module Data.Rational where
import Data.Bool.Properties as Bool
open import Function
open import Data.Integer hiding (suc) renaming (_*_ to _ℤ*_)
open import Data.Integer.Divisibility as ℤDiv using (Coprime)
import Data.Integer.Properties as ℤ
open import Data.Nat.Divisibility as ℕDiv using (_∣_)
import Data.Nat.Coprimality as C
open import Data.Nat as ℕ renaming (_*_ to _ℕ*_)
open import Level
open import Relation.Nullary.Decidable
open import Relation.Binary
open import Relation.Binary.PropositionalEquality as PropEq
open ≡-Reasoning
record ℚ : Set where
field
numerator : ℤ
denominator-1 : ℕ
isCoprime : True (C.coprime? ∣ numerator ∣ (suc denominator-1))
denominator : ℤ
denominator = + suc denominator-1
coprime : Coprime numerator denominator
coprime = toWitness isCoprime
infixl 7 _÷_
_÷_ : (numerator : ℤ) (denominator : ℕ)
{coprime : True (C.coprime? ∣ numerator ∣ denominator)}
{≢0 : False (ℕ._≟_ denominator 0)} →
ℚ
(n ÷ zero) {≢0 = ()}
(n ÷ suc d) {c} =
record { numerator = n; denominator-1 = d; isCoprime = c }
private
0/1 : ℚ
0/1 = + 0 ÷ 1
-½ : ℚ
-½ = - + 1 ÷ 2
infix 4 _≃_
_≃_ : Rel ℚ zero
p ≃ q = P.numerator ℤ* Q.denominator ≡
Q.numerator ℤ* P.denominator
where module P = ℚ p; module Q = ℚ q
≡⇒≃ : _≡_ ⇒ _≃_
≡⇒≃ refl = refl
≃⇒≡ : _≃_ ⇒ _≡_
≃⇒≡ {p} {q} = helper P.numerator P.denominator-1 P.isCoprime
Q.numerator Q.denominator-1 Q.isCoprime
where
module P = ℚ p; module Q = ℚ q
helper : ∀ n₁ d₁ c₁ n₂ d₂ c₂ →
n₁ ℤ* + suc d₂ ≡ n₂ ℤ* + suc d₁ →
(n₁ ÷ suc d₁) {c₁} ≡ (n₂ ÷ suc d₂) {c₂}
helper n₁ d₁ c₁ n₂ d₂ c₂ eq
with Poset.antisym ℕDiv.poset 1+d₁∣1+d₂ 1+d₂∣1+d₁
where
1+d₁∣1+d₂ : suc d₁ ∣ suc d₂
1+d₁∣1+d₂ = ℤDiv.coprime-divisor (+ suc d₁) n₁ (+ suc d₂)
(C.sym $ toWitness c₁) $
ℕDiv.divides ∣ n₂ ∣ (begin
∣ n₁ ℤ* + suc d₂ ∣ ≡⟨ cong ∣_∣ eq ⟩
∣ n₂ ℤ* + suc d₁ ∣ ≡⟨ ℤ.abs-*-commute n₂ (+ suc d₁) ⟩
∣ n₂ ∣ ℕ* suc d₁ ∎)
1+d₂∣1+d₁ : suc d₂ ∣ suc d₁
1+d₂∣1+d₁ = ℤDiv.coprime-divisor (+ suc d₂) n₂ (+ suc d₁)
(C.sym $ toWitness c₂) $
ℕDiv.divides ∣ n₁ ∣ (begin
∣ n₂ ℤ* + suc d₁ ∣ ≡⟨ cong ∣_∣ (PropEq.sym eq) ⟩
∣ n₁ ℤ* + suc d₂ ∣ ≡⟨ ℤ.abs-*-commute n₁ (+ suc d₂) ⟩
∣ n₁ ∣ ℕ* suc d₂ ∎)
helper n₁ d c₁ n₂ .d c₂ eq | refl with ℤ.cancel-*-right
n₁ n₂ (+ suc d) (λ ()) eq
helper n d c₁ .n .d c₂ eq | refl | refl with Bool.proof-irrelevance c₁ c₂
helper n d c .n .d .c eq | refl | refl | refl = refl