allow multiple names in a binder
e.g. "(x y : ℕ) × plus x y ≡ 10 : ℕ" fixes #2
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8 changed files with 49 additions and 50 deletions
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@ -21,8 +21,8 @@ def true-not-false : Not ('true ≡ 'false : Bool) =
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-- [todo] infix
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def and : ω.Bool → ω.Bool → Bool = λ a b ⇒ if Bool a b 'false;
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def or : ω.Bool → ω.Bool → Bool = λ a b ⇒ if Bool a 'true b;
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def and : 1.Bool → ω.Bool → Bool = λ a b ⇒ if Bool a b 'false;
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def or : 1.Bool → ω.Bool → Bool = λ a b ⇒ if Bool a 'true b;
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}
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@ -5,21 +5,20 @@ namespace either {
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def0 Tag : ★₀ = {left, right};
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def0 Payload : 0.(A : ★₀) → 0.(B : ★₀) → 1.Tag → ★₀ =
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def0 Payload : 0.★₀ → 0.★₀ → 1.Tag → ★₀ =
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λ A B tag ⇒ case1 tag return ★₀ of { 'left ⇒ A; 'right ⇒ B };
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def0 Either : 0.★₀ → 0.★₀ → ★₀ =
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λ A B ⇒ (tag : Tag) × Payload A B tag;
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def Left : 0.(A : ★₀) → 0.(B : ★₀) → 1.A → Either A B =
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def Left : 0.(A B : ★₀) → 1.A → Either A B =
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λ A B x ⇒ ('left, x);
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def Right : 0.(A : ★₀) → 0.(B : ★₀) → 1.B → Either A B =
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def Right : 0.(A B : ★₀) → 1.B → Either A B =
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λ A B x ⇒ ('right, x);
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def elim' :
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0.(A : ★₀) → 0.(B : ★₀) →
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0.(P : 0.(Either A B) → ★₀) →
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0.(A B : ★₀) → 0.(P : 0.(Either A B) → ★₀) →
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ω.(1.(x : A) → P (Left A B x)) →
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ω.(1.(x : B) → P (Right A B x)) →
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1.(t : Tag) → 1.(a : Payload A B t) → P (t, a) =
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@ -29,8 +28,7 @@ def elim' :
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of { 'left ⇒ f; 'right ⇒ g };
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def elim :
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0.(A : ★₀) → 0.(B : ★₀) →
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0.(P : 0.(Either A B) → ★₀) →
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0.(A B : ★₀) → 0.(P : 0.(Either A B) → ★₀) →
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ω.(1.(x : A) → P (Left A B x)) →
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ω.(1.(x : B) → P (Right A B x)) →
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1.(x : Either A B) → P x =
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@ -18,20 +18,19 @@ def nil : 0.(A : ★₀) → List A =
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def cons : 0.(A : ★₀) → 1.A → 1.(List A) → List A =
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λ A x xs ⇒ case1 xs return List A of { (len, elems) ⇒ (succ len, x, elems) };
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def foldr' : 0.(A : ★₀) → 0.(B : ★₀) →
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def foldr' : 0.(A B : ★₀) →
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1.B → ω.(1.A → 1.B → B) → 1.(n : ℕ) → 1.(Vec n A) → B =
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λ A B z c n ⇒
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case1 n return n' ⇒ 1.(Vec n' A) → B of {
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zero ⇒
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λ nil ⇒ case1 nil return B of { 'nil ⇒ z };
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succ n, 1.ih ⇒
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λ cons ⇒ case1 cons return B of { (first, rest) ⇒ c first (ih rest) }
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};
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case1 n return n' ⇒ 1.(Vec n' A) → B of {
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zero ⇒
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λ nil ⇒ case1 nil return B of { 'nil ⇒ z };
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succ n, 1.ih ⇒
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λ cons ⇒ case1 cons return B of { (first, rest) ⇒ c first (ih rest) }
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};
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def foldr : 0.(A : ★₀) → 0.(B : ★₀) →
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1.B → ω.(1.A → 1.B → B) → 1.(List A) → B =
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def foldr : 0.(A B : ★₀) → 1.B → ω.(1.A → 1.B → B) → 1.(List A) → B =
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λ A B z c xs ⇒
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case1 xs return B of { (len, elems) ⇒ foldr' A B z c len elems };
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case1 xs return B of { (len, elems) ⇒ foldr' A B z c len elems };
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def sum : 1.(List ℕ) → ℕ = foldr ℕ ℕ 0 nat.plus;
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@ -12,10 +12,8 @@ def0 All : 0.(A : ★₀) → 0.(Pred A) → ★₁ =
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λ A P ⇒ 1.(x : A) → P x;
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def cong :
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0.(A : ★₀) → 0.(P : Pred A) →
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1.(p : All A P) →
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0.(x : A) → 0.(y : A) → 1.(xy : x ≡ y : A) →
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Eq [𝑖 ⇒ P (xy @𝑖)] (p x) (p y) =
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0.(A : ★₀) → 0.(P : Pred A) → 1.(p : All A P) →
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0.(x y : A) → 1.(xy : x ≡ y : A) → Eq [𝑖 ⇒ P (xy @𝑖)] (p x) (p y) =
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λ A P p x y xy ⇒ δ 𝑖 ⇒ p (xy @𝑖);
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def0 eq-f :
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@ -25,17 +23,14 @@ def0 eq-f :
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λ A P p q x ⇒ p x ≡ q x : P x;
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def funext :
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0.(A : ★₀) → 0.(P : Pred A) →
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0.(p : All A P) → 0.(q : All A P) →
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1.(All A (eq-f A P p q)) →
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p ≡ q : All A P =
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0.(A : ★₀) → 0.(P : Pred A) → 0.(p q : All A P) →
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1.(All A (eq-f A P p q)) → p ≡ q : All A P =
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λ A P p q eq ⇒ δ 𝑖 ⇒ λ x ⇒ eq x @𝑖;
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def sym : 0.(A : ★₀) → 0.(x : A) → 0.(y : A) →
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1.(x ≡ y : A) → y ≡ x : A =
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def sym : 0.(A : ★₀) → 0.(x y : A) → 1.(x ≡ y : A) → y ≡ x : A =
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λ A x y eq ⇒ δ 𝑖 ⇒ comp [A] @0 @1 (eq @0) @𝑖 { 0 𝑗 ⇒ eq @𝑗; 1 _ ⇒ eq @0 };
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def trans : 0.(A : ★₀) → 0.(x : A) → 0.(y : A) → 0.(z : A) →
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def trans : 0.(A : ★₀) → 0.(x y z : A) →
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ω.(x ≡ y : A) → ω.(y ≡ z : A) → x ≡ z : A =
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λ A x y z eq1 eq2 ⇒ δ 𝑖 ⇒
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comp [A] @0 @1 (eq1 @𝑖) @𝑖 { 0 _ ⇒ eq1 @0; 1 𝑗 ⇒ eq2 @𝑗 };
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@ -33,8 +33,7 @@ def pred : 1.ℕ → ℕ = λ n ⇒ case1 n return ℕ of { zero ⇒ zero; succ
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def pred-succ : ω.(n : ℕ) → pred (succ n) ≡ n : ℕ =
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λ n ⇒ δ 𝑖 ⇒ n;
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def0 succ-inj : 0.(m : ℕ) → 0.(n : ℕ) →
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0.(succ m ≡ succ n : ℕ) → m ≡ n : ℕ =
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def0 succ-inj : 0.(m n : ℕ) → 0.(succ m ≡ succ n : ℕ) → m ≡ n : ℕ =
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λ m n eq ⇒ δ 𝑖 ⇒ pred (eq @𝑖);
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@ -94,14 +93,14 @@ def0 plus-zero : 0.(m : ℕ) → m ≡ plus m 0 : ℕ =
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succ _, ω.ih ⇒ δ 𝑖 ⇒ succ (ih @𝑖)
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};
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def0 plus-succ : 0.(m : ℕ) → 0.(n : ℕ) → succ (plus m n) ≡ plus m (succ n) : ℕ =
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def0 plus-succ : 0.(m n : ℕ) → succ (plus m n) ≡ plus m (succ n) : ℕ =
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λ m n ⇒
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caseω m return m' ⇒ succ (plus m' n) ≡ plus m' (succ n) : ℕ of {
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zero ⇒ δ _ ⇒ succ n;
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succ _, ω.ih ⇒ δ 𝑖 ⇒ succ (ih @𝑖)
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};
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def0 plus-comm : 0.(m : ℕ) → 0.(n : ℕ) → plus m n ≡ plus n m : ℕ =
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def0 plus-comm : 0.(m n : ℕ) → plus m n ≡ plus n m : ℕ =
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λ m n ⇒
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caseω m return m' ⇒ plus m' n ≡ plus n m' : ℕ of {
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zero ⇒ plus-zero n;
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@ -2,12 +2,10 @@ namespace pair {
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def0 Σ : 0.(A : ★₀) → 0.(0.A → ★₀) → ★₀ = λ A B ⇒ (x : A) × B x;
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def fst : 0.(A : ★₀) → 0.(B : 0.A → ★₀) →
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ω.(Σ A B) → A =
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def fst : 0.(A : ★₀) → 0.(B : 0.A → ★₀) → ω.(Σ A B) → A =
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λ A B p ⇒ caseω p return A of { (x, _) ⇒ x };
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def snd : 0.(A : ★₀) → 0.(B : 0.A → ★₀) →
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ω.(p : Σ A B) → B (fst A B p) =
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def snd : 0.(A : ★₀) → 0.(B : 0.A → ★₀) → ω.(p : Σ A B) → B (fst A B p) =
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λ A B p ⇒ caseω p return p' ⇒ B (fst A B p') of { (_, y) ⇒ y };
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def uncurry :
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@ -17,11 +15,19 @@ def uncurry :
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λ A B C f p ⇒
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case1 p return p' ⇒ C (fst A B p') (snd A B p') of { (x, y) ⇒ f x y };
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def uncurry' :
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0.(A B C : ★₀) → 1.(1.A → 1.B → C) → 1.(A × B) → C =
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λ A B C ⇒ uncurry A (λ _ ⇒ B) (λ _ _ ⇒ C);
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def curry :
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0.(A : ★₀) → 0.(B : 0.A → ★₀) → 0.(C : 0.(Σ A B) → ★₀) →
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1.(f : 1.(p : Σ A B) → C p) → 1.(x : A) → 1.(y : B x) → C (x, y) =
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λ A B C f x y ⇒ f (x, y);
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def curry' :
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0.(A B C : ★₀) → 1.(1.(A × B) → C) → 1.A → 1.B → C =
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λ A B C ⇒ curry A (λ _ ⇒ B) (λ _ ⇒ C);
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def0 fst-snd :
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0.(A : ★₀) → 0.(B : 0.A → ★₀) →
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1.(p : Σ A B) → p ≡ (fst A B p, snd A B p) : Σ A B =
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@ -31,18 +37,15 @@ def0 fst-snd :
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of { (x, y) ⇒ δ 𝑖 ⇒ (x, y) };
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def map :
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0.(A : ★₀) → 0.(A' : ★₀) →
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0.(A A' : ★₀) →
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0.(B : 0.A → ★₀) → 0.(B' : 0.A' → ★₀) →
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1.(f : 1.A → A') → 1.(g : 0.(x : A) → 1.(B x) → B' (f x)) →
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1.(Σ A B) → Σ A' B' =
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λ A A' B B' f g p ⇒
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case1 p return Σ A' B' of { (x, y) ⇒ (f x, g x y) };
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def map' :
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0.(A : ★₀) → 0.(A' : ★₀) →
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0.(B : ★₀) → 0.(B' : ★₀) →
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1.(f : 1.A → A') → 1.(g : 1.B → B') →
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1.(A × B) → A' × B' =
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def map' : 0.(A A' B B' : ★₀) →
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1.(1.A → A') → 1.(1.B → B') → 1.(A × B) → A' × B' =
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λ A A' B B' f g ⇒ map A A' (λ _ ⇒ B) (λ _ ⇒ B') f (λ _ ⇒ g);
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}
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@ -242,19 +242,20 @@ mutual
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bindTerm : Grammar True PTerm
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bindTerm = pi <|> sigma
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where
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binderHead = parens {commit = False} [|MkPair bname (resC ":" *> term)|]
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binderHead =
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parens {commit = False} [|MkPair (some bname) (resC ":" *> term)|]
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pi, sigma : Grammar True PTerm
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pi = [|makePi (qty <* res ".") domain (resC "→" *> term)|]
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where
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makePi : Qty -> (BName, PTerm) -> PTerm -> PTerm
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makePi q (x, s) t = Pi q x s t
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domain = binderHead <|> [|(Nothing,) aTerm|]
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makePi : Qty -> (List1 BName, PTerm) -> PTerm -> PTerm
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makePi q (xs, s) t = foldr (\x => Pi q x s) t xs
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domain = binderHead <|> [|(Nothing ::: [],) aTerm|]
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sigma = [|makeSigma binderHead (resC "×" *> annTerm)|]
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where
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makeSigma : (BName, PTerm) -> PTerm -> PTerm
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makeSigma (x, s) t = Sig x s t
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makeSigma : (List1 BName, PTerm) -> PTerm -> PTerm
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makeSigma (xs, s) t = foldr (\x => Sig x s) t xs
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private covering
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annTerm : Grammar True PTerm
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@ -148,6 +148,8 @@ tests = "parser" :- [
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Pi Any (Just "x") (V "A") (V "B" :@ V "x"),
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parsesAs term "#.(x : A) -> B x" $
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Pi Any (Just "x") (V "A") (V "B" :@ V "x"),
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parsesAs term "1.(x y : A) -> B x" $
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Pi One (Just "x") (V "A") $ Pi One (Just "y") (V "A") (V "B" :@ V "x"),
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parseFails term "(x : A) → B x",
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parsesAs term "1.A → B"
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(Pi One Nothing (V "A") (V "B")),
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@ -158,6 +160,8 @@ tests = "parser" :- [
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Sig (Just "x") (V "A") (V "B" :@ V "x"),
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parsesAs term "(x : A) ** B x" $
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Sig (Just "x") (V "A") (V "B" :@ V "x"),
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parsesAs term "(x y : A) × B x" $
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Sig (Just "x") (V "A") $ Sig (Just "y") (V "A") (V "B" :@ V "x"),
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parseFails term "1.(x : A) × B x",
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parsesAs term "A × B" $
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Sig Nothing (V "A") (V "B"),
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