The explicit sheaf condition for light condensed sets #
We give explicit description of light condensed sets:
LightCondensed.ofSheafLightProfinite
: A finite-product-preserving presheaf onLightProfinite
, satisfyingEqualizerCondition
.
The property EqualizerCondition
is defined in Mathlib/CategoryTheory/Sites/RegularExtensive.lean
and it says that for any effective epi X ⟶ B
(in this case that is equivalent to being a
continuous surjection), the presheaf F
exhibits F(B)
as the equalizer of the two maps
F(X) ⇉ F(X ×_B X)
We also give variants for light condensed objects in concrete categories whose forgetful functor reflects finite limits (resp. products), where it is enough to check the sheaf condition after postcomposing with the forgetful functor.
The light condensed object associated to a presheaf on LightProfinite
which preserves finite
products and satisfies the equalizer condition.
Equations
- LightCondensed.ofSheafLightProfinite F hF = { val := F, cond := ⋯ }
Instances For
The light condensed object associated to a presheaf on LightProfinite
whose postcomposition with
the forgetful functor preserves finite products and satisfies the equalizer condition.
Equations
- LightCondensed.ofSheafForgetLightProfinite F hF = { val := F, cond := ⋯ }
Instances For
A light condensed object satisfies the equalizer condition.
A light condensed object preserves finite products.
Equations
- ⋯ = ⋯
A LightCondSet
version of LightCondensed.ofSheafLightProfinite
.
Equations
Instances For
A LightCondAb
version of LightCondensed.ofSheafLightProfinite
.
Equations
Instances For
A LightCondAb
version of LightCondensed.ofSheafLightProfinite
.