Counting measure #
In this file we define the counting measure MeasurTheory.Measure.count
as MeasureTheory.Measure.sum MeasureTheory.Measure.dirac
and prove basic properties of this measure.
Counting measure on any measurable space.
Equations
- MeasureTheory.Measure.count = MeasureTheory.Measure.sum MeasureTheory.Measure.dirac
Instances For
theorem
MeasureTheory.Measure.le_count_apply
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
:
∑' (x : ↑s), 1 ≤ ↑↑MeasureTheory.Measure.count s
theorem
MeasureTheory.Measure.count_apply
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(hs : MeasurableSet s)
:
↑↑MeasureTheory.Measure.count s = ∑' (i : ↑s), 1
@[simp]
theorem
MeasureTheory.Measure.count_apply_finset'
{α : Type u_1}
[MeasurableSpace α]
{s : Finset α}
(s_mble : MeasurableSet ↑s)
:
↑↑MeasureTheory.Measure.count ↑s = ↑s.card
@[simp]
theorem
MeasureTheory.Measure.count_apply_finset
{α : Type u_1}
[MeasurableSpace α]
[MeasurableSingletonClass α]
(s : Finset α)
:
↑↑MeasureTheory.Measure.count ↑s = ↑s.card
theorem
MeasureTheory.Measure.count_apply_finite'
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(s_fin : Set.Finite s)
(s_mble : MeasurableSet s)
:
↑↑MeasureTheory.Measure.count s = ↑(Set.Finite.toFinset s_fin).card
theorem
MeasureTheory.Measure.count_apply_finite
{α : Type u_1}
[MeasurableSpace α]
[MeasurableSingletonClass α]
(s : Set α)
(hs : Set.Finite s)
:
↑↑MeasureTheory.Measure.count s = ↑(Set.Finite.toFinset hs).card
theorem
MeasureTheory.Measure.count_apply_infinite
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(hs : Set.Infinite s)
:
count
measure evaluates to infinity at infinite sets.
@[simp]
theorem
MeasureTheory.Measure.count_apply_eq_top'
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(s_mble : MeasurableSet s)
:
↑↑MeasureTheory.Measure.count s = ⊤ ↔ Set.Infinite s
@[simp]
theorem
MeasureTheory.Measure.count_apply_eq_top
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
[MeasurableSingletonClass α]
:
↑↑MeasureTheory.Measure.count s = ⊤ ↔ Set.Infinite s
@[simp]
theorem
MeasureTheory.Measure.count_apply_lt_top'
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(s_mble : MeasurableSet s)
:
↑↑MeasureTheory.Measure.count s < ⊤ ↔ Set.Finite s
@[simp]
theorem
MeasureTheory.Measure.count_apply_lt_top
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
[MeasurableSingletonClass α]
:
↑↑MeasureTheory.Measure.count s < ⊤ ↔ Set.Finite s
theorem
MeasureTheory.Measure.empty_of_count_eq_zero'
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(s_mble : MeasurableSet s)
(hsc : ↑↑MeasureTheory.Measure.count s = 0)
:
theorem
MeasureTheory.Measure.empty_of_count_eq_zero
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
[MeasurableSingletonClass α]
(hsc : ↑↑MeasureTheory.Measure.count s = 0)
:
@[simp]
theorem
MeasureTheory.Measure.count_eq_zero_iff'
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(s_mble : MeasurableSet s)
:
@[simp]
theorem
MeasureTheory.Measure.count_eq_zero_iff
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
[MeasurableSingletonClass α]
:
theorem
MeasureTheory.Measure.count_ne_zero'
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
(hs' : Set.Nonempty s)
(s_mble : MeasurableSet s)
:
↑↑MeasureTheory.Measure.count s ≠ 0
theorem
MeasureTheory.Measure.count_ne_zero
{α : Type u_1}
[MeasurableSpace α]
{s : Set α}
[MeasurableSingletonClass α]
(hs' : Set.Nonempty s)
:
↑↑MeasureTheory.Measure.count s ≠ 0
@[simp]
theorem
MeasureTheory.Measure.count_singleton'
{α : Type u_1}
[MeasurableSpace α]
{a : α}
(ha : MeasurableSet {a})
:
↑↑MeasureTheory.Measure.count {a} = 1
theorem
MeasureTheory.Measure.count_singleton
{α : Type u_1}
[MeasurableSpace α]
[MeasurableSingletonClass α]
(a : α)
:
↑↑MeasureTheory.Measure.count {a} = 1
theorem
MeasureTheory.Measure.count_injective_image'
{α : Type u_2}
{β : Type u_1}
[MeasurableSpace α]
[MeasurableSpace β]
{f : β → α}
(hf : Function.Injective f)
{s : Set β}
(s_mble : MeasurableSet s)
(fs_mble : MeasurableSet (f '' s))
:
theorem
MeasureTheory.Measure.count_injective_image
{α : Type u_1}
{β : Type u_2}
[MeasurableSpace α]
[MeasurableSpace β]
[MeasurableSingletonClass α]
[MeasurableSingletonClass β]
{f : β → α}
(hf : Function.Injective f)
(s : Set β)
:
instance
MeasureTheory.Measure.count.isFiniteMeasure
{α : Type u_1}
[MeasurableSpace α]
[Finite α]
:
MeasureTheory.IsFiniteMeasure MeasureTheory.Measure.count
Equations
- ⋯ = ⋯