Documentation

Mathlib.Data.Set.Finite.Range

Finiteness of Set.range #

Implementation notes #

Each result in this file should come in three forms: a Fintype instance, a Finite instance and a Set.Finite constructor.

Tags #

finite sets

Fintype instances #

Every instance here should have a corresponding Set.Finite constructor in the next section.

instance Set.fintypeRange {α : Type u} {ι : Sort w} [DecidableEq α] (f : ια) [Fintype (PLift ι)] :
Equations

Finite instances #

There is seemingly some overlap between the following instances and the Fintype instances in Data.Set.Finite. While every Fintype instance gives a Finite instance, those instances that depend on Fintype or Decidable instances need an additional Finite instance to be able to generally apply.

Some set instances do not appear here since they are consequences of others, for example Subtype.Finite for subsets of a finite type.

theorem Finite.Set.finite_range {α : Type u} {ι : Sort w} (f : ια) [Finite ι] :
theorem Finite.Set.finite_replacement {α : Type u} {β : Type v} [Finite α] (f : αβ) :
Finite {x : β | ∃ (x_1 : α), f x_1 = x}

Constructors for Set.Finite #

Every constructor here should have a corresponding Fintype instance in the previous section (or in the Fintype module).

The implementation of these constructors ideally should be no more than Set.toFinite, after possibly setting up some Fintype and classical Decidable instances.

theorem Set.finite_range {α : Type u} {ι : Sort w} (f : ια) [Finite ι] :
(Set.range f).Finite
theorem Set.Finite.dependent_image {α : Type u} {β : Type v} {s : Set α} (hs : s.Finite) (F : (i : α) → i sβ) :
{y : β | ∃ (x : α) (hx : x s), F x hx = y}.Finite