Box additive functions #
We say that a function f : Box ι → M
from boxes in ℝⁿ
to a commutative additive monoid M
is
box additive on subboxes of I₀ : WithTop (Box ι)
if for any box J
, ↑J ≤ I₀
, and a partition
π
of J
, f J = ∑ J' in π.boxes, f J'
. We use I₀ : WithTop (Box ι)
instead of I₀ : Box ι
to
use the same definition for functions box additive on subboxes of a box and for functions box
additive on all boxes.
Examples of box-additive functions include the measure of a box and the integral of a fixed integrable function over a box.
In this file we define box-additive functions and prove that a function such that
f J = f (J ∩ {x | x i < y}) + f (J ∩ {x | y ≤ x i})
is box-additive.
Tags #
rectangular box, additive function
A function on Box ι
is called box additive if for every box J
and a partition π
of J
we have f J = ∑ Ji in π.boxes, f Ji
. A function is called box additive on subboxes of I : Box ι
if the same property holds for J ≤ I
. We formalize these two notions in the same definition
using I : WithBot (Box ι)
: the value I = ⊤
corresponds to functions box additive on the whole
space.
- toFun : BoxIntegral.Box ι → M
- sum_partition_boxes' : ∀ (J : BoxIntegral.Box ι), ↑J ≤ I → ∀ (π : BoxIntegral.Prepartition J), BoxIntegral.Prepartition.IsPartition π → (Finset.sum π.boxes fun (Ji : BoxIntegral.Box ι) => self.toFun Ji) = self.toFun J
Instances For
A function on Box ι
is called box additive if for every box J
and a partition π
of J
we have f J = ∑ Ji in π.boxes, f Ji
.
Equations
- BoxIntegral.«term_→ᵇᵃ_» = Lean.ParserDescr.trailingNode `BoxIntegral.term_→ᵇᵃ_ 25 0 (Lean.ParserDescr.binary `andthen (Lean.ParserDescr.symbol " →ᵇᵃ ") (Lean.ParserDescr.cat `term 0))
Instances For
A function on Box ι
is called box additive if for every box J
and a partition π
of J
we have f J = ∑ Ji in π.boxes, f Ji
. A function is called box additive on subboxes of I : Box ι
if the same property holds for J ≤ I
. We formalize these two notions in the same definition
using I : WithBot (Box ι)
: the value I = ⊤
corresponds to functions box additive on the whole
space.
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Instances For
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Equations
- BoxIntegral.BoxAdditiveMap.instInhabitedBoxAdditiveMap = { default := 0 }
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If f
is box-additive on subboxes of I₀
, then it is box-additive on subboxes of any
I ≤ I₀
.
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Instances For
If f : Box ι → M
is box additive on partitions of the form split I i x
, then it is box
additive.
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Instances For
If g : M → N
is an additive map and f
is a box additive map, then g ∘ f
is a box additive
map.
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Instances For
If f
is a box additive function on subboxes of I
and π₁
, π₂
are two prepartitions of
I
that cover the same part of I
, then ∑ J in π₁.boxes, f J = ∑ J in π₂.boxes, f J
.
If f
is a box-additive map, then so is the map sending I
to the scalar multiplication
by f I
as a continuous linear map from E
to itself.
Equations
Instances For
Given a box I₀
in ℝⁿ⁺¹
, f x : Box (Fin n) → G
is a family of functions indexed by a real
x
and for x ∈ [I₀.lower i, I₀.upper i]
, f x
is box-additive on subboxes of the i
-th face of
I₀
, then fun J ↦ f (J.upper i) (J.face i) - f (J.lower i) (J.face i)
is box-additive on subboxes
of I₀
.
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