) 13. simple-hdf-buffer(F loc(e);init loc(e))*(map(\mlambda{}x.info(x);before(pred(e)))) = simple-hdf-buffer(F loc(e)*(map(\mlambda{}x.info(x); before(pred(e))));Prior(loop-class(X;init))?init(pred(e))) \mvdash{} (fst(simple-hdf-buffer(F loc(e);init loc(e))*(map(\mlambda{}x.info(x);before(pred(e))))(info(pred(e))))) = simple-hdf-buffer(fst(F loc(e)*(map(\mlambda{}x.info(x); before(pred(e))))(info(pred(e))));if 0 <z \#(...(pred(e))) then loop-class(X;init)(pred(e)) else Prior(loop-class(X;init))?init(pred(e)) fi ) By Latex: ((HypSubst (-1) 0 THENA Auto) THEN GenConclAtAddr [3;2;3] THEN GenConclAtAddr [2;1;1;1]\mcdot{}) Home Index