------------------------------------------------------------------------
-- The Agda standard library
--
-- Operations on and properties of decidable relations
--
-- This file contains some core definitions which are re-exported by
-- Relation.Nullary.Decidable
------------------------------------------------------------------------

{-# 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.Core

open import Agda.Builtin.Equality
open import Relation.Nullary

private
  variable
    p q : Level
    P : Set p
    Q : Set q

isYes : Dec P  Bool
isYes (yes _) = true
isYes (no _)  = false

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)

-- Gives a witness to the "truth".

toWitness : {Q : Dec P}  True Q  P
toWitness {Q = yes p} _  = p
toWitness {Q = no  _} ()

-- Establishes a "truth", given a witness.

fromWitness : {Q : Dec P}  P  True Q
fromWitness {Q = yes p} = const _
fromWitness {Q = no ¬p} = ¬p

-- Variants for False.

toWitnessFalse : {Q : Dec P}  False Q  ¬ P
toWitnessFalse {Q = yes _}  ()
toWitnessFalse {Q = no  ¬p} _  = ¬p

fromWitnessFalse : {Q : Dec P}  ¬ P  False Q
fromWitnessFalse {Q = yes p} = flip _$_ p
fromWitnessFalse {Q = no ¬p} = const _

-- If a decision procedure returns "yes", then we can extract the
-- proof using from-yes.

module _ {p} {P : Set p} where

  From-yes : Dec P  Set p
  From-yes (yes _) = P
  From-yes (no  _) = Lift p 

  from-yes : (p : Dec P)  From-yes p
  from-yes (yes p) = p
  from-yes (no  _) = _

-- If a decision procedure returns "no", then we can extract the proof
-- using from-no.

  From-no : Dec P  Set p
  From-no (no  _) = ¬ P
  From-no (yes _) = Lift p 

  from-no : (p : Dec P)  From-no p
  from-no (no ¬p) = ¬p
  from-no (yes _) = _

------------------------------------------------------------------------
-- Result of decidability

dec-yes : (p? : Dec P)  P   λ p′  p?  yes p′
dec-yes (yes p′) p = p′ , refl
dec-yes (no ¬p) p = ⊥-elim (¬p p)

dec-no : (p? : Dec P)  ¬ P   λ ¬p′  p?  no ¬p′
dec-no (yes p) ¬p  = ¬p , ⊥-elim (¬p p)
dec-no (no ¬p′) ¬p = ¬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


------------------------------------------------------------------------
-- DEPRECATED NAMES
------------------------------------------------------------------------
-- Please use the new names as continuing support for the old names is
-- not guaranteed.

-- Version 1.2

⌊_⌋ = isYes
{-# WARNING_ON_USAGE ⌊_⌋
"Warning: ⌊_⌋ was deprecated in v1.2.
Please use isYes instead."
#-}