2023-04-18 18:42:40 -04:00
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load "nat.quox";
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2023-07-21 11:57:47 -04:00
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namespace vec {
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2023-04-18 18:42:40 -04:00
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2023-07-18 17:12:04 -04:00
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def0 Vec : ℕ → ★ → ★ =
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λ n A ⇒
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caseω n return ★ of {
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zero ⇒ {nil};
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succ _, 0.Tail ⇒ A × Tail
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};
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def elim : 0.(A : ★) → 0.(P : (n : ℕ) → Vec n A → ★) →
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P 0 'nil →
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ω.((x : A) → 0.(n : ℕ) → 0.(xs : Vec n A) →
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P n xs → P (succ n) (x, xs)) →
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(n : ℕ) → (xs : Vec n A) → P n xs =
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λ A P pn pc n ⇒
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case n return n' ⇒ (xs' : Vec n' A) → P n' xs' of {
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zero ⇒ λ n ⇒
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case n return n' ⇒ P 0 n' of { 'nil ⇒ pn };
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succ n, ih ⇒ λ c ⇒
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case c return c' ⇒ P (succ n) c' of {
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(first, rest) ⇒ pc first n rest (ih rest)
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}
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};
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2023-11-03 12:42:44 -04:00
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#[compile-scheme "(lambda% (n xs) xs)"]
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def up : 0.(A : ★) → (n : ℕ) → Vec n A → Vec¹ n A =
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λ A n ⇒
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case n return n' ⇒ Vec n' A → Vec¹ n' A of {
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zero ⇒ λ xs ⇒
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case xs return Vec¹ 0 A of { 'nil ⇒ 'nil };
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succ n', f' ⇒ λ xs ⇒
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case xs return Vec¹ (succ n') A of {
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(first, rest) ⇒ (first, f' rest)
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}
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}
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2023-07-21 11:57:47 -04:00
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}
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def0 Vec = vec.Vec;
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namespace list {
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def0 List : ★ → ★ =
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λ A ⇒ (len : ℕ) × Vec len A;
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def Nil : 0.(A : ★) → List A =
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λ A ⇒ (0, 'nil);
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def Cons : 0.(A : ★) → A → List A → List A =
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λ A x xs ⇒ case xs return List A of { (len, elems) ⇒ (succ len, x, elems) };
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def elim : 0.(A : ★) → 0.(P : List A → ★) →
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P (Nil A) →
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ω.((x : A) → 0.(xs : List A) → P xs → P (Cons A x xs)) →
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(xs : List A) → P xs =
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λ A P pn pc xs ⇒
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case xs return xs' ⇒ P xs' of { (len, elems) ⇒
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vec.elim A (λ n xs ⇒ P (n, xs))
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pn (λ x n xs ih ⇒ pc x (n, xs) ih)
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len elems
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};
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2023-04-19 15:36:57 -04:00
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2023-07-22 15:26:20 -04:00
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-- [fixme] List A <: List¹ A should be automatic, imo
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2023-11-03 12:42:44 -04:00
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#[compile-scheme "(lambda (xs) xs)"]
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def up : 0.(A : ★) → List A → List¹ A =
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λ A xs ⇒
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case xs return List¹ A of { (len, elems) ⇒
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case nat.dup! len return List¹ A of { [p] ⇒
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caseω p return List¹ A of { (lenω, eq0) ⇒
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case eq0 return List¹ A of { [eq] ⇒
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(lenω, vec.up A lenω (coe (𝑖 ⇒ Vec (eq @𝑖) A) @1 @0 elems))
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}
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}
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}
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};
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def foldr : 0.(A B : ★) → B → ω.(A → B → B) → List A → B =
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λ A B z f xs ⇒ elim A (λ _ ⇒ B) z (λ x _ y ⇒ f x y) xs;
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def map : 0.(A B : ★) → ω.(A → B) → List A → List B =
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λ A B f ⇒ foldr A (List B) (Nil B) (λ x ys ⇒ Cons B (f x) ys);
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def0 All : (A : ★) → (P : A → ★) → List A → ★ =
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λ A P xs ⇒ foldr¹ A ★ True (λ x ps ⇒ P x × ps) (up A xs);
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}
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def0 List = list.List;
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