{-# OPTIONS --without-K --safe #-}
module Data.Digit where
open import Data.Nat.Base
open import Data.Nat.Properties
open import Data.Nat.Solver
open import Data.Fin.Base as Fin using (Fin; zero; suc; toℕ)
open import Data.Bool.Base using (Bool; true; false)
open import Data.Char using (Char)
open import Data.List.Base
open import Data.Product
open import Data.Vec.Base as Vec using (Vec; _∷_; [])
open import Data.Nat.DivMod
open import Data.Nat.Induction
open import Relation.Nullary using (does)
open import Relation.Nullary.Decidable
open import Relation.Binary using (Decidable)
open import Relation.Binary.PropositionalEquality as P using (_≡_; refl)
open import Function
Digit : ℕ → Set
Digit b = Fin b
Decimal = Digit 10
Bit = Digit 2
0b : Bit
0b = zero
1b : Bit
1b = suc zero
toNatDigits : (base : ℕ) {base≤16 : True (1 ≤? base)} → ℕ → List ℕ
toNatDigits base@(suc zero) n = replicate n 1
toNatDigits base@(suc (suc b)) n = aux (<-wellFounded n) []
where
aux : {n : ℕ} → Acc _<_ n → List ℕ → List ℕ
aux {zero} _ xs = (0 ∷ xs)
aux {n@(suc n-1)} (acc wf) xs with does (0 <? n / base)
... | false = (n % base) ∷ xs
... | true = aux (wf (n / base) q<n) ((n % base) ∷ xs)
where
q<n : n / base < n
q<n = m/n<m n base (s≤s z≤n) (s≤s (s≤s z≤n))
Expansion : ℕ → Set
Expansion base = List (Digit base)
fromDigits : ∀ {base} → Expansion base → ℕ
fromDigits [] = 0
fromDigits {base} (d ∷ ds) = toℕ d + fromDigits ds * base
toDigits : (base : ℕ) {base≥2 : True (2 ≤? base)} (n : ℕ) →
∃ λ (ds : Expansion base) → fromDigits ds ≡ n
toDigits (suc (suc k)) n = <′-rec Pred helper n
where
base = suc (suc k)
Pred = λ n → ∃ λ ds → fromDigits ds ≡ n
cons : ∀ {m} (r : Digit base) → Pred m → Pred (toℕ r + m * base)
cons r (ds , eq) = (r ∷ ds , P.cong (λ i → toℕ r + i * base) eq)
open ≤-Reasoning
open +-*-Solver
lem : ∀ x k r → 2 + x ≤′ r + (1 + x) * (2 + k)
lem x k r = ≤⇒≤′ $ begin
2 + x
≤⟨ m≤m+n _ _ ⟩
2 + x + (x + (1 + x) * k + r)
≡⟨ solve 3 (λ x r k → con 2 :+ x :+ (x :+ (con 1 :+ x) :* k :+ r)
:=
r :+ (con 1 :+ x) :* (con 2 :+ k))
refl x r k ⟩
r + (1 + x) * (2 + k)
∎
helper : ∀ n → <′-Rec Pred n → Pred n
helper n rec with n divMod base
helper .(toℕ r + 0 * base) rec | result zero r refl = ([ r ] , refl)
helper .(toℕ r + suc x * base) rec | result (suc x) r refl =
cons r (rec (suc x) (lem (pred (suc x)) k (toℕ r)))
digitChars : Vec Char 16
digitChars =
'0' ∷ '1' ∷ '2' ∷ '3' ∷ '4' ∷ '5' ∷ '6' ∷ '7' ∷ '8' ∷ '9' ∷
'a' ∷ 'b' ∷ 'c' ∷ 'd' ∷ 'e' ∷ 'f' ∷ []
showDigit : ∀ {base} {base≤16 : True (base ≤? 16)} → Digit base → Char
showDigit {base≤16 = base≤16} d =
Vec.lookup digitChars (Fin.inject≤ d (toWitness base≤16))