Open sets #
Summary #
We define the subtype of open sets in a topological space.
Main Definitions #
Bundled open sets #
TopologicalSpace.Opens α
is the type of open subsets of a topological spaceα
.TopologicalSpace.Opens.IsBasis
is a predicate saying that a set ofopens
s form a topological basis.TopologicalSpace.Opens.comap
: preimage of an open set under a continuous map as aFrameHom
.Homeomorph.opensCongr
: order-preserving equivalence between open sets in the domain and the codomain of a homeomorphism.
Bundled open neighborhoods #
TopologicalSpace.OpenNhdsOf x
is the type of open subsets of a topological spaceα
containingx : α
.TopologicalSpace.OpenNhdsOf.comap f x U
is the preimage of open neighborhoodU
off x
underf : C(α, β)
.
Main results #
We define order structures on both opens α
(complete_structure
, frame
) and open_nhds_of x
(OrderTop
, DistribLattice
).
TODO #
- Rename
TopologicalSpace.Opens
toOpen
? - Port the
auto_cases
tactic version (as a plugin if the portedauto_cases
will allow plugins).
The type of open subsets of a topological space.
- carrier : Set α
The underlying set of a bundled
TopologicalSpace.Opens
object. - is_open' : IsOpen self.carrier
The
TopologicalSpace.Opens.carrier _
is an open set.
Instances For
Equations
- TopologicalSpace.Opens.instSetLikeOpens = { coe := TopologicalSpace.Opens.carrier, coe_injective' := (_ : ∀ (x x_1 : TopologicalSpace.Opens α), x.carrier = x_1.carrier → x = x_1) }
Equations
- (_ : CanLift (Set α) (TopologicalSpace.Opens α) SetLike.coe IsOpen) = (_ : CanLift (Set α) (TopologicalSpace.Opens α) SetLike.coe IsOpen)
the coercion Opens α → Set α
applied to a pair is the same as taking the first component
See Note [custom simps projection].
Equations
Instances For
The interior of a set, as an element of Opens
.
Equations
- TopologicalSpace.Opens.interior s = { carrier := interior s, is_open' := (_ : IsOpen (interior s)) }
Instances For
The galois coinsertion between sets and opens.
Equations
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Instances For
Equations
- One or more equations did not get rendered due to their size.
Equations
- TopologicalSpace.Opens.instUniqueOpens = { toInhabited := TopologicalSpace.Opens.instInhabitedOpens, uniq := (_ : ∀ (x : TopologicalSpace.Opens α), x = default) }
Equations
- (_ : Nontrivial (TopologicalSpace.Opens α)) = (_ : Nontrivial (TopologicalSpace.Opens α))
Equations
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An open set in the indiscrete topology is either empty or the whole space.
Equations
- (_ : IsSimpleOrder (TopologicalSpace.Opens α)) = (_ : IsSimpleOrder (TopologicalSpace.Opens α))
A set of opens α
is a basis if the set of corresponding sets is a topological basis.
Equations
- TopologicalSpace.Opens.IsBasis B = TopologicalSpace.IsTopologicalBasis (SetLike.coe '' B)
Instances For
If α
has a basis consisting of compact opens, then an open set in α
is compact open iff
it is a finite union of some elements in the basis
The preimage of an open set, as an open set.
Equations
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Instances For
A homeomorphism induces an order-preserving equivalence on open sets, by taking comaps.
Equations
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Instances For
Equations
- (_ : Finite (TopologicalSpace.Opens α)) = (_ : Finite (TopologicalSpace.Opens α))
The open neighborhoods of a point. See also Opens
or nhds
.
- carrier : Set α
- is_open' : IsOpen self.carrier
- mem' : x ∈ self.carrier
The point
x
belongs to everyU : TopologicalSpace.OpenNhdsOf x
.
Instances For
Equations
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Equations
- One or more equations did not get rendered due to their size.
Equations
- TopologicalSpace.OpenNhdsOf.instOrderTopOpenNhdsOfToLEToPreorderInstPartialOrderInstSetLikeOpenNhdsOf = OrderTop.mk (_ : ∀ (x_1 : TopologicalSpace.OpenNhdsOf x), ↑x_1 ⊆ Set.univ)
Equations
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Equations
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Equations
- TopologicalSpace.OpenNhdsOf.instUniqueOpenNhdsOf = { toInhabited := TopologicalSpace.OpenNhdsOf.instInhabitedOpenNhdsOf, uniq := (_ : ∀ (U : TopologicalSpace.OpenNhdsOf x), U = default) }
Equations
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Preimage of an open neighborhood of f x
under a continuous map f
as a LatticeHom
.
Equations
- One or more equations did not get rendered due to their size.