Kleene Algebras #
This file defines idempotent semirings and Kleene algebras, which are used extensively in the theory of computation.
An idempotent semiring is a semiring whose addition is idempotent. An idempotent semiring is
naturally a semilattice by setting a ≤ b
if a + b = b
.
A Kleene algebra is an idempotent semiring equipped with an additional unary operator ∗
, the
Kleene star.
Main declarations #
IdemSemiring
: Idempotent semiringIdemCommSemiring
: Idempotent commutative semiringKleeneAlgebra
: Kleene algebra
Notation #
a∗
is notation for kstar a
in locale Computability
.
References #
- [D. Kozen, A completeness theorem for Kleene algebras and the algebra of regular events] [kozen1994]
- https://planetmath.org/idempotentsemiring
- https://encyclopediaofmath.org/wiki/Idempotent_semi-ring
- https://planetmath.org/kleene_algebra
TODO #
Instances for AddOpposite
, MulOpposite
, ULift
, Subsemiring
, Subring
, Subalgebra
.
Tags #
kleene algebra, idempotent semiring
- add : α → α → α
- zero : α
- nsmul : ℕ → α → α
- nsmul_zero : ∀ (x : α), AddMonoid.nsmul 0 x = 0
- nsmul_succ : ∀ (n : ℕ) (x : α), AddMonoid.nsmul (n + 1) x = x + AddMonoid.nsmul n x
- mul : α → α → α
- one : α
- natCast : ℕ → α
- natCast_zero : NatCast.natCast 0 = 0
- natCast_succ : ∀ (n : ℕ), NatCast.natCast (n + 1) = NatCast.natCast n + 1
- npow : ℕ → α → α
- npow_zero : ∀ (x : α), Semiring.npow 0 x = 1
- npow_succ : ∀ (n : ℕ) (x : α), Semiring.npow (n + 1) x = x * Semiring.npow n x
- sup : α → α → α
- le : α → α → Prop
- lt : α → α → Prop
- le_refl : ∀ (a : α), a ≤ a
- bot : α
- bot_le : ∀ (a : α), IdemSemiring.bot ≤ a
An idempotent semiring is a semiring with the additional property that addition is idempotent.
Instances
- add : α → α → α
- zero : α
- nsmul : ℕ → α → α
- nsmul_zero : ∀ (x : α), AddMonoid.nsmul 0 x = 0
- nsmul_succ : ∀ (n : ℕ) (x : α), AddMonoid.nsmul (n + 1) x = x + AddMonoid.nsmul n x
- mul : α → α → α
- one : α
- natCast : ℕ → α
- natCast_zero : NatCast.natCast 0 = 0
- natCast_succ : ∀ (n : ℕ), NatCast.natCast (n + 1) = NatCast.natCast n + 1
- npow : ℕ → α → α
- npow_zero : ∀ (x : α), Semiring.npow 0 x = 1
- npow_succ : ∀ (n : ℕ) (x : α), Semiring.npow (n + 1) x = x * Semiring.npow n x
- sup : α → α → α
- le : α → α → Prop
- lt : α → α → Prop
- le_refl : ∀ (a : α), a ≤ a
- bot : α
- bot_le : ∀ (a : α), IdemCommSemiring.bot ≤ a
An idempotent commutative semiring is a commutative semiring with the additional property that addition is idempotent.
Instances
Equations
- Computability.«term_∗» = Lean.ParserDescr.trailingNode `Computability.term_∗ 1024 1024 (Lean.ParserDescr.symbol "∗")
Instances For
- add : α → α → α
- zero : α
- nsmul : ℕ → α → α
- nsmul_zero : ∀ (x : α), AddMonoid.nsmul 0 x = 0
- nsmul_succ : ∀ (n : ℕ) (x : α), AddMonoid.nsmul (n + 1) x = x + AddMonoid.nsmul n x
- mul : α → α → α
- one : α
- natCast : ℕ → α
- natCast_zero : NatCast.natCast 0 = 0
- natCast_succ : ∀ (n : ℕ), NatCast.natCast (n + 1) = NatCast.natCast n + 1
- npow : ℕ → α → α
- npow_zero : ∀ (x : α), Semiring.npow 0 x = 1
- npow_succ : ∀ (n : ℕ) (x : α), Semiring.npow (n + 1) x = x * Semiring.npow n x
- sup : α → α → α
- le : α → α → Prop
- lt : α → α → Prop
- le_refl : ∀ (a : α), a ≤ a
- bot : α
- bot_le : ∀ (a : α), IdemSemiring.bot ≤ a
- kstar : α → α
- one_le_kstar : ∀ (a : α), 1 ≤ KStar.kstar a
- mul_kstar_le_kstar : ∀ (a : α), a * KStar.kstar a ≤ KStar.kstar a
- kstar_mul_le_kstar : ∀ (a : α), KStar.kstar a * a ≤ KStar.kstar a
- mul_kstar_le_self : ∀ (a b : α), b * a ≤ b → b * KStar.kstar a ≤ b
- kstar_mul_le_self : ∀ (a b : α), a * b ≤ b → KStar.kstar a * b ≤ b
A Kleene Algebra is an idempotent semiring with an additional unary operator kstar
(for Kleene
star) that satisfies the following properties:
1 + a * a∗ ≤ a∗
1 + a∗ * a ≤ a∗
- If
a * c + b ≤ c
, thena∗ * b ≤ c
- If
c * a + b ≤ c
, thenb * a∗ ≤ c
Instances
Equations
- IdemSemiring.toOrderBot = let src := inst; OrderBot.mk (_ : ∀ (a : α), IdemSemiring.bot ≤ a)
Construct an idempotent semiring from an idempotent addition.
Equations
- IdemSemiring.ofSemiring h = let src := inst; IdemSemiring.mk 0 (_ : ∀ (a : α), 0 + a = a)
Instances For
Alias of the reverse direction of add_eq_left_iff_le
.
Alias of the reverse direction of add_eq_right_iff_le
.
Equations
- One or more equations did not get rendered due to their size.
Equations
- Prod.instIdemSemiring = let src := Prod.instSemiring; let src_1 := Prod.semilatticeSup α β; let src_2 := Prod.orderBot α β; IdemSemiring.mk ⊥ (_ : ∀ (a : α × β), ⊥ ≤ a)
Equations
- Prod.instIdemCommSemiringProd = let src := Prod.instCommSemiring; let src_1 := Prod.instIdemSemiring; IdemCommSemiring.mk IdemSemiring.bot (_ : ∀ (a : α × β), IdemSemiring.bot ≤ a)
Equations
- One or more equations did not get rendered due to their size.
Equations
- Pi.instIdemSemiring = let src := Pi.semiring; let src_1 := Pi.semilatticeSup; let src_2 := Pi.orderBot; IdemSemiring.mk ⊥ (_ : ∀ (a : (i : ι) → π i), ⊥ ≤ a)
Equations
- Pi.instIdemCommSemiringForAll = let src := Pi.commSemiring; let src_1 := Pi.instIdemSemiring; IdemCommSemiring.mk IdemSemiring.bot (_ : ∀ (a : (i : ι) → π i), IdemSemiring.bot ≤ a)
Equations
- One or more equations did not get rendered due to their size.
Pullback an IdemSemiring
instance along an injective function.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Pullback an IdemCommSemiring
instance along an injective function.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Pullback a KleeneAlgebra
instance along an injective function.
Equations
- One or more equations did not get rendered due to their size.