HepLean Documentation

Mathlib.Geometry.Manifold.LocalInvariantProperties

Local properties invariant under a groupoid #

We study properties of a triple (g, s, x) where g is a function between two spaces H and H', s is a subset of H and x is a point of H. Our goal is to register how such a property should behave to make sense in charted spaces modelled on H and H'.

The main examples we have in mind are the properties "g is differentiable at x within s", or "g is smooth at x within s". We want to develop general results that, when applied in these specific situations, say that the notion of smooth function in a manifold behaves well under restriction, intersection, is local, and so on.

Main definitions #

Given hG : LocalInvariantProp G G' P, we deduce many properties of the lifted property on the charted spaces. For instance, hG.liftPropWithinAt_inter says that P g s x is equivalent to P g (s ∩ t) x whenever t is a neighborhood of x.

Implementation notes #

We do not use dot notation for properties of the lifted property. For instance, we have hG.liftPropWithinAt_congr saying that if LiftPropWithinAt P g s x holds, and g and g' coincide on s, then LiftPropWithinAt P g' s x holds. We can't call it LiftPropWithinAt.congr as it is in the namespace associated to LocalInvariantProp, not in the one for LiftPropWithinAt.

structure StructureGroupoid.LocalInvariantProp {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] (G : StructureGroupoid H) (G' : StructureGroupoid H') (P : (HH')Set HHProp) :

Structure recording good behavior of a property of a triple (f, s, x) where f is a function, s a set and x a point. Good behavior here means locality and invariance under given groupoids (both in the source and in the target). Given such a good behavior, the lift of this property to charted spaces admitting these groupoids will inherit the good behavior.

  • is_local : ∀ {s : Set H} {x : H} {u : Set H} {f : HH'}, IsOpen ux u(P f s x P f (s u) x)
  • right_invariance' : ∀ {s : Set H} {x : H} {f : HH'} {e : PartialHomeomorph H H}, e Gx e.sourceP f s xP (f e.symm) (e.symm ⁻¹' s) (e x)
  • congr_of_forall : ∀ {s : Set H} {x : H} {f g : HH'}, (∀ ys, f y = g y)f x = g xP f s xP g s x
  • left_invariance' : ∀ {s : Set H} {x : H} {f : HH'} {e' : PartialHomeomorph H' H'}, e' G's f ⁻¹' e'.sourcef x e'.sourceP f s xP (e' f) s x
Instances For
    theorem StructureGroupoid.LocalInvariantProp.is_local {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (self : G.LocalInvariantProp G' P) {s : Set H} {x : H} {u : Set H} {f : HH'} :
    IsOpen ux u(P f s x P f (s u) x)
    theorem StructureGroupoid.LocalInvariantProp.right_invariance' {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (self : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {e : PartialHomeomorph H H} :
    e Gx e.sourceP f s xP (f e.symm) (e.symm ⁻¹' s) (e x)
    theorem StructureGroupoid.LocalInvariantProp.congr_of_forall {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (self : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {g : HH'} :
    (∀ ys, f y = g y)f x = g xP f s xP g s x
    theorem StructureGroupoid.LocalInvariantProp.left_invariance' {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (self : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {e' : PartialHomeomorph H' H'} :
    e' G's f ⁻¹' e'.sourcef x e'.sourceP f s xP (e' f) s x
    theorem StructureGroupoid.LocalInvariantProp.congr_set {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {t : Set H} {x : H} {f : HH'} (hu : s =ᶠ[nhds x] t) :
    P f s x P f t x
    theorem StructureGroupoid.LocalInvariantProp.is_local_nhds {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {u : Set H} {x : H} {f : HH'} (hu : u nhdsWithin x s) :
    P f s x P f (s u) x
    theorem StructureGroupoid.LocalInvariantProp.congr_iff_nhdsWithin {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {g : HH'} (h1 : f =ᶠ[nhdsWithin x s] g) (h2 : f x = g x) :
    P f s x P g s x
    theorem StructureGroupoid.LocalInvariantProp.congr_nhdsWithin {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {g : HH'} (h1 : f =ᶠ[nhdsWithin x s] g) (h2 : f x = g x) (hP : P f s x) :
    P g s x
    theorem StructureGroupoid.LocalInvariantProp.congr_nhdsWithin' {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {g : HH'} (h1 : f =ᶠ[nhdsWithin x s] g) (h2 : f x = g x) (hP : P g s x) :
    P f s x
    theorem StructureGroupoid.LocalInvariantProp.congr_iff {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {g : HH'} (h : f =ᶠ[nhds x] g) :
    P f s x P g s x
    theorem StructureGroupoid.LocalInvariantProp.congr {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {g : HH'} (h : f =ᶠ[nhds x] g) (hP : P f s x) :
    P g s x
    theorem StructureGroupoid.LocalInvariantProp.congr' {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {g : HH'} (h : f =ᶠ[nhds x] g) (hP : P g s x) :
    P f s x
    theorem StructureGroupoid.LocalInvariantProp.left_invariance {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {e' : PartialHomeomorph H' H'} (he' : e' G') (hfs : ContinuousWithinAt f s x) (hxe' : f x e'.source) :
    P (e' f) s x P f s x
    theorem StructureGroupoid.LocalInvariantProp.right_invariance {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {s : Set H} {x : H} {f : HH'} {e : PartialHomeomorph H H} (he : e G) (hxe : x e.source) :
    P (f e.symm) (e.symm ⁻¹' s) (e x) P f s x
    theorem ChartedSpace.liftPropWithinAt_iff' {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] (P : (HH')Set HHProp) (f : MM') (s : Set M) (x : M) :
    ChartedSpace.LiftPropWithinAt P f s x ContinuousWithinAt f s x P ((chartAt H' (f x)) f (chartAt H x).symm) ((chartAt H x).symm ⁻¹' s) ((chartAt H x) x)
    structure ChartedSpace.LiftPropWithinAt {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] (P : (HH')Set HHProp) (f : MM') (s : Set M) (x : M) :

    Given a property of germs of functions and sets in the model space, then one defines a corresponding property in a charted space, by requiring that it holds at the preferred chart at this point. (When the property is local and invariant, it will in fact hold using any chart, see liftPropWithinAt_indep_chart). We require continuity in the lifted property, as otherwise one single chart might fail to capture the behavior of the function.

    Instances For
      theorem ChartedSpace.LiftPropWithinAt.continuousWithinAt {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {f : MM'} {s : Set M} {x : M} (self : ChartedSpace.LiftPropWithinAt P f s x) :
      theorem ChartedSpace.LiftPropWithinAt.prop {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {f : MM'} {s : Set M} {x : M} (self : ChartedSpace.LiftPropWithinAt P f s x) :
      P ((chartAt H' (f x)) f (chartAt H x).symm) ((chartAt H x).symm ⁻¹' s) ((chartAt H x) x)
      def ChartedSpace.LiftPropOn {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] (P : (HH')Set HHProp) (f : MM') (s : Set M) :

      Given a property of germs of functions and sets in the model space, then one defines a corresponding property of functions on sets in a charted space, by requiring that it holds around each point of the set, in the preferred charts.

      Equations
      Instances For
        def ChartedSpace.LiftPropAt {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] (P : (HH')Set HHProp) (f : MM') (x : M) :

        Given a property of germs of functions and sets in the model space, then one defines a corresponding property of a function at a point in a charted space, by requiring that it holds in the preferred chart.

        Equations
        Instances For
          theorem ChartedSpace.liftPropAt_iff {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {f : MM'} {x : M} :
          ChartedSpace.LiftPropAt P f x ContinuousAt f x P ((chartAt H' (f x)) f (chartAt H x).symm) Set.univ ((chartAt H x) x)
          def ChartedSpace.LiftProp {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] (P : (HH')Set HHProp) (f : MM') :

          Given a property of germs of functions and sets in the model space, then one defines a corresponding property of a function in a charted space, by requiring that it holds in the preferred chart around every point.

          Equations
          Instances For
            theorem ChartedSpace.liftProp_iff {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {f : MM'} :
            ChartedSpace.LiftProp P f Continuous f ∀ (x : M), P ((chartAt H' (f x)) f (chartAt H x).symm) Set.univ ((chartAt H x) x)
            theorem StructureGroupoid.liftPropWithinAt_univ {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {g : MM'} {x : M} :
            theorem StructureGroupoid.liftPropOn_univ {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {g : MM'} :
            theorem StructureGroupoid.liftPropWithinAt_self {H : Type u_1} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace H'] {P : (HH')Set HHProp} {f : HH'} {s : Set H} {x : H} :
            theorem StructureGroupoid.liftPropWithinAt_self_source {H : Type u_1} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {f : HM'} {s : Set H} {x : H} :
            ChartedSpace.LiftPropWithinAt P f s x ContinuousWithinAt f s x P ((chartAt H' (f x)) f) s x
            theorem StructureGroupoid.liftPropWithinAt_self_target {H : Type u_1} {M : Type u_2} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] {P : (HH')Set HHProp} {s : Set M} {x : M} {f : MH'} :
            ChartedSpace.LiftPropWithinAt P f s x ContinuousWithinAt f s x P (f (chartAt H x).symm) ((chartAt H x).symm ⁻¹' s) ((chartAt H x) x)
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_iff {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) {f : MM'} :
            ChartedSpace.LiftPropWithinAt P f s x ContinuousWithinAt f s x P ((chartAt H' (f x)) f (chartAt H x).symm) ((chartAt H x).target (chartAt H x).symm ⁻¹' (s f ⁻¹' (chartAt H' (f x)).source)) ((chartAt H x) x)

            LiftPropWithinAt P f s x is equivalent to a definition where we restrict the set we are considering to the domain of the charts at x and f x.

            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart_source_aux {H : Type u_1} {M : Type u_2} {H' : Type u_3} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {e : PartialHomeomorph M H} {e' : PartialHomeomorph M H} {P : (HH')Set HHProp} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (g : MH') (he : e StructureGroupoid.maximalAtlas M G) (xe : x e.source) (he' : e' StructureGroupoid.maximalAtlas M G) (xe' : x e'.source) :
            P (g e.symm) (e.symm ⁻¹' s) (e x) P (g e'.symm) (e'.symm ⁻¹' s) (e' x)
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart_target_aux2 {H : Type u_1} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {f : PartialHomeomorph M' H'} {f' : PartialHomeomorph M' H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) (g : HM') {x : H} {s : Set H} (hf : f StructureGroupoid.maximalAtlas M' G') (xf : g x f.source) (hf' : f' StructureGroupoid.maximalAtlas M' G') (xf' : g x f'.source) (hgs : ContinuousWithinAt g s x) :
            P (f g) s x P (f' g) s x
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart_target_aux {H : Type u_1} {H' : Type u_3} {M' : Type u_4} {X : Type u_5} [TopologicalSpace H] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] [TopologicalSpace X] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {f : PartialHomeomorph M' H'} {f' : PartialHomeomorph M' H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {g : XM'} {e : PartialHomeomorph X H} {x : X} {s : Set X} (xe : x e.source) (hf : f StructureGroupoid.maximalAtlas M' G') (xf : g x f.source) (hf' : f' StructureGroupoid.maximalAtlas M' G') (xf' : g x f'.source) (hgs : ContinuousWithinAt g s x) :
            P (f g e.symm) (e.symm ⁻¹' s) (e x) P (f' g e.symm) (e.symm ⁻¹' s) (e x)
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart_aux {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {e : PartialHomeomorph M H} {e' : PartialHomeomorph M H} {f : PartialHomeomorph M' H'} {f' : PartialHomeomorph M' H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (he : e StructureGroupoid.maximalAtlas M G) (xe : x e.source) (he' : e' StructureGroupoid.maximalAtlas M G) (xe' : x e'.source) (hf : f StructureGroupoid.maximalAtlas M' G') (xf : g x f.source) (hf' : f' StructureGroupoid.maximalAtlas M' G') (xf' : g x f'.source) (hgs : ContinuousWithinAt g s x) :
            P (f g e.symm) (e.symm ⁻¹' s) (e x) P (f' g e'.symm) (e'.symm ⁻¹' s) (e' x)

            If a property of a germ of function g on a pointed set (s, x) is invariant under the structure groupoid (by composition in the source space and in the target space), then expressing it in charted spaces does not depend on the element of the maximal atlas one uses both in the source and in the target manifolds, provided they are defined around x and g x respectively, and provided g is continuous within s at x (otherwise, the local behavior of g at x can not be captured with a chart in the target).

            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {e : PartialHomeomorph M H} {f : PartialHomeomorph M' H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) [HasGroupoid M G] [HasGroupoid M' G'] (he : e StructureGroupoid.maximalAtlas M G) (xe : x e.source) (hf : f StructureGroupoid.maximalAtlas M' G') (xf : g x f.source) :
            ChartedSpace.LiftPropWithinAt P g s x ContinuousWithinAt g s x P (f g e.symm) (e.symm ⁻¹' s) (e x)
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart_source {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {e : PartialHomeomorph M H} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) [HasGroupoid M G] (he : e StructureGroupoid.maximalAtlas M G) (xe : x e.source) :
            ChartedSpace.LiftPropWithinAt P g s x ChartedSpace.LiftPropWithinAt P (g e.symm) (e.symm ⁻¹' s) (e x)

            A version of liftPropWithinAt_indep_chart, only for the source.

            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart_target {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {f : PartialHomeomorph M' H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) [HasGroupoid M' G'] (hf : f StructureGroupoid.maximalAtlas M' G') (xf : g x f.source) :

            A version of liftPropWithinAt_indep_chart, only for the target.

            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_indep_chart' {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {e : PartialHomeomorph M H} {f : PartialHomeomorph M' H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) [HasGroupoid M G] [HasGroupoid M' G'] (he : e StructureGroupoid.maximalAtlas M G) (xe : x e.source) (hf : f StructureGroupoid.maximalAtlas M' G') (xf : g x f.source) :
            ChartedSpace.LiftPropWithinAt P g s x ContinuousWithinAt g s x ChartedSpace.LiftPropWithinAt P (f g e.symm) (e.symm ⁻¹' s) (e x)

            A version of liftPropWithinAt_indep_chart, that uses LiftPropWithinAt on both sides.

            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_indep_chart {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {e : PartialHomeomorph M H} {f : PartialHomeomorph M' H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} (hG : G.LocalInvariantProp G' P) [HasGroupoid M G] [HasGroupoid M' G'] (he : e StructureGroupoid.maximalAtlas M G) (hf : f StructureGroupoid.maximalAtlas M' G') (h : ChartedSpace.LiftPropOn P g s) {y : H} (hy : y e.target e.symm ⁻¹' (s g ⁻¹' f.source)) :
            P (f g e.symm) (e.symm ⁻¹' s) y
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_inter' {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {t : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (ht : t nhdsWithin x s) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_inter {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {t : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (ht : t nhds x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_of_liftPropWithinAt {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (h : ChartedSpace.LiftPropWithinAt P g s x) (hs : s nhds x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_of_liftPropAt_of_mem_nhds {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (h : ChartedSpace.LiftPropAt P g x) (hs : s nhds x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_of_locally_liftPropOn {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {s : Set M} (hG : G.LocalInvariantProp G' P) (h : xs, ∃ (u : Set M), IsOpen u x u ChartedSpace.LiftPropOn P g (s u)) :
            theorem StructureGroupoid.LocalInvariantProp.liftProp_of_locally_liftPropOn {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} (hG : G.LocalInvariantProp G' P) (h : ∀ (x : M), ∃ (u : Set M), IsOpen u x u ChartedSpace.LiftPropOn P g u) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_congr_of_eventuallyEq {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (h : ChartedSpace.LiftPropWithinAt P g s x) (h₁ : g' =ᶠ[nhdsWithin x s] g) (hx : g' x = g x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_congr_iff_of_eventuallyEq {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (h₁ : g' =ᶠ[nhdsWithin x s] g) (hx : g' x = g x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_congr_iff {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (h₁ : ys, g' y = g y) (hx : g' x = g x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_congr {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {s : Set M} {x : M} (hG : G.LocalInvariantProp G' P) (h : ChartedSpace.LiftPropWithinAt P g s x) (h₁ : ys, g' y = g y) (hx : g' x = g x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_congr_iff_of_eventuallyEq {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {x : M} (hG : G.LocalInvariantProp G' P) (h₁ : g' =ᶠ[nhds x] g) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_congr_of_eventuallyEq {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {x : M} (hG : G.LocalInvariantProp G' P) (h : ChartedSpace.LiftPropAt P g x) (h₁ : g' =ᶠ[nhds x] g) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_congr {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {s : Set M} (hG : G.LocalInvariantProp G' P) (h : ChartedSpace.LiftPropOn P g s) (h₁ : ys, g' y = g y) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_congr_iff {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} {g : MM'} {g' : MM'} {s : Set M} (hG : G.LocalInvariantProp G' P) (h₁ : ys, g' y = g y) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_mono_of_mem {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {g : MM'} {s : Set M} {t : Set M} {x : M} (mono_of_mem : ∀ ⦃s : Set H⦄ ⦃x : H⦄ ⦃t : Set H⦄ ⦃f : HH'⦄, s nhdsWithin x tP f s xP f t x) (h : ChartedSpace.LiftPropWithinAt P g s x) (hst : s nhdsWithin x t) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_mono {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {g : MM'} {s : Set M} {t : Set M} {x : M} (mono : ∀ ⦃s : Set H⦄ ⦃x : H⦄ ⦃t : Set H⦄ ⦃f : HH'⦄, t sP f s xP f t x) (h : ChartedSpace.LiftPropWithinAt P g s x) (hts : t s) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropWithinAt_of_liftPropAt {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {g : MM'} {s : Set M} {x : M} (mono : ∀ ⦃s : Set H⦄ ⦃x : H⦄ ⦃t : Set H⦄ ⦃f : HH'⦄, t sP f s xP f t x) (h : ChartedSpace.LiftPropAt P g x) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_mono {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {g : MM'} {s : Set M} {t : Set M} (mono : ∀ ⦃s : Set H⦄ ⦃x : H⦄ ⦃t : Set H⦄ ⦃f : HH'⦄, t sP f s xP f t x) (h : ChartedSpace.LiftPropOn P g t) (hst : s t) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_of_liftProp {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {P : (HH')Set HHProp} {g : MM'} {s : Set M} (mono : ∀ ⦃s : Set H⦄ ⦃x : H⦄ ⦃t : Set H⦄ ⦃f : HH'⦄, t sP f s xP f t x) (h : ChartedSpace.LiftProp P g) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_of_mem_maximalAtlas {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {e : PartialHomeomorph M H} {x : M} {Q : (HH)Set HHProp} [HasGroupoid M G] (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) (he : e StructureGroupoid.maximalAtlas M G) (hx : x e.source) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_of_mem_maximalAtlas {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {e : PartialHomeomorph M H} {Q : (HH)Set HHProp} [HasGroupoid M G] (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) (he : e StructureGroupoid.maximalAtlas M G) :
            ChartedSpace.LiftPropOn Q (↑e) e.source
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_symm_of_mem_maximalAtlas {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {e : PartialHomeomorph M H} {Q : (HH)Set HHProp} [HasGroupoid M G] {x : H} (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) (he : e StructureGroupoid.maximalAtlas M G) (hx : x e.target) :
            ChartedSpace.LiftPropAt Q (↑e.symm) x
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_symm_of_mem_maximalAtlas {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {e : PartialHomeomorph M H} {Q : (HH)Set HHProp} [HasGroupoid M G] (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) (he : e StructureGroupoid.maximalAtlas M G) :
            ChartedSpace.LiftPropOn Q (↑e.symm) e.target
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_chart {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {x : M} {Q : (HH)Set HHProp} [HasGroupoid M G] (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_chart {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {x : M} {Q : (HH)Set HHProp} [HasGroupoid M G] (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) :
            ChartedSpace.LiftPropOn Q (↑(chartAt H x)) (chartAt H x).source
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_chart_symm {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {x : M} {Q : (HH)Set HHProp} [HasGroupoid M G] (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) :
            ChartedSpace.LiftPropAt Q (↑(chartAt H x).symm) ((chartAt H x) x)
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_chart_symm {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {x : M} {Q : (HH)Set HHProp} [HasGroupoid M G] (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) :
            ChartedSpace.LiftPropOn Q (↑(chartAt H x).symm) (chartAt H x).target
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_of_mem_groupoid {H : Type u_1} [TopologicalSpace H] {G : StructureGroupoid H} {Q : (HH)Set HHProp} (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) {f : PartialHomeomorph H H} (hf : f G) {x : H} (hx : x f.source) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropOn_of_mem_groupoid {H : Type u_1} [TopologicalSpace H] {G : StructureGroupoid H} {Q : (HH)Set HHProp} (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) {f : PartialHomeomorph H H} (hf : f G) :
            ChartedSpace.LiftPropOn Q (↑f) f.source
            theorem StructureGroupoid.LocalInvariantProp.liftProp_id {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {Q : (HH)Set HHProp} (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_iff_comp_subtype_val {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {U : TopologicalSpace.Opens M} (f : MM') (x : U) :
            theorem StructureGroupoid.LocalInvariantProp.liftPropAt_iff_comp_inclusion {H : Type u_1} {M : Type u_2} {H' : Type u_3} {M' : Type u_4} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] [TopologicalSpace H'] [TopologicalSpace M'] [ChartedSpace H' M'] {G : StructureGroupoid H} {G' : StructureGroupoid H'} {P : (HH')Set HHProp} (hG : G.LocalInvariantProp G' P) {U : TopologicalSpace.Opens M} {V : TopologicalSpace.Opens M} (hUV : U V) (f : VM') (x : U) :
            theorem StructureGroupoid.LocalInvariantProp.liftProp_subtype_val {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {Q : (HH)Set HHProp} (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) (U : TopologicalSpace.Opens M) :
            ChartedSpace.LiftProp Q Subtype.val
            theorem StructureGroupoid.LocalInvariantProp.liftProp_inclusion {H : Type u_1} {M : Type u_2} [TopologicalSpace H] [TopologicalSpace M] [ChartedSpace H M] {G : StructureGroupoid H} {Q : (HH)Set HHProp} (hG : G.LocalInvariantProp G Q) (hQ : ∀ (y : H), Q id Set.univ y) {U : TopologicalSpace.Opens M} {V : TopologicalSpace.Opens M} (hUV : U V) :
            def StructureGroupoid.IsLocalStructomorphWithinAt {H : Type u_1} [TopologicalSpace H] (G : StructureGroupoid H) (f : HH) (s : Set H) (x : H) :

            A function from a model space H to itself is a local structomorphism, with respect to a structure groupoid G for H, relative to a set s in H, if for all points x in the set, the function agrees with a G-structomorphism on s in a neighbourhood of x.

            Equations
            • G.IsLocalStructomorphWithinAt f s x = (x seG, Set.EqOn f (↑e.toPartialEquiv) (s e.source) x e.source)
            Instances For
              theorem StructureGroupoid.isLocalStructomorphWithinAt_localInvariantProp {H : Type u_1} [TopologicalSpace H] (G : StructureGroupoid H) [ClosedUnderRestriction G] :
              G.LocalInvariantProp G G.IsLocalStructomorphWithinAt

              For a groupoid G which is ClosedUnderRestriction, being a local structomorphism is a local invariant property.

              theorem PartialHomeomorph.isLocalStructomorphWithinAt_iff {H : Type u_1} [TopologicalSpace H] {G : StructureGroupoid H} [ClosedUnderRestriction G] (f : PartialHomeomorph H H) {s : Set H} {x : H} (hx : x f.source s) :
              G.IsLocalStructomorphWithinAt (↑f) s x x seG, e.source f.source Set.EqOn (↑f) (↑e) (s e.source) x e.source

              A slight reformulation of IsLocalStructomorphWithinAt when f is a partial homeomorph. This gives us an e that is defined on a subset of f.source.

              theorem PartialHomeomorph.isLocalStructomorphWithinAt_iff' {H : Type u_1} [TopologicalSpace H] {G : StructureGroupoid H} [ClosedUnderRestriction G] (f : PartialHomeomorph H H) {s : Set H} {x : H} (hs : f.source s) (hx : x f.source s) :
              G.IsLocalStructomorphWithinAt (↑f) s x x seG, e.source f.source Set.EqOn (↑f) (↑e) e.source x e.source

              A slight reformulation of IsLocalStructomorphWithinAt when f is a partial homeomorph and the set we're considering is a superset of f.source.

              theorem PartialHomeomorph.isLocalStructomorphWithinAt_source_iff {H : Type u_1} [TopologicalSpace H] {G : StructureGroupoid H} [ClosedUnderRestriction G] (f : PartialHomeomorph H H) {x : H} :
              G.IsLocalStructomorphWithinAt (↑f) f.source x x f.sourceeG, e.source f.source Set.EqOn (↑f) (↑e) e.source x e.source

              A slight reformulation of IsLocalStructomorphWithinAt when f is a partial homeomorph and the set we're considering is f.source.

              theorem StructureGroupoid.HasGroupoid.comp {H₁ : Type u_6} [TopologicalSpace H₁] {H₂ : Type u_7} [TopologicalSpace H₂] {H₃ : Type u_8} [TopologicalSpace H₃] [ChartedSpace H₁ H₂] [ChartedSpace H₂ H₃] {G₁ : StructureGroupoid H₁} [HasGroupoid H₂ G₁] [ClosedUnderRestriction G₁] (G₂ : StructureGroupoid H₂) [HasGroupoid H₃ G₂] (H : eG₂, ChartedSpace.LiftPropOn G₁.IsLocalStructomorphWithinAt (↑e) e.source) :
              HasGroupoid H₃ G₁