Step
*
1
1
1
1
1
2
1
1
of Lemma
sequence-class-program_wf
1. Info : Type
2. A : Type
3. B : Type
4. valueall-type(A)
5. es : EO+(Info)@i'
6. e : E@i
7. xpr : hdataflow(Info;A)@i
8. ypr : hdataflow(Info;B)@i
9. zpr : hdataflow(Info;A)@i
10. x : E@i
11. (x <loc e)@i
12. v : E List@i
13. before(e) = v ∈ (E List)@i
14. before(e) = (before(x) @ v) ∈ (E List)
15. v ∈ E List
16. v1 : hdataflow(Info;A)@i
17. xpr*(map(λx.info(x);before(x))) = v1 ∈ hdataflow(Info;A)@i
18. v2 : hdataflow(Info;B)@i
19. ypr*(map(λx.info(x);before(x))) = v2 ∈ hdataflow(Info;B)@i
20. ↑(bag-null(snd(v1(info(x)))) ∧b (¬bbag-null(snd(v2(info(x))))))
21. v = [x;e) ∈ (E List)
22. mk-hdf(S,a.case S
of inl(XY) =>
let X,Y = XY
in let X',bx = X(a)
in let Y',by = Y(a)
in if bag-null(bx) ∧b (¬bbag-null(by)) then let Z',bz = zpr(a) in <inr Z' , bz> else <inl <X', Y'>, bx> fi
| inr(Z) =>
let Z',b = Z(a)
in <inr Z' , b>;S.case S of inl(XY) => ff | inr(Z) => hdf-halted(Z);inl <v1, v2>) ∈ hdataflow(Info;A)
⊢ (snd(zpr*(map(λx@0.info(x@0);v))(info(e))))
= (snd(mk-hdf(S,a.case S
of inl(XY) =>
let X,Y = XY
in let X',bx = X(a)
in let Y',by = Y(a)
in if bag-null(bx) ∧b (¬bbag-null(by)) then let Z',bz = zpr(a) in <inr Z' , bz> else <inl <X', Y'>, bx> fi
| inr(Z) =>
let Z',b = Z(a)
in <inr Z' , b>;S.case S of inl(XY) => ff | inr(Z) => hdf-halted(Z);inl <v1, v2>)*(map(λx.info(x);v))(info(e))))
∈ bag(A)
BY
{ ((RWO "es-closed-open-interval-decomp" (-2) THENA Auto) THEN HypSubst' (-2) 0) }
1
1. Info : Type
2. A : Type
3. B : Type
4. valueall-type(A)
5. es : EO+(Info)@i'
6. e : E@i
7. xpr : hdataflow(Info;A)@i
8. ypr : hdataflow(Info;B)@i
9. zpr : hdataflow(Info;A)@i
10. x : E@i
11. (x <loc e)@i
12. v : E List@i
13. before(e) = v ∈ (E List)@i
14. before(e) = (before(x) @ v) ∈ (E List)
15. v ∈ E List
16. v1 : hdataflow(Info;A)@i
17. xpr*(map(λx.info(x);before(x))) = v1 ∈ hdataflow(Info;A)@i
18. v2 : hdataflow(Info;B)@i
19. ypr*(map(λx.info(x);before(x))) = v2 ∈ hdataflow(Info;B)@i
20. ↑(bag-null(snd(v1(info(x)))) ∧b (¬bbag-null(snd(v2(info(x))))))
21. v = [x / (x, e)] ∈ (E List)
22. mk-hdf(S,a.case S
of inl(XY) =>
let X,Y = XY
in let X',bx = X(a)
in let Y',by = Y(a)
in if bag-null(bx) ∧b (¬bbag-null(by)) then let Z',bz = zpr(a) in <inr Z' , bz> else <inl <X', Y'>, bx> fi
| inr(Z) =>
let Z',b = Z(a)
in <inr Z' , b>;S.case S of inl(XY) => ff | inr(Z) => hdf-halted(Z);inl <v1, v2>) ∈ hdataflow(Info;A)
⊢ (snd(zpr*(map(λx@0.info(x@0);[x / (x, e)]))(info(e))))
= (snd(mk-hdf(S,a.case S
of inl(XY) =>
let X,Y = XY
in let X',bx = X(a)
in let Y',by = Y(a)
in if bag-null(bx) ∧b (¬bbag-null(by)) then let Z',bz = zpr(a) in <inr Z' , bz> else <inl <X', Y'>, bx> fi
| inr(Z) =>
let Z',b = Z(a)
in <inr Z' , b>;S.case S of inl(XY) => ff | inr(Z) => hdf-halted(Z);inl <v1, v2>)*(map(λx.info(x);[x / (x, e)]))(info\000C(e))))
∈ bag(A)
Latex:
Latex:
1. Info : Type
2. A : Type
3. B : Type
4. valueall-type(A)
5. es : EO+(Info)@i'
6. e : E@i
7. xpr : hdataflow(Info;A)@i
8. ypr : hdataflow(Info;B)@i
9. zpr : hdataflow(Info;A)@i
10. x : E@i
11. (x <loc e)@i
12. v : E List@i
13. before(e) = v@i
14. before(e) = (before(x) @ v)
15. v \mmember{} E List
16. v1 : hdataflow(Info;A)@i
17. xpr*(map(\mlambda{}x.info(x);before(x))) = v1@i
18. v2 : hdataflow(Info;B)@i
19. ypr*(map(\mlambda{}x.info(x);before(x))) = v2@i
20. \muparrow{}(bag-null(snd(v1(info(x)))) \mwedge{}\msubb{} (\mneg{}\msubb{}bag-null(snd(v2(info(x))))))
21. v = [x;e)
22. mk-hdf(S,a.case S
of inl(XY) =>
let X,Y = XY
in let X',bx = X(a)
in let Y',by = Y(a)
in if bag-null(bx) \mwedge{}\msubb{} (\mneg{}\msubb{}bag-null(by))
then let Z',bz = zpr(a)
in <inr Z' , bz>
else <inl <X', Y'>, bx>
fi
| inr(Z) =>
let Z',b = Z(a)
in <inr Z' , b>S.case S of inl(XY) => ff | inr(Z) => hdf-halted(Z);inl <v1, v2>) \mmember{} hdataflow(I\000Cnfo;A)
\mvdash{} (snd(zpr*(map(\mlambda{}x@0.info(x@0);v))(info(e))))
= (snd(mk-hdf(S,a.case S
of inl(XY) =>
let X,Y = XY
in let X',bx = X(a)
in let Y',by = Y(a)
in if bag-null(bx) \mwedge{}\msubb{} (\mneg{}\msubb{}bag-null(by))
then let Z',bz = zpr(a)
in <inr Z' , bz>
else <inl <X', Y'>, bx>
fi
| inr(Z) =>
let Z',b = Z(a)
in <inr Z' , b>S.case S of inl(XY) => ff | inr(Z) => hdf-halted(Z);inl <v1, v2>)*(map(\mlambda{}x.info(x)\000C;v))(info(e))))
By
Latex:
((RWO "es-closed-open-interval-decomp" (-2) THENA Auto) THEN HypSubst' (-2) 0)
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