Spectral/homology/basic.hlean

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/-
Copyright (c) 2017 Yuri Sulyma, Favonia
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yuri Sulyma, Favonia, Floris van Doorn
Reduced homology theories
-/
import ..spectrum.smash ..homotopy.wedge
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open eq spectrum int pointed group algebra sphere nat equiv susp is_trunc
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function fwedge cofiber lift is_equiv choice algebra pi smash wedge
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namespace homology
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/- homology theory -/
structure homology_theory.{u} : Type.{u+1} :=
(HH : → pType.{u} → AbGroup.{u})
(Hh : Π(n : ) {X Y : Type*} (f : X →* Y), HH n X →g HH n Y)
(Hpid : Π(n : ) {X : Type*} (x : HH n X), Hh n (pid X) x = x)
(Hpcompose : Π(n : ) {X Y Z : Type*} (f : Y →* Z) (g : X →* Y),
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Hh n (f ∘* g) ~ Hh n f ∘ Hh n g)
(Hsusp : Π(n : ) (X : Type*), HH (succ n) (susp X) ≃g HH n X)
(Hsusp_natural : Π(n : ) {X Y : Type*} (f : X →* Y),
Hsusp n Y ∘ Hh (succ n) (susp_functor f) ~ Hh n f ∘ Hsusp n X)
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(Hexact : Π(n : ) {X Y : Type*} (f : X →* Y), is_exact_g (Hh n f) (Hh n (pcod f)))
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(Hadditive : Π(n : ) {I : Set.{u}} (X : I → Type*), is_equiv
(dirsum_elim (λi, Hh n (pinl i)) : dirsum (λi, HH n (X i)) → HH n ( X)))
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structure ordinary_homology_theory.{u} extends homology_theory.{u} : Type.{u+1} :=
(Hdimension : Π(n : ), n ≠ 0 → is_contr (HH n (plift (sphere 0))))
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section
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universe variable u
parameter (theory : homology_theory.{u})
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open homology_theory
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theorem HH_base_indep (n : ) {A : Type} (a b : A)
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: HH theory n (pType.mk A a) ≃g HH theory n (pType.mk A b) :=
calc HH theory n (pType.mk A a) ≃g HH theory (int.succ n) (susp A) : by exact (Hsusp theory n (pType.mk A a)) ⁻¹ᵍ
... ≃g HH theory n (pType.mk A b) : by exact Hsusp theory n (pType.mk A b)
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theorem Hh_homotopy' (n : ) {A B : Type*} (f : A → B) (p q : f pt = pt)
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: Hh theory n (pmap.mk f p) ~ Hh theory n (pmap.mk f q) := λ x,
calc Hh theory n (pmap.mk f p) x
= Hh theory n (pmap.mk f p) (Hsusp theory n A ((Hsusp theory n A)⁻¹ᵍ x))
: by exact ap (Hh theory n (pmap.mk f p)) (equiv.to_right_inv (equiv_of_isomorphism (Hsusp theory n A)) x)⁻¹
... = Hsusp theory n B (Hh theory (succ n) (pmap.mk (susp_functor' f) !refl) ((Hsusp theory n A)⁻¹ x))
: by exact (Hsusp_natural theory n (pmap.mk f p) ((Hsusp theory n A)⁻¹ᵍ x))⁻¹
... = Hh theory n (pmap.mk f q) (Hsusp theory n A ((Hsusp theory n A)⁻¹ x))
: by exact Hsusp_natural theory n (pmap.mk f q) ((Hsusp theory n A)⁻¹ x)
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... = Hh theory n (pmap.mk f q) x
: by exact ap (Hh theory n (pmap.mk f q)) (equiv.to_right_inv (equiv_of_isomorphism (Hsusp theory n A)) x)
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theorem Hh_homotopy (n : ) {A B : Type*} (f g : A →* B) (h : f ~ g) : Hh theory n f ~ Hh theory n g := λ x,
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calc Hh theory n f x
= Hh theory n (pmap.mk f (respect_pt f)) x : by exact ap (λ f, Hh theory n f x) (pmap.eta f)⁻¹
... = Hh theory n (pmap.mk f (h pt ⬝ respect_pt g)) x : by exact Hh_homotopy' n f (respect_pt f) (h pt ⬝ respect_pt g) x
... = Hh theory n g x :
begin
apply ap (λ f, Hh theory n f x), apply eq_of_phomotopy, fapply phomotopy.mk,
{ exact h },
reflexivity
end
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definition HH_isomorphism (n : ) {A B : Type*} (e : A ≃* B)
: HH theory n A ≃g HH theory n B :=
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begin
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fapply isomorphism.mk,
{ exact Hh theory n e },
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fapply adjointify,
{ exact Hh theory n e⁻¹ᵉ* },
{ intro x, exact calc
Hh theory n e (Hh theory n e⁻¹ᵉ* x)
= Hh theory n (e ∘* e⁻¹ᵉ*) x : by exact (Hpcompose theory n e e⁻¹ᵉ* x)⁻¹
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... = Hh theory n !pid x : by exact Hh_homotopy n (e ∘* e⁻¹ᵉ*) !pid (to_right_inv e) x
... = x : by exact Hpid theory n x
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},
{ intro x, exact calc
Hh theory n e⁻¹ᵉ* (Hh theory n e x)
= Hh theory n (e⁻¹ᵉ* ∘* e) x : by exact (Hpcompose theory n e⁻¹ᵉ* e x)⁻¹
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... = Hh theory n !pid x : by exact Hh_homotopy n (e⁻¹ᵉ* ∘* e) !pid (to_left_inv e) x
... = x : by exact Hpid theory n x
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}
end
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definition Hadditive_equiv (n : ) {I : Type} [is_set I] (X : I → Type*)
: dirsum (λi, HH theory n (X i)) ≃g HH theory n ( X) :=
isomorphism.mk (dirsum_elim (λi, Hh theory n (fwedge.pinl i))) (Hadditive theory n X)
definition Hadditive' (n : ) {I : Type₀} [is_set I] (X : I → pType.{u}) : is_equiv
(dirsum_elim (λi, Hh theory n (pinl i)) : dirsum (λi, HH theory n (X i)) → HH theory n ( X)) :=
let iso3 := HH_isomorphism n (fwedge_down_left.{0 u} X) in
let iso2 := Hadditive_equiv n (X ∘ down.{0 u}) in
let iso1 := (dirsum_down_left.{0 u} (λ i, HH theory n (X i)))⁻¹ᵍ in
let iso := calc dirsum (λ i, HH theory n (X i))
≃g dirsum (λ i, HH theory n (X (down.{0 u} i))) : by exact iso1
... ≃g HH theory n ( (X ∘ down.{0 u})) : by exact iso2
... ≃g HH theory n ( X) : by exact iso3
in
begin
fapply is_equiv_of_equiv_of_homotopy,
{ exact equiv_of_isomorphism iso },
{ refine dirsum_homotopy _, intro i y,
refine homomorphism_comp_compute iso3 (iso2 ∘g iso1) _ ⬝ _,
refine ap iso3 (homomorphism_comp_compute iso2 iso1 _) ⬝ _,
refine ap (iso3 ∘ iso2) _ ⬝ _,
{ exact dirsum_incl (λ i, HH theory n (X (down i))) (up i) y },
{ refine _ ⬝ dirsum_elim_compute (λi, dirsum_incl (λ i, HH theory n (X (down.{0 u} i))) (up i)) i y,
reflexivity
},
refine ap iso3 _ ⬝ _,
{ exact Hh theory n (fwedge.pinl (up i)) y },
{ refine _ ⬝ dirsum_elim_compute (λi, Hh theory n (fwedge.pinl i)) (up i) y,
reflexivity
},
refine (Hpcompose theory n (fwedge_down_left X) (fwedge.pinl (up i)) y)⁻¹ ⬝ _,
refine Hh_homotopy n (fwedge_down_left.{0 u} X ∘* fwedge.pinl (up i)) (fwedge.pinl i) (fwedge_pmap_beta (λ i, pinl (down i)) (up i)) y ⬝ _,
refine (dirsum_elim_compute (λ i, Hh theory n (pinl i)) i y)⁻¹
}
end
definition Hadditive'_equiv (n : ) {I : Type₀} [is_set I] (X : I → Type*)
: dirsum (λi, HH theory n (X i)) ≃g HH theory n ( X) :=
isomorphism.mk (dirsum_elim (λi, Hh theory n (fwedge.pinl i))) (Hadditive' n X)
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definition Hfwedge (n : ) {I : Type} [is_set I] (X : I → Type*): HH theory n ( X) ≃g dirsum (λi, HH theory n (X i)) :=
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(isomorphism.mk _ (Hadditive theory n X))⁻¹ᵍ
definition Hwedge (n : ) (A B : Type*) : HH theory n (wedge A B) ≃g HH theory n A ×g HH theory n B :=
calc HH theory n (A B) ≃g HH theory n ( (bool.rec A B)) : by exact HH_isomorphism n (wedge_pequiv_fwedge A B)
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... ≃g dirsum (λb, HH theory n (bool.rec A B b)) : by exact (Hadditive'_equiv n (bool.rec A B))⁻¹ᵍ
... ≃g dirsum (bool.rec (HH theory n A) (HH theory n B)) : by exact dirsum_isomorphism (bool.rec !isomorphism.refl !isomorphism.refl)
... ≃g HH theory n A ×g HH theory n B : by exact binary_dirsum (HH theory n A) (HH theory n B)
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end
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section
universe variables u v
parameter (theory : homology_theory.{max u v})
open homology_theory
definition Hplift_susp (n : ) (A : Type*): HH theory (n + 1) (plift.{u v} (susp A)) ≃g HH theory n (plift.{u v} A) :=
calc HH theory (n + 1) (plift.{u v} (susp A)) ≃g HH theory (n + 1) (susp (plift.{u v} A)) : by exact HH_isomorphism theory (n + 1) (plift_susp _)
... ≃g HH theory n (plift.{u v} A) : by exact Hsusp theory n (plift.{u v} A)
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definition Hplift_wedge (n : ) (A B : Type*): HH theory n (plift.{u v} (A B)) ≃g HH theory n (plift.{u v} A) ×g HH theory n (plift.{u v} B) :=
calc HH theory n (plift.{u v} (A B)) ≃g HH theory n (plift.{u v} A plift.{u v} B) : by exact HH_isomorphism theory n (plift_wedge A B)
... ≃g HH theory n (plift.{u v} A) ×g HH theory n (plift.{u v} B) : by exact Hwedge theory n (plift.{u v} A) (plift.{u v} B)
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definition Hplift_isomorphism (n : ) {A B : Type*} (e : A ≃* B) : HH theory n (plift.{u v} A) ≃g HH theory n (plift.{u v} B) :=
HH_isomorphism theory n (!pequiv_plift⁻¹ᵉ* ⬝e* e ⬝e* !pequiv_plift)
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end
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/- homology theory associated to a prespectrum -/
definition homology (X : Type*) (E : prespectrum) (n : ) : AbGroup :=
pshomotopy_group n (smash_prespectrum X E)
/- an alternative definition, which might be a bit harder to work with -/
definition homology_spectrum (X : Type*) (E : spectrum) (n : ) : AbGroup :=
shomotopy_group n (smash_spectrum X E)
definition parametrized_homology {X : Type*} (E : X → spectrum) (n : ) : AbGroup :=
sorry
definition ordinary_homology [reducible] (X : Type*) (G : AbGroup) (n : ) : AbGroup :=
homology X (EM_spectrum G) n
definition ordinary_homology_Z [reducible] (X : Type*) (n : ) : AbGroup :=
ordinary_homology X ag n
notation `H_` n `[`:0 X:0 `, ` E:0 `]`:0 := homology X E n
notation `H_` n `[`:0 X:0 `]`:0 := ordinary_homology_Z X n
notation `pH_` n `[`:0 binders `, ` r:(scoped E, parametrized_homology E n) `]`:0 := r
definition unpointed_homology (X : Type) (E : spectrum) (n : ) : AbGroup :=
H_ n[X₊, E]
definition homology_functor [constructor] {X Y : Type*} {E F : prespectrum} (f : X →* Y)
(g : E →ₛ F) (n : ) : homology X E n →g homology Y F n :=
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pshomotopy_group_fun n (smash_prespectrum_fun f g)
definition homology_theory_spectrum_is_exact.{u} (E : spectrum.{u}) (n : ) {X Y : Type*}
(f : X →* Y) : is_exact_g (homology_functor f (sid E) n) (homology_functor (pcod f) (sid E) n) :=
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begin
-- fconstructor,
-- { intro a, exact sorry },
-- { intro a, exact sorry }
exact sorry
end
definition homology_theory_spectrum.{u} [constructor] (E : spectrum.{u}) : homology_theory.{u} :=
begin
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fapply homology_theory.mk,
exact (λn X, H_ n[X, E]),
exact (λn X Y f, homology_functor f (sid E) n),
exact sorry, -- Hid is uninteresting but potentially very hard to prove
exact sorry,
exact sorry,
exact sorry,
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apply homology_theory_spectrum_is_exact,
exact sorry
-- sorry
-- sorry
-- sorry
-- sorry
-- sorry
-- sorry
-- (λn A, H^n[A, Y])
-- (λn A B f, cohomology_isomorphism f Y n)
-- (λn A, cohomology_isomorphism_refl A Y n)
-- (λn A B f, cohomology_functor f Y n)
-- (λn A B f g p, cohomology_functor_phomotopy p Y n)
-- (λn A B f x, cohomology_functor_phomotopy_refl f Y n x)
-- (λn A x, cohomology_functor_pid A Y n x)
-- (λn A B C g f x, cohomology_functor_pcompose g f Y n x)
-- (λn A, cohomology_susp A Y n)
-- (λn A B f, cohomology_susp_natural f Y n)
-- (λn A B f, cohomology_exact f Y n)
-- (λn I A H, spectrum_additive H A Y n)
end
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end homology