Typeclasses for measurability of lattice operations #
In this file we define classes MeasurableSup
and MeasurableInf
and prove dot-style
lemmas (Measurable.sup
, AEMeasurable.sup
etc). For binary operations we define two typeclasses:
MeasurableSup
says that both left and right sup are measurable;MeasurableSup₂
says thatfun p : α × α => p.1 ⊔ p.2
is measurable,
and similarly for other binary operations. The reason for introducing these classes is that in case
of topological space α
equipped with the Borel σ
-algebra, instances for MeasurableSup₂
etc require α
to have a second countable topology.
For instances relating, e.g., ContinuousSup
to MeasurableSup
see file
MeasureTheory.BorelSpace
.
Tags #
measurable function, lattice operation
We say that a type has MeasurableSup
if (c ⊔ ·)
and (· ⊔ c)
are measurable functions.
For a typeclass assuming measurability of uncurry (· ⊔ ·)
see MeasurableSup₂
.
- measurable_const_sup : ∀ (c : M), Measurable fun (x : M) => c ⊔ x
- measurable_sup_const : ∀ (c : M), Measurable fun (x : M) => x ⊔ c
Instances
We say that a type has MeasurableSup₂
if uncurry (· ⊔ ·)
is a measurable functions.
For a typeclass assuming measurability of (c ⊔ ·)
and (· ⊔ c)
see MeasurableSup
.
- measurable_sup : Measurable fun (p : M × M) => p.1 ⊔ p.2
Instances
We say that a type has MeasurableInf
if (c ⊓ ·)
and (· ⊓ c)
are measurable functions.
For a typeclass assuming measurability of uncurry (· ⊓ ·)
see MeasurableInf₂
.
- measurable_const_inf : ∀ (c : M), Measurable fun (x : M) => c ⊓ x
- measurable_inf_const : ∀ (c : M), Measurable fun (x : M) => x ⊓ c
Instances
We say that a type has MeasurableInf₂
if uncurry (· ⊓ ·)
is a measurable functions.
For a typeclass assuming measurability of (c ⊓ ·)
and (· ⊓ c)
see MeasurableInf
.
- measurable_inf : Measurable fun (p : M × M) => p.1 ⊓ p.2
Instances
Equations
- (_ : MeasurableSup Mᵒᵈ) = (_ : MeasurableSup Mᵒᵈ)
Equations
- (_ : MeasurableInf Mᵒᵈ) = (_ : MeasurableInf Mᵒᵈ)
Equations
- (_ : MeasurableSup₂ Mᵒᵈ) = (_ : MeasurableSup₂ Mᵒᵈ)
Equations
- (_ : MeasurableInf₂ Mᵒᵈ) = (_ : MeasurableInf₂ Mᵒᵈ)
Equations
- (_ : MeasurableSup M) = (_ : MeasurableSup M)
Equations
- (_ : MeasurableInf M) = (_ : MeasurableInf M)