{-# OPTIONS --without-K --safe #-}
module Relation.Nullary.Decidable.Core where
open import Level using (Level; Lift)
open import Data.Bool.Base using (Bool; false; true; not; T)
open import Data.Unit.Base using (⊤)
open import Data.Empty
open import Data.Product
open import Function.Base
open import Agda.Builtin.Equality
open import Relation.Nullary.Reflects
open import Relation.Nullary
private
variable
p q : Level
P : Set p
Q : Set q
isYes : Dec P → Bool
isYes ( true because _) = true
isYes (false because _) = false
⌊_⌋ = isYes
isNo : Dec P → Bool
isNo = not ∘ isYes
True : Dec P → Set
True Q = T (isYes Q)
False : Dec P → Set
False Q = T (isNo Q)
toWitness : {Q : Dec P} → True Q → P
toWitness {Q = true because [p]} _ = invert [p]
toWitness {Q = false because _ } ()
fromWitness : {Q : Dec P} → P → True Q
fromWitness {Q = true because _ } = const _
fromWitness {Q = false because [¬p]} = invert [¬p]
toWitnessFalse : {Q : Dec P} → False Q → ¬ P
toWitnessFalse {Q = true because _ } ()
toWitnessFalse {Q = false because [¬p]} _ = invert [¬p]
fromWitnessFalse : {Q : Dec P} → ¬ P → False Q
fromWitnessFalse {Q = true because [p]} = flip _$_ (invert [p])
fromWitnessFalse {Q = false because _ } = const _
module _ {p} {P : Set p} where
From-yes : Dec P → Set p
From-yes (true because _) = P
From-yes (false because _) = Lift p ⊤
from-yes : (p : Dec P) → From-yes p
from-yes (true because [p]) = invert [p]
from-yes (false because _ ) = _
From-no : Dec P → Set p
From-no (false because _) = ¬ P
From-no (true because _) = Lift p ⊤
from-no : (p : Dec P) → From-no p
from-no (false because [¬p]) = invert [¬p]
from-no (true because _ ) = _
dec-true : (p? : Dec P) → P → does p? ≡ true
dec-true (true because _ ) p = refl
dec-true (false because [¬p]) p = ⊥-elim (invert [¬p] p)
dec-false : (p? : Dec P) → ¬ P → does p? ≡ false
dec-false (false because _ ) ¬p = refl
dec-false (true because [p]) ¬p = ⊥-elim (¬p (invert [p]))
dec-yes : (p? : Dec P) → P → ∃ λ p′ → p? ≡ yes p′
dec-yes p? p with dec-true p? p
dec-yes (yes p′) p | refl = p′ , refl
dec-no : (p? : Dec P) → ¬ P → ∃ λ ¬p′ → p? ≡ no ¬p′
dec-no p? ¬p with dec-false p? ¬p
dec-no (no ¬p′) ¬p | refl = ¬p′ , refl
dec-yes-irr : (p? : Dec P) → Irrelevant P → (p : P) → p? ≡ yes p
dec-yes-irr p? irr p with dec-yes p? p
... | p′ , eq rewrite irr p p′ = eq
map′ : (P → Q) → (Q → P) → Dec P → Dec Q
does (map′ P→Q Q→P p?) = does p?
proof (map′ P→Q Q→P (true because [p])) = ofʸ (P→Q (invert [p]))
proof (map′ P→Q Q→P (false because [¬p])) = ofⁿ (invert [¬p] ∘ Q→P)