Specialization order #

This file defines a type synonym for a topological space considered with its specialisation order.

source

def Specialization (α : Type u_1) :

Type u_1

Type synonym for a topological space considered with its specialisation order.

Equations

Instances For

source

@[match_pattern]

def Specialization.toEquiv {α : Type u_1} :

α ≃ Specialization α

toEquiv is the "identity" function to the Specialization of a type.

Equations

Instances For

source

@[match_pattern]

def Specialization.ofEquiv {α : Type u_1} :

Specialization α ≃ α

ofEquiv is the identity function from the Specialization of a type.

Equations

Instances For

source

@[simp]

theorem Specialization.toEquiv_symm {α : Type u_1} :

toEquiv.symm = ofEquiv

source

@[simp]

theorem Specialization.ofEquiv_symm {α : Type u_1} :

ofEquiv.symm = toEquiv

source

@[simp]

theorem Specialization.toEquiv_ofEquiv {α : Type u_1} (a : Specialization α) :

toEquiv (ofEquiv a) = a

source

@[simp]

theorem Specialization.ofEquiv_toEquiv {α : Type u_1} (a : α) :

ofEquiv (toEquiv a) = a

source

@[simp]

theorem Specialization.toEquiv_inj {α : Type u_1} {a b : α} :

toEquiv a = toEquiv b ↔ a = b

source

@[simp]

theorem Specialization.ofEquiv_inj {α : Type u_1} {a b : Specialization α} :

ofEquiv a = ofEquiv b ↔ a = b

source

def Specialization.rec {α : Type u_1} {β : Specialization α → Sort u_4} (h : (a : α) → β (toEquiv a)) (a : Specialization α) :

β a

A recursor for Specialization. Use as induction x.

Equations

Instances For

source

instance Specialization.instPreorder {α : Type u_1} [TopologicalSpace α] :

Preorder (Specialization α)

Equations

source

instance Specialization.instPartialOrder {α : Type u_1} [TopologicalSpace α] [T0Space α] :

PartialOrder (Specialization α)

Equations

source

@[simp]

theorem Specialization.toEquiv_le_toEquiv {α : Type u_1} [TopologicalSpace α] {a b : α} :

toEquiv a ≤ toEquiv b ↔ b ⤳ a

source

@[simp]

theorem Specialization.ofEquiv_specializes_ofEquiv {α : Type u_1} [TopologicalSpace α] {a b : Specialization α} :

ofEquiv a ⤳ ofEquiv b ↔ b ≤ a

source

@[simp]

theorem Specialization.isOpen_toEquiv_preimage {α : Type u_1} [TopologicalSpace α] [AlexandrovDiscrete α] {s : Set (Specialization α)} :

IsOpen (⇑toEquiv ⁻¹' s) ↔ IsUpperSet s

source

@[simp]

theorem Specialization.isUpperSet_ofEquiv_preimage {α : Type u_1} [TopologicalSpace α] [AlexandrovDiscrete α] {s : Set α} :

IsUpperSet (⇑ofEquiv ⁻¹' s) ↔ IsOpen s

source

def Specialization.map {α : Type u_1} {β : Type u_2} [TopologicalSpace α] [TopologicalSpace β] (f : C(α, β)) :

Specialization α →o Specialization β

A continuous map between topological spaces induces a monotone map between their specialization orders.

Equations

Instances For

source

@[simp]

theorem Specialization.map_id {α : Type u_1} [TopologicalSpace α] :

map (ContinuousMap.id α) = OrderHom.id

source

@[simp]

theorem Specialization.map_comp {α : Type u_1} {β : Type u_2} {γ : Type u_3} [TopologicalSpace α] [TopologicalSpace β] [TopologicalSpace γ] (g : C(β, γ)) (f : C(α, β)) :

map (g.comp f) = (map g).comp (map f)

source

def orderIsoSpecializationWithUpperSetTopology (α : Type u_1) [Preorder α] :

α ≃o Specialization (Topology.WithUpperSet α)

A preorder is isomorphic to the specialisation order of its upper set topology.

Equations

Instances For

source

def homeoWithUpperSetTopologyorderIso (α : Type u_1) [TopologicalSpace α] [AlexandrovDiscrete α] :

α ≃ₜ Topology.WithUpperSet (Specialization α)

An Alexandrov-discrete space is isomorphic to the upper set topology of its specialisation order.

Equations

Instances For

source

def topToPreord :

CategoryTheory.Functor TopCat Preord

Sends a topological space to its specialisation order.

Equations

Instances For

source

@[simp]

theorem topToPreord_obj_coe (X : TopCat) :

↑(topToPreord.obj X) = Specialization ↑X

source

@[simp]

theorem topToPreord_map {X✝ Y✝ : TopCat} (f : X✝ ⟶ Y✝) :

topToPreord.map f = Preord.ofHom (Specialization.map (TopCat.Hom.hom f))

Documentation

Mathlib.Topology.Specialization

Specialization order #