The category of distributive lattices #

This file defines DistLat, the category of distributive lattices.

Note that DistLat in the literature doesn't always correspond to DistLat as we don't require bottom or top elements. Instead, this DistLat corresponds to BddDistLat.

source

def DistLat :

Type (u_1 + 1)

The category of distributive lattices.

Equations

DistLat = CategoryTheory.Bundled DistribLattice

Instances For

source

instance DistLat.instCoeSortDistLatType :

CoeSort DistLat (Type u_1)

Equations

DistLat.instCoeSortDistLatType = CategoryTheory.Bundled.coeSort

source

instance DistLat.instDistribLatticeα (X : DistLat) :

DistribLattice ↑X

Equations

DistLat.instDistribLatticeα X = X.str

source

def DistLat.of (α : Type u_1) [DistribLattice α] :

DistLat

Construct a bundled DistLat from a DistribLattice underlying type and typeclass.

Equations

DistLat.of α = CategoryTheory.Bundled.of α

Instances For

source

@[simp]

theorem DistLat.coe_of (α : Type u_1) [DistribLattice α] :

↑(DistLat.of α) = α

source

instance DistLat.instInhabitedDistLat :

Inhabited DistLat

Equations

DistLat.instInhabitedDistLat = { default := DistLat.of PUnit.{u_1 + 1} }

source

instance DistLat.instParentProjectionTypeLatticeDistribLatticeToLattice :

CategoryTheory.BundledHom.ParentProjection @DistribLattice.toLattice

Equations

DistLat.instParentProjectionTypeLatticeDistribLatticeToLattice = ⋯

source

instance DistLat.instConcreteCategoryDistLatInstDistLatLargeCategory :

CategoryTheory.ConcreteCategory DistLat

Equations

DistLat.instConcreteCategoryDistLatInstDistLatLargeCategory = CategoryTheory.BundledHom.concreteCategory (CategoryTheory.BundledHom.MapHom LatticeHom @DistribLattice.toLattice)

source

instance DistLat.hasForgetToLat :

CategoryTheory.HasForget₂ DistLat Lat

Equations

DistLat.hasForgetToLat = CategoryTheory.BundledHom.forget₂ LatticeHom @DistribLattice.toLattice

source

@[simp]

theorem DistLat.Iso.mk_inv_toSupHom_toFun {α : DistLat} {β : DistLat} (e : ↑α ≃o ↑β) (a : ↑β) :

(DistLat.Iso.mk e).inv.toSupHom a = (OrderIso.symm e) a

source

@[simp]

theorem DistLat.Iso.mk_hom_toSupHom_toFun {α : DistLat} {β : DistLat} (e : ↑α ≃o ↑β) (a : ↑α) :

(DistLat.Iso.mk e).hom.toSupHom a = e a

source

def DistLat.Iso.mk {α : DistLat} {β : DistLat} (e : ↑α ≃o ↑β) :

α ≅ β

Constructs an equivalence between distributive lattices from an order isomorphism between them.

Equations

One or more equations did not get rendered due to their size.

Instances For

source

@[simp]

theorem DistLat.dual_map :

∀ {X Y : DistLat} (a : LatticeHom ↑X ↑Y), DistLat.dual.map a = LatticeHom.dual a

source

@[simp]

theorem DistLat.dual_obj (X : DistLat) :

DistLat.dual.obj X = DistLat.of (↑X)ᵒᵈ

source

def DistLat.dual :

CategoryTheory.Functor DistLat DistLat

OrderDual as a functor.

Equations

One or more equations did not get rendered due to their size.

Instances For

source

@[simp]

theorem DistLat.dualEquiv_functor :

DistLat.dualEquiv.functor = DistLat.dual

source

@[simp]

theorem DistLat.dualEquiv_inverse :

DistLat.dualEquiv.inverse = DistLat.dual

source

def DistLat.dualEquiv :

DistLat ≌ DistLat

The equivalence between DistLat and itself induced by OrderDual both ways.

Equations

One or more equations did not get rendered due to their size.

Instances For

source

theorem distLat_dual_comp_forget_to_Lat :

CategoryTheory.Functor.comp DistLat.dual (CategoryTheory.forget₂ DistLat Lat) = CategoryTheory.Functor.comp (CategoryTheory.forget₂ DistLat Lat) Lat.dual

Documentation

Mathlib.Order.Category.DistLat

The category of distributive lattices #