Building finitely supported functions off finsets #
This file defines Finsupp.indicator
to help create finsupps from finsets.
Main declarations #
Finsupp.indicator
: Turns a map from aFinset
into aFinsupp
from the entire type.
theorem
Finsupp.indicator_of_mem
{ι : Type u_1}
{α : Type u_2}
[Zero α]
{s : Finset ι}
{i : ι}
(hi : i ∈ s)
(f : (i : ι) → i ∈ s → α)
:
↑(Finsupp.indicator s f) i = f i hi
@[simp]
theorem
Finsupp.indicator_apply
{ι : Type u_1}
{α : Type u_2}
[Zero α]
(s : Finset ι)
(f : (i : ι) → i ∈ s → α)
(i : ι)
[DecidableEq ι]
:
↑(Finsupp.indicator s f) i = if hi : i ∈ s then f i hi else 0
theorem
Finsupp.indicator_injective
{ι : Type u_1}
{α : Type u_2}
[Zero α]
(s : Finset ι)
:
Function.Injective fun f => Finsupp.indicator s f
theorem
Finsupp.support_indicator_subset
{ι : Type u_1}
{α : Type u_2}
[Zero α]
(s : Finset ι)
(f : (i : ι) → i ∈ s → α)
:
↑(Finsupp.indicator s f).support ⊆ ↑s
theorem
Finsupp.single_eq_indicator
{ι : Type u_1}
{α : Type u_2}
[Zero α]
(i : ι)
(b : α)
:
Finsupp.single i b = Finsupp.indicator {i} fun x x => b