Proof of Nuprl Lemma : very-dep-fun-subtype

Step * 1 of Lemma very-dep-fun-subtype

1. A : Type
2. B : Type
3. C : A ⟶ B ⟶ Type
4. f : very-dep-fun(A;B;a,b.C[a;b])
5. L : (a:A × b:B × C[a;b]) List
6. vdf-eq(A;f;L)
⊢ f L ∈ B ⟶ A
BY

{ ((Assert f ∈ vdf(A;B;a,b.C[a;b];||L||) BY Auto) THEN Unfold `vdf` -1 THEN (SplitOnHypITE -1  THENA Auto)) }

1
.....truecase.....
1. A : Type
2. B : Type
3. C : A ⟶ B ⟶ Type
4. f : very-dep-fun(A;B;a,b.C[a;b])
5. L : (a:A × b:B × C[a;b]) List
6. vdf-eq(A;f;L)
7. f ∈ {L:(a:A × b:B × C[a;b]) List| ||L|| = 0 ∈ ℤ} ⟶ B ⟶ A
8. ||L|| < 1
⊢ f L ∈ B ⟶ A

2
.....falsecase.....
1. A : Type
2. B : Type
3. C : A ⟶ B ⟶ Type
4. f : very-dep-fun(A;B;a,b.C[a;b])
5. L : (a:A × b:B × C[a;b]) List
6. vdf-eq(A;f;L)

7. f ∈ f:vdf(A;B;a,b.C[a;b];||L|| - 1) ⋂ {L@0:(a:A × b:B × C[a;b]) List| (||L@0|| ≤ ||L||) ∧ vdf-eq(A;f;L@0)}  ⟶ B ⟶ A

8. ¬||L|| < 1
⊢ f L ∈ B ⟶ A

Latex:

Latex:
1. A : Type 2. B : Type 3. C : A {}\mrightarrow{} B {}\mrightarrow{} Type 4. f : very-dep-fun(A;B;a,b.C[a;b]) 5. L : (a:A \mtimes{} b:B \mtimes{} C[a;b]) List 6. vdf-eq(A;f;L) \mvdash{} f L \mmember{} B {}\mrightarrow{} A By Latex: ((Assert f \mmember{} vdf(A;B;a,b.C[a;b];||L||) BY Auto) THEN Unfold `vdf` -1 THEN (SplitOnHypITE -1 THENA Auto)) Home Index