{-# OPTIONS --without-K --safe #-}
module Data.Bool.Properties where
open import Algebra
open import Data.Bool.Base
open import Data.Empty
open import Data.Product
open import Data.Sum
open import Function
open import Function.Equality using (_⟨$⟩_)
open import Function.Equivalence
using (_⇔_; equivalence; module Equivalence)
open import Level using (Level; 0ℓ)
open import Relation.Binary
open import Relation.Binary.PropositionalEquality hiding ([_])
open import Relation.Nullary using (yes; no)
open import Relation.Nullary.Decidable using (True)
import Relation.Unary as U
open import Algebra.FunctionProperties {A = Bool} _≡_
open import Algebra.Structures {A = Bool} _≡_
open ≡-Reasoning
private
variable
a b : Level
A : Set a
B : Set b
infix 4 _≟_
_≟_ : Decidable {A = Bool} _≡_
true ≟ true = yes refl
false ≟ false = yes refl
true ≟ false = no λ()
false ≟ true = no λ()
≡-setoid : Setoid 0ℓ 0ℓ
≡-setoid = setoid Bool
≡-decSetoid : DecSetoid 0ℓ 0ℓ
≡-decSetoid = decSetoid _≟_
≤-reflexive : _≡_ ⇒ _≤_
≤-reflexive refl = b≤b
≤-refl : Reflexive _≤_
≤-refl = ≤-reflexive refl
≤-trans : Transitive _≤_
≤-trans b≤b p = p
≤-trans f≤t b≤b = f≤t
≤-antisym : Antisymmetric _≡_ _≤_
≤-antisym b≤b _ = refl
≤-minimum : Minimum _≤_ false
≤-minimum false = b≤b
≤-minimum true = f≤t
≤-maximum : Maximum _≤_ true
≤-maximum false = f≤t
≤-maximum true = b≤b
≤-total : Total _≤_
≤-total false b = inj₁ (≤-minimum b)
≤-total true b = inj₂ (≤-maximum b)
infix 4 _≤?_
_≤?_ : Decidable _≤_
false ≤? b = yes (≤-minimum b)
true ≤? false = no λ ()
true ≤? true = yes b≤b
≤-irrelevant : Irrelevant _≤_
≤-irrelevant {_} f≤t f≤t = refl
≤-irrelevant {false} b≤b b≤b = refl
≤-irrelevant {true} b≤b b≤b = refl
≤-isPreorder : IsPreorder _≡_ _≤_
≤-isPreorder = record
{ isEquivalence = isEquivalence
; reflexive = ≤-reflexive
; trans = ≤-trans
}
≤-isPartialOrder : IsPartialOrder _≡_ _≤_
≤-isPartialOrder = record
{ isPreorder = ≤-isPreorder
; antisym = ≤-antisym
}
≤-isTotalOrder : IsTotalOrder _≡_ _≤_
≤-isTotalOrder = record
{ isPartialOrder = ≤-isPartialOrder
; total = ≤-total
}
≤-isDecTotalOrder : IsDecTotalOrder _≡_ _≤_
≤-isDecTotalOrder = record
{ isTotalOrder = ≤-isTotalOrder
; _≟_ = _≟_
; _≤?_ = _≤?_
}
≤-poset : Poset 0ℓ 0ℓ 0ℓ
≤-poset = record
{ isPartialOrder = ≤-isPartialOrder
}
≤-preorder : Preorder 0ℓ 0ℓ 0ℓ
≤-preorder = record
{ isPreorder = ≤-isPreorder
}
≤-totalOrder : TotalOrder 0ℓ 0ℓ 0ℓ
≤-totalOrder = record
{ isTotalOrder = ≤-isTotalOrder
}
≤-decTotalOrder : DecTotalOrder 0ℓ 0ℓ 0ℓ
≤-decTotalOrder = record
{ isDecTotalOrder = ≤-isDecTotalOrder
}
<-irrefl : Irreflexive _≡_ _<_
<-irrefl refl ()
<-asym : Asymmetric _<_
<-asym f<t ()
<-trans : Transitive _<_
<-trans f<t ()
<-transʳ : Trans _≤_ _<_ _<_
<-transʳ b≤b f<t = f<t
<-transˡ : Trans _<_ _≤_ _<_
<-transˡ f<t b≤b = f<t
<-cmp : Trichotomous _≡_ _<_
<-cmp false false = tri≈ (λ()) refl (λ())
<-cmp false true = tri< f<t (λ()) (λ())
<-cmp true false = tri> (λ()) (λ()) f<t
<-cmp true true = tri≈ (λ()) refl (λ())
infix 4 _<?_
_<?_ : Decidable _<_
false <? false = no (λ())
false <? true = yes f<t
true <? _ = no (λ())
<-resp₂-≡ : _<_ Respects₂ _≡_
<-resp₂-≡ = subst (_ <_) , subst (_< _)
<-irrelevant : Irrelevant _<_
<-irrelevant f<t f<t = refl
<-isStrictPartialOrder : IsStrictPartialOrder _≡_ _<_
<-isStrictPartialOrder = record
{ isEquivalence = isEquivalence
; irrefl = <-irrefl
; trans = <-trans
; <-resp-≈ = <-resp₂-≡
}
<-isStrictTotalOrder : IsStrictTotalOrder _≡_ _<_
<-isStrictTotalOrder = record
{ isEquivalence = isEquivalence
; trans = <-trans
; compare = <-cmp
}
<-strictPartialOrder : StrictPartialOrder 0ℓ 0ℓ 0ℓ
<-strictPartialOrder = record
{ isStrictPartialOrder = <-isStrictPartialOrder
}
<-strictTotalOrder : StrictTotalOrder 0ℓ 0ℓ 0ℓ
<-strictTotalOrder = record
{ isStrictTotalOrder = <-isStrictTotalOrder
}
∨-assoc : Associative _∨_
∨-assoc true y z = refl
∨-assoc false y z = refl
∨-comm : Commutative _∨_
∨-comm true true = refl
∨-comm true false = refl
∨-comm false true = refl
∨-comm false false = refl
∨-identityˡ : LeftIdentity false _∨_
∨-identityˡ _ = refl
∨-identityʳ : RightIdentity false _∨_
∨-identityʳ false = refl
∨-identityʳ true = refl
∨-identity : Identity false _∨_
∨-identity = ∨-identityˡ , ∨-identityʳ
∨-zeroˡ : LeftZero true _∨_
∨-zeroˡ _ = refl
∨-zeroʳ : RightZero true _∨_
∨-zeroʳ false = refl
∨-zeroʳ true = refl
∨-zero : Zero true _∨_
∨-zero = ∨-zeroˡ , ∨-zeroʳ
∨-inverseˡ : LeftInverse true not _∨_
∨-inverseˡ false = refl
∨-inverseˡ true = refl
∨-inverseʳ : RightInverse true not _∨_
∨-inverseʳ x = ∨-comm x (not x) ⟨ trans ⟩ ∨-inverseˡ x
∨-inverse : Inverse true not _∨_
∨-inverse = ∨-inverseˡ , ∨-inverseʳ
∨-idem : Idempotent _∨_
∨-idem false = refl
∨-idem true = refl
∨-sel : Selective _∨_
∨-sel false y = inj₂ refl
∨-sel true y = inj₁ refl
∨-isMagma : IsMagma _∨_
∨-isMagma = record
{ isEquivalence = isEquivalence
; ∙-cong = cong₂ _∨_
}
∨-magma : Magma 0ℓ 0ℓ
∨-magma = record
{ isMagma = ∨-isMagma
}
∨-isSemigroup : IsSemigroup _∨_
∨-isSemigroup = record
{ isMagma = ∨-isMagma
; assoc = ∨-assoc
}
∨-semigroup : Semigroup 0ℓ 0ℓ
∨-semigroup = record
{ isSemigroup = ∨-isSemigroup
}
∨-isBand : IsBand _∨_
∨-isBand = record
{ isSemigroup = ∨-isSemigroup
; idem = ∨-idem
}
∨-band : Band 0ℓ 0ℓ
∨-band = record
{ isBand = ∨-isBand
}
∨-isSemilattice : IsSemilattice _∨_
∨-isSemilattice = record
{ isBand = ∨-isBand
; comm = ∨-comm
}
∨-semilattice : Semilattice 0ℓ 0ℓ
∨-semilattice = record
{ isSemilattice = ∨-isSemilattice
}
∨-isCommutativeMonoid : IsCommutativeMonoid _∨_ false
∨-isCommutativeMonoid = record
{ isSemigroup = ∨-isSemigroup
; identityˡ = ∨-identityˡ
; comm = ∨-comm
}
∨-commutativeMonoid : CommutativeMonoid 0ℓ 0ℓ
∨-commutativeMonoid = record
{ isCommutativeMonoid = ∨-isCommutativeMonoid
}
∨-isIdempotentCommutativeMonoid :
IsIdempotentCommutativeMonoid _∨_ false
∨-isIdempotentCommutativeMonoid = record
{ isCommutativeMonoid = ∨-isCommutativeMonoid
; idem = ∨-idem
}
∨-idempotentCommutativeMonoid : IdempotentCommutativeMonoid 0ℓ 0ℓ
∨-idempotentCommutativeMonoid = record
{ isIdempotentCommutativeMonoid = ∨-isIdempotentCommutativeMonoid
}
∧-assoc : Associative _∧_
∧-assoc true y z = refl
∧-assoc false y z = refl
∧-comm : Commutative _∧_
∧-comm true true = refl
∧-comm true false = refl
∧-comm false true = refl
∧-comm false false = refl
∧-identityˡ : LeftIdentity true _∧_
∧-identityˡ _ = refl
∧-identityʳ : RightIdentity true _∧_
∧-identityʳ false = refl
∧-identityʳ true = refl
∧-identity : Identity true _∧_
∧-identity = ∧-identityˡ , ∧-identityʳ
∧-zeroˡ : LeftZero false _∧_
∧-zeroˡ _ = refl
∧-zeroʳ : RightZero false _∧_
∧-zeroʳ false = refl
∧-zeroʳ true = refl
∧-zero : Zero false _∧_
∧-zero = ∧-zeroˡ , ∧-zeroʳ
∧-inverseˡ : LeftInverse false not _∧_
∧-inverseˡ false = refl
∧-inverseˡ true = refl
∧-inverseʳ : RightInverse false not _∧_
∧-inverseʳ x = ∧-comm x (not x) ⟨ trans ⟩ ∧-inverseˡ x
∧-inverse : Inverse false not _∧_
∧-inverse = ∧-inverseˡ , ∧-inverseʳ
∧-idem : Idempotent _∧_
∧-idem false = refl
∧-idem true = refl
∧-sel : Selective _∧_
∧-sel false y = inj₁ refl
∧-sel true y = inj₂ refl
∧-distribˡ-∨ : _∧_ DistributesOverˡ _∨_
∧-distribˡ-∨ true y z = refl
∧-distribˡ-∨ false y z = refl
∧-distribʳ-∨ : _∧_ DistributesOverʳ _∨_
∧-distribʳ-∨ x y z = begin
(y ∨ z) ∧ x ≡⟨ ∧-comm (y ∨ z) x ⟩
x ∧ (y ∨ z) ≡⟨ ∧-distribˡ-∨ x y z ⟩
x ∧ y ∨ x ∧ z ≡⟨ cong₂ _∨_ (∧-comm x y) (∧-comm x z) ⟩
y ∧ x ∨ z ∧ x ∎
∧-distrib-∨ : _∧_ DistributesOver _∨_
∧-distrib-∨ = ∧-distribˡ-∨ , ∧-distribʳ-∨
∨-distribˡ-∧ : _∨_ DistributesOverˡ _∧_
∨-distribˡ-∧ true y z = refl
∨-distribˡ-∧ false y z = refl
∨-distribʳ-∧ : _∨_ DistributesOverʳ _∧_
∨-distribʳ-∧ x y z = begin
(y ∧ z) ∨ x ≡⟨ ∨-comm (y ∧ z) x ⟩
x ∨ (y ∧ z) ≡⟨ ∨-distribˡ-∧ x y z ⟩
(x ∨ y) ∧ (x ∨ z) ≡⟨ cong₂ _∧_ (∨-comm x y) (∨-comm x z) ⟩
(y ∨ x) ∧ (z ∨ x) ∎
∨-distrib-∧ : _∨_ DistributesOver _∧_
∨-distrib-∧ = ∨-distribˡ-∧ , ∨-distribʳ-∧
∧-abs-∨ : _∧_ Absorbs _∨_
∧-abs-∨ true y = refl
∧-abs-∨ false y = refl
∨-abs-∧ : _∨_ Absorbs _∧_
∨-abs-∧ true y = refl
∨-abs-∧ false y = refl
∨-∧-absorptive : Absorptive _∨_ _∧_
∨-∧-absorptive = ∨-abs-∧ , ∧-abs-∨
∧-isMagma : IsMagma _∧_
∧-isMagma = record
{ isEquivalence = isEquivalence
; ∙-cong = cong₂ _∧_
}
∧-magma : Magma 0ℓ 0ℓ
∧-magma = record
{ isMagma = ∧-isMagma
}
∧-isSemigroup : IsSemigroup _∧_
∧-isSemigroup = record
{ isMagma = ∧-isMagma
; assoc = ∧-assoc
}
∧-semigroup : Semigroup 0ℓ 0ℓ
∧-semigroup = record
{ isSemigroup = ∧-isSemigroup
}
∧-isBand : IsBand _∧_
∧-isBand = record
{ isSemigroup = ∧-isSemigroup
; idem = ∧-idem
}
∧-band : Band 0ℓ 0ℓ
∧-band = record
{ isBand = ∧-isBand
}
∧-isSemilattice : IsSemilattice _∧_
∧-isSemilattice = record
{ isBand = ∧-isBand
; comm = ∧-comm
}
∧-semilattice : Semilattice 0ℓ 0ℓ
∧-semilattice = record
{ isSemilattice = ∧-isSemilattice
}
∧-isCommutativeMonoid : IsCommutativeMonoid _∧_ true
∧-isCommutativeMonoid = record
{ isSemigroup = ∧-isSemigroup
; identityˡ = ∧-identityˡ
; comm = ∧-comm
}
∧-commutativeMonoid : CommutativeMonoid 0ℓ 0ℓ
∧-commutativeMonoid = record
{ isCommutativeMonoid = ∧-isCommutativeMonoid
}
∧-isIdempotentCommutativeMonoid :
IsIdempotentCommutativeMonoid _∧_ true
∧-isIdempotentCommutativeMonoid = record
{ isCommutativeMonoid = ∧-isCommutativeMonoid
; idem = ∧-idem
}
∧-idempotentCommutativeMonoid : IdempotentCommutativeMonoid 0ℓ 0ℓ
∧-idempotentCommutativeMonoid = record
{ isIdempotentCommutativeMonoid = ∧-isIdempotentCommutativeMonoid
}
∨-∧-isCommutativeSemiring
: IsCommutativeSemiring _∨_ _∧_ false true
∨-∧-isCommutativeSemiring = record
{ +-isCommutativeMonoid = ∨-isCommutativeMonoid
; *-isCommutativeMonoid = ∧-isCommutativeMonoid
; distribʳ = ∧-distribʳ-∨
; zeroˡ = ∧-zeroˡ
}
∨-∧-commutativeSemiring : CommutativeSemiring 0ℓ 0ℓ
∨-∧-commutativeSemiring = record
{ _+_ = _∨_
; _*_ = _∧_
; 0# = false
; 1# = true
; isCommutativeSemiring = ∨-∧-isCommutativeSemiring
}
∧-∨-isCommutativeSemiring
: IsCommutativeSemiring _∧_ _∨_ true false
∧-∨-isCommutativeSemiring = record
{ +-isCommutativeMonoid = ∧-isCommutativeMonoid
; *-isCommutativeMonoid = ∨-isCommutativeMonoid
; distribʳ = ∨-distribʳ-∧
; zeroˡ = ∨-zeroˡ
}
∧-∨-commutativeSemiring : CommutativeSemiring 0ℓ 0ℓ
∧-∨-commutativeSemiring = record
{ _+_ = _∧_
; _*_ = _∨_
; 0# = true
; 1# = false
; isCommutativeSemiring = ∧-∨-isCommutativeSemiring
}
∨-∧-isLattice : IsLattice _∨_ _∧_
∨-∧-isLattice = record
{ isEquivalence = isEquivalence
; ∨-comm = ∨-comm
; ∨-assoc = ∨-assoc
; ∨-cong = cong₂ _∨_
; ∧-comm = ∧-comm
; ∧-assoc = ∧-assoc
; ∧-cong = cong₂ _∧_
; absorptive = ∨-∧-absorptive
}
∨-∧-lattice : Lattice 0ℓ 0ℓ
∨-∧-lattice = record
{ isLattice = ∨-∧-isLattice
}
∨-∧-isDistributiveLattice : IsDistributiveLattice _∨_ _∧_
∨-∧-isDistributiveLattice = record
{ isLattice = ∨-∧-isLattice
; ∨-distribʳ-∧ = ∨-distribʳ-∧
}
∨-∧-distributiveLattice : DistributiveLattice 0ℓ 0ℓ
∨-∧-distributiveLattice = record
{ isDistributiveLattice = ∨-∧-isDistributiveLattice
}
∨-∧-isBooleanAlgebra : IsBooleanAlgebra _∨_ _∧_ not true false
∨-∧-isBooleanAlgebra = record
{ isDistributiveLattice = ∨-∧-isDistributiveLattice
; ∨-complementʳ = ∨-inverseʳ
; ∧-complementʳ = ∧-inverseʳ
; ¬-cong = cong not
}
∨-∧-booleanAlgebra : BooleanAlgebra 0ℓ 0ℓ
∨-∧-booleanAlgebra = record
{ isBooleanAlgebra = ∨-∧-isBooleanAlgebra
}
xor-is-ok : ∀ x y → x xor y ≡ (x ∨ y) ∧ not (x ∧ y)
xor-is-ok true y = refl
xor-is-ok false y = sym (∧-identityʳ _)
xor-∧-commutativeRing : CommutativeRing 0ℓ 0ℓ
xor-∧-commutativeRing = commutativeRing
where
import Algebra.Properties.BooleanAlgebra as BA
open BA ∨-∧-booleanAlgebra
open XorRing _xor_ xor-is-ok
not-involutive : Involutive not
not-involutive true = refl
not-involutive false = refl
not-¬ : ∀ {x y} → x ≡ y → x ≢ not y
not-¬ {true} refl ()
not-¬ {false} refl ()
¬-not : ∀ {x y} → x ≢ y → x ≡ not y
¬-not {true} {true} x≢y = ⊥-elim (x≢y refl)
¬-not {true} {false} _ = refl
¬-not {false} {true} _ = refl
¬-not {false} {false} x≢y = ⊥-elim (x≢y refl)
⇔→≡ : {x y z : Bool} → x ≡ z ⇔ y ≡ z → x ≡ y
⇔→≡ {true } {true } hyp = refl
⇔→≡ {true } {false} {true } hyp = sym (Equivalence.to hyp ⟨$⟩ refl)
⇔→≡ {true } {false} {false} hyp = Equivalence.from hyp ⟨$⟩ refl
⇔→≡ {false} {true } {true } hyp = Equivalence.from hyp ⟨$⟩ refl
⇔→≡ {false} {true } {false} hyp = sym (Equivalence.to hyp ⟨$⟩ refl)
⇔→≡ {false} {false} hyp = refl
T-≡ : ∀ {x} → T x ⇔ x ≡ true
T-≡ {false} = equivalence (λ ()) (λ ())
T-≡ {true} = equivalence (const refl) (const _)
T-not-≡ : ∀ {x} → T (not x) ⇔ x ≡ false
T-not-≡ {false} = equivalence (const refl) (const _)
T-not-≡ {true} = equivalence (λ ()) (λ ())
T-∧ : ∀ {x y} → T (x ∧ y) ⇔ (T x × T y)
T-∧ {true} {true} = equivalence (const (_ , _)) (const _)
T-∧ {true} {false} = equivalence (λ ()) proj₂
T-∧ {false} {_} = equivalence (λ ()) proj₁
T-∨ : ∀ {x y} → T (x ∨ y) ⇔ (T x ⊎ T y)
T-∨ {true} {_} = equivalence inj₁ (const _)
T-∨ {false} {true} = equivalence inj₂ (const _)
T-∨ {false} {false} = equivalence inj₁ [ id , id ]
T-irrelevant : U.Irrelevant T
T-irrelevant {true} _ _ = refl
T? : U.Decidable T
T? true = yes _
T? false = no (λ ())
T?-diag : ∀ b → T b → True (T? b)
T?-diag true _ = _
push-function-into-if : ∀ (f : A → B) x {y z} →
f (if x then y else z) ≡ (if x then f y else f z)
push-function-into-if _ true = refl
push-function-into-if _ false = refl
∧-∨-distˡ = ∧-distribˡ-∨
{-# WARNING_ON_USAGE ∧-∨-distˡ
"Warning: ∧-∨-distˡ was deprecated in v0.15.
Please use ∧-distribˡ-∨ instead."
#-}
∧-∨-distʳ = ∧-distribʳ-∨
{-# WARNING_ON_USAGE ∧-∨-distʳ
"Warning: ∧-∨-distʳ was deprecated in v0.15.
Please use ∧-distribʳ-∨ instead."
#-}
distrib-∧-∨ = ∧-distrib-∨
{-# WARNING_ON_USAGE distrib-∧-∨
"Warning: distrib-∧-∨ was deprecated in v0.15.
Please use ∧-distrib-∨ instead."
#-}
∨-∧-distˡ = ∨-distribˡ-∧
{-# WARNING_ON_USAGE ∨-∧-distˡ
"Warning: ∨-∧-distˡ was deprecated in v0.15.
Please use ∨-distribˡ-∧ instead."
#-}
∨-∧-distʳ = ∨-distribʳ-∧
{-# WARNING_ON_USAGE ∨-∧-distʳ
"Warning: ∨-∧-distʳ was deprecated in v0.15.
Please use ∨-distribʳ-∧ instead."
#-}
∨-∧-distrib = ∨-distrib-∧
{-# WARNING_ON_USAGE ∨-∧-distrib
"Warning: ∨-∧-distrib was deprecated in v0.15.
Please use ∨-distrib-∧ instead."
#-}
∨-∧-abs = ∨-abs-∧
{-# WARNING_ON_USAGE ∨-∧-abs
"Warning: ∨-∧-abs was deprecated in v0.15.
Please use ∨-abs-∧ instead."
#-}
∧-∨-abs = ∧-abs-∨
{-# WARNING_ON_USAGE ∧-∨-abs
"Warning: ∧-∨-abs was deprecated in v0.15.
Please use ∧-abs-∨ instead."
#-}
not-∧-inverseˡ = ∧-inverseˡ
{-# WARNING_ON_USAGE not-∧-inverseˡ
"Warning: not-∧-inverseˡ was deprecated in v0.15.
Please use ∧-inverseˡ instead."
#-}
not-∧-inverseʳ = ∧-inverseʳ
{-# WARNING_ON_USAGE not-∧-inverseʳ
"Warning: not-∧-inverseʳ was deprecated in v0.15.
Please use ∧-inverseʳ instead."
#-}
not-∧-inverse = ∧-inverse
{-# WARNING_ON_USAGE not-∧-inverse
"Warning: not-∧-inverse was deprecated in v0.15.
Please use ∧-inverse instead."
#-}
not-∨-inverseˡ = ∨-inverseˡ
{-# WARNING_ON_USAGE not-∨-inverseˡ
"Warning: not-∨-inverseˡ was deprecated in v0.15.
Please use ∨-inverseˡ instead."
#-}
not-∨-inverseʳ = ∨-inverseʳ
{-# WARNING_ON_USAGE not-∨-inverseʳ
"Warning: not-∨-inverseʳ was deprecated in v0.15.
Please use ∨-inverseʳ instead."
#-}
not-∨-inverse = ∨-inverse
{-# WARNING_ON_USAGE not-∨-inverse
"Warning: not-∨-inverse was deprecated in v0.15.
Please use ∨-inverse instead."
#-}
isCommutativeSemiring-∨-∧ = ∨-∧-isCommutativeSemiring
{-# WARNING_ON_USAGE isCommutativeSemiring-∨-∧
"Warning: isCommutativeSemiring-∨-∧ was deprecated in v0.15.
Please use ∨-∧-isCommutativeSemiring instead."
#-}
commutativeSemiring-∨-∧ = ∨-∧-commutativeSemiring
{-# WARNING_ON_USAGE commutativeSemiring-∨-∧
"Warning: commutativeSemiring-∨-∧ was deprecated in v0.15.
Please use ∨-∧-commutativeSemiring instead."
#-}
isCommutativeSemiring-∧-∨ = ∧-∨-isCommutativeSemiring
{-# WARNING_ON_USAGE isCommutativeSemiring-∧-∨
"Warning: isCommutativeSemiring-∧-∨ was deprecated in v0.15.
Please use ∧-∨-isCommutativeSemiring instead."
#-}
commutativeSemiring-∧-∨ = ∧-∨-commutativeSemiring
{-# WARNING_ON_USAGE commutativeSemiring-∧-∨
"Warning: commutativeSemiring-∧-∨ was deprecated in v0.15.
Please use ∧-∨-commutativeSemiring instead."
#-}
isBooleanAlgebra = ∨-∧-isBooleanAlgebra
{-# WARNING_ON_USAGE isBooleanAlgebra
"Warning: isBooleanAlgebra was deprecated in v0.15.
Please use ∨-∧-isBooleanAlgebra instead."
#-}
booleanAlgebra = ∨-∧-booleanAlgebra
{-# WARNING_ON_USAGE booleanAlgebra
"Warning: booleanAlgebra was deprecated in v0.15.
Please use ∨-∧-booleanAlgebra instead."
#-}
commutativeRing-xor-∧ = xor-∧-commutativeRing
{-# WARNING_ON_USAGE commutativeRing-xor-∧
"Warning: commutativeRing-xor-∧ was deprecated in v0.15.
Please use xor-∧-commutativeRing instead."
#-}
proof-irrelevance = T-irrelevant
{-# WARNING_ON_USAGE proof-irrelevance
"Warning: proof-irrelevance was deprecated in v0.15.
Please use T-irrelevant instead."
#-}
T-irrelevance = T-irrelevant
{-# WARNING_ON_USAGE T-irrelevance
"Warning: T-irrelevance was deprecated in v1.0.
Please use T-irrelevant instead."
#-}