------------------------------------------------------------------------ -- The Agda standard library -- -- Showing natural numbers ------------------------------------------------------------------------ {-# OPTIONS --without-K --safe #-} module Data.Nat.Show where open import Data.Bool.Base using (_∧_) open import Data.Char.Base as Char using (Char) open import Data.Digit using (showDigit; toDigits; toNatDigits) open import Data.List.Base as List using (List; []; _∷_) open import Data.List.Categorical using (module TraversableA) open import Data.Maybe.Base as Maybe using (Maybe; nothing; _<∣>_; when) import Data.Maybe.Categorical as Maybe open import Data.Nat open import Data.Product using (proj₁) open import Data.String as String using (String) open import Function.Base open import Relation.Nullary.Decidable using (True) ------------------------------------------------------------------------ -- Read readMaybe : ∀ base {base≤16 : True (base ≤? 16)} → String → Maybe ℕ readMaybe _ "" = nothing readMaybe base = Maybe.map convert ∘′ TraversableA.mapA Maybe.applicative readDigit ∘′ String.toList where convert : List ℕ → ℕ convert = List.foldl (λ acc d → base * acc + d) 0 char0 = Char.toℕ '0' char9 = Char.toℕ '9' chara = Char.toℕ 'a' charf = Char.toℕ 'f' readDigit : Char → Maybe ℕ readDigit c = digit Maybe.>>= λ n → when (n <ᵇ base) n where charc = Char.toℕ c dec = when ((char0 ≤ᵇ charc) ∧ (charc ≤ᵇ char9)) (charc ∸ char0) hex = when ((chara ≤ᵇ charc) ∧ (charc ≤ᵇ charf)) (10 + charc ∸ chara) digit = dec <∣> hex ------------------------------------------------------------------------ -- Show -- Decimal notation -- Time complexity is O(log₁₀(n)) toDigitChar : ℕ → Char toDigitChar n = Char.fromℕ (n + Char.toℕ '0') toDecimalChars : ℕ → List Char toDecimalChars = List.map toDigitChar ∘′ toNatDigits 10 show : ℕ → String show = String.fromList ∘ toDecimalChars -- Arbitrary base betwen 2 & 16. -- Warning: when compiled the time complexity of `showInBase b n` is -- O(n) instead of the expected O(log(n)). charsInBase : (base : ℕ) {base≥2 : True (2 ≤? base)} {base≤16 : True (base ≤? 16)} → ℕ → List Char charsInBase base {base≥2} {base≤16} = List.map (showDigit {base≤16 = base≤16}) ∘ List.reverse ∘ proj₁ ∘ toDigits base {base≥2 = base≥2} showInBase : (base : ℕ) {base≥2 : True (2 ≤? base)} {base≤16 : True (base ≤? 16)} → ℕ → String showInBase base {base≥2} {base≤16} = String.fromList ∘ charsInBase base {base≥2} {base≤16}