Spectral/homotopy/strunc.hlean

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/-
Copyright (c) 2017 Floris van Doorn and Ulrik Buchholtz. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Floris van Doorn, Ulrik Buchholtz
Truncatedness and truncation of spectra
-/
import .spectrum .EM
namespace int
-- TODO move this
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open nat algebra
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section
private definition maxm2_le.lemma₁ {n k : } : n+(1:int) + -[1+ k] ≤ n :=
le.intro (
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calc n + 1 + -[1+ k] + k
= n + 1 + (-(k + 1)) + k : by reflexivity
... = n + 1 + (-1 - k) + k : by krewrite (neg_add_rev k 1)
... = n + 1 + (-1 - k + k) : add.assoc
... = n + 1 + (-1 + -k + k) : by reflexivity
... = n + 1 + (-1 + (-k + k)) : add.assoc
... = n + 1 + (-1 + 0) : add.left_inv
... = n + (1 + (-1 + 0)) : add.assoc
... = n : int.add_zero)
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private definition maxm2_le.lemma₂ {n : } {k : } : -[1+ n] + 1 + k ≤ k :=
le.intro (
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calc -[1+ n] + 1 + k + n
= - (n + 1) + 1 + k + n : by reflexivity
... = -n - 1 + 1 + k + n : by rewrite (neg_add n 1)
... = -n + (-1 + 1) + k + n : by krewrite (int.add_assoc (-n) (-1) 1)
... = -n + 0 + k + n : add.left_inv 1
... = -n + k + n : int.add_zero
... = k + -n + n : int.add_comm
... = k + (-n + n) : int.add_assoc
... = k + 0 : add.left_inv n
... = k : int.add_zero)
open trunc_index
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definition maxm2_le (n k : ) : maxm2 (n+1+k) ≤ (maxm1m1 n).+1+2+(maxm1m1 k) :=
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begin
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rewrite [-(maxm1_eq_succ n)],
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induction n with n n,
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{ induction k with k k,
{ induction k with k IH,
{ apply le.tr_refl },
{ exact succ_le_succ IH } },
{ exact trunc_index.le_trans (maxm2_monotone maxm2_le.lemma₁)
(maxm2_le_maxm1 n) } },
{ krewrite (add_plus_two_comm -1 (maxm1m1 k)),
rewrite [-(maxm1_eq_succ k)],
exact trunc_index.le_trans (maxm2_monotone maxm2_le.lemma₂)
(maxm2_le_maxm1 k) }
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end
end
end int
open int trunc eq is_trunc lift unit pointed equiv is_equiv algebra EM
namespace spectrum
definition ptrunc_maxm2_change_int {k l : } (p : k = l) (X : Type*)
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: ptrunc (maxm2 k) X ≃* ptrunc (maxm2 l) X :=
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ptrunc_change_index (ap maxm2 p) X
definition is_trunc_maxm2_change_int {k l : } (X : pType) (p : k = l)
: is_trunc (maxm2 k) X → is_trunc (maxm2 l) X :=
by induction p; exact id
definition is_trunc_maxm2_loop {k : } {A : Type*} (H : is_trunc (maxm2 (k+1)) A) :
is_trunc (maxm2 k) (Ω A) :=
begin
induction k with k k,
apply is_trunc_loop, exact H,
apply is_contr_loop,
cases k with k,
{ exact H },
{ apply is_trunc_succ, apply is_trunc_succ, exact H }
end
definition loop_ptrunc_maxm2_pequiv {k : } {l : ℕ₋₂} (p : maxm2 (k+1) = l) (X : Type*) :
Ω (ptrunc l X) ≃* ptrunc (maxm2 k) (Ω X) :=
begin
induction p,
induction k with k k,
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{ exact loop_ptrunc_pequiv k X },
{ refine pequiv_of_is_contr _ _ _ !is_trunc_trunc,
apply is_contr_loop,
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cases k with k,
{ change is_set (trunc 0 X), apply _ },
{ change is_set (trunc -2 X), apply _ }}
end
definition ptrunc_elim_phomotopy2 [constructor] (k : ℕ₋₂) {A B : Type*} {f g : A →* B} (H₁ : is_trunc k B)
(H₂ : is_trunc k B) (p : f ~* g) : @ptrunc.elim k A B H₁ f ~* @ptrunc.elim k A B H₂ g :=
begin
fapply phomotopy.mk,
{ intro x, induction x with a, exact p a },
{ exact to_homotopy_pt p }
end
definition loop_ptrunc_maxm2_pequiv_ptrunc_elim' {k : } {l : ℕ₋₂} (p : maxm2 (k+1) = l)
{A B : Type*} (f : A →* B) {H : is_trunc l B} :
Ω→ (ptrunc.elim l f) ∘* (loop_ptrunc_maxm2_pequiv p A)⁻¹ᵉ* ~*
@ptrunc.elim (maxm2 k) _ _ (is_trunc_maxm2_loop (is_trunc_of_eq p⁻¹ H)) (Ω→ f) :=
begin
induction p, induction k with k k,
{ refine pwhisker_right _ (ap1_phomotopy _) ⬝* @(ap1_ptrunc_elim k f) H,
apply ptrunc_elim_phomotopy2, reflexivity },
{ apply phomotopy_of_is_contr_cod, exact is_trunc_maxm2_loop H }
end
definition loop_ptrunc_maxm2_pequiv_ptrunc_elim {k : } {l : ℕ₋₂} (p : maxm2 (k+1) = l)
{A B : Type*} (f : A →* B) {H1 : is_trunc ((maxm2 k).+1) B } {H2 : is_trunc l B} :
Ω→ (ptrunc.elim l f) ∘* (loop_ptrunc_maxm2_pequiv p A)⁻¹ᵉ* ~* ptrunc.elim (maxm2 k) (Ω→ f) :=
begin
induction p, induction k with k k: esimp at H1,
{ refine pwhisker_right _ (ap1_phomotopy _) ⬝* ap1_ptrunc_elim k f,
apply ptrunc_elim_phomotopy2, reflexivity },
{ apply phomotopy_of_is_contr_cod }
end
definition loop_ptrunc_maxm2_pequiv_ptr {k : } {l : ℕ₋₂} (p : maxm2 (k+1) = l) (A : Type*) :
Ω→ (ptr l A) ~* (loop_ptrunc_maxm2_pequiv p A)⁻¹ᵉ* ∘* ptr (maxm2 k) (Ω A) :=
begin
induction p, induction k with k k,
{ exact ap1_ptr k A },
{ apply phomotopy_pinv_left_of_phomotopy, apply phomotopy_of_is_contr_cod, apply is_trunc_trunc }
end
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definition is_trunc_of_is_trunc_maxm2 (k : ) (X : Type)
: is_trunc (maxm2 k) X → is_trunc (max0 k) X :=
λ H, @is_trunc_of_le X _ _ (maxm2_le_maxm0 k) H
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definition strunc [constructor] (k : ) (E : spectrum) : spectrum :=
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spectrum.MK (λ(n : ), ptrunc (maxm2 (k + n)) (E n))
(λ(n : ), ptrunc_pequiv_ptrunc (maxm2 (k + n)) (equiv_glue E n)
⬝e* (loop_ptrunc_maxm2_pequiv (ap maxm2 (add.assoc k n 1)) (E (n+1)))⁻¹ᵉ*)
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definition strunc_change_int [constructor] {k l : } (E : spectrum) (p : k = l) :
strunc k E →ₛ strunc l E :=
begin induction p, reflexivity end
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definition is_strunc [reducible] (k : ) (E : spectrum) : Type :=
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Π (n : ), is_trunc (maxm2 (k + n)) (E n)
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definition is_strunc_change_int {k l : } (E : spectrum) (p : k = l)
: is_strunc k E → is_strunc l E :=
begin induction p, exact id end
definition is_strunc_of_le {k l : } (E : spectrum) (H : k ≤ l)
: is_strunc k E → is_strunc l E :=
begin
intro T, intro n, exact is_trunc_of_le (E n)
(maxm2_monotone (algebra.add_le_add_right H n))
end
definition is_strunc_pequiv_closed {k : } {E F : spectrum} (H : Πn, E n ≃* F n)
(H2 : is_strunc k E) : is_strunc k F :=
λn, is_trunc_equiv_closed (maxm2 (k + n)) (H n)
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definition is_strunc_strunc (k : ) (E : spectrum)
: is_strunc k (strunc k E) :=
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λ n, is_trunc_trunc (maxm2 (k + n)) (E n)
definition is_strunc_strunc_of_is_strunc (k : ) {l : } {E : spectrum} (H : is_strunc l E)
: is_strunc l (strunc k E) :=
λ n, !is_trunc_trunc_of_is_trunc
definition str [constructor] (k : ) (E : spectrum) : E →ₛ strunc k E :=
smap.mk (λ n, ptr (maxm2 (k + n)) (E n))
abstract begin
intro n,
apply psquare_of_phomotopy,
refine !passoc ⬝* pwhisker_left _ !ptr_natural ⬝* _,
refine !passoc⁻¹* ⬝* pwhisker_right _ !loop_ptrunc_maxm2_pequiv_ptr⁻¹*,
end end
definition strunc_elim [constructor] {k : } {E F : spectrum} (f : E →ₛ F)
(H : is_strunc k F) : strunc k E →ₛ F :=
smap.mk (λn, ptrunc.elim (maxm2 (k + n)) (f n))
abstract begin
intro n,
apply psquare_of_phomotopy,
symmetry,
refine !passoc⁻¹* ⬝* pwhisker_right _ !loop_ptrunc_maxm2_pequiv_ptrunc_elim' ⬝* _,
refine @(ptrunc_elim_ptrunc_functor _ _ _) _ ⬝* _,
refine _ ⬝* @(ptrunc_elim_pcompose _ _ _) _ _,
apply is_trunc_maxm2_loop,
refine is_trunc_of_eq _ (H (n+1)), exact ap maxm2 (add.assoc k n 1)⁻¹,
apply ptrunc_elim_phomotopy2,
apply phomotopy_of_psquare,
apply ptranspose,
apply smap.glue_square
end end
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definition strunc_functor [constructor] (k : ) {E F : spectrum} (f : E →ₛ F) :
strunc k E →ₛ strunc k F :=
strunc_elim (str k F ∘ₛ f) (is_strunc_strunc k F)
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definition is_strunc_sunit (n : ) : is_strunc n sunit :=
begin
intro k, apply is_trunc_lift, apply is_trunc_unit
end
open option
definition is_strunc_add_point_spectrum {X : Type} {Y : X → spectrum} {s₀ : }
(H : Πx, is_strunc s₀ (Y x)) : Π(x : X₊), is_strunc s₀ (add_point_spectrum Y x)
| (some x) := H x
| none := is_strunc_sunit s₀
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definition is_strunc_EM_spectrum (G : AbGroup)
: is_strunc 0 (EM_spectrum G) :=
begin
intro n, induction n with n n,
{ -- case ≥ 0
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apply is_trunc_maxm2_change_int (EM G n) (zero_add n)⁻¹,
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apply is_trunc_EM },
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{ change is_contr (EM_spectrum G (-[1+n])),
induction n with n IH,
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{ -- case = -1
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apply is_contr_loop, exact is_trunc_EM G 0 },
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{ -- case < -1
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apply is_trunc_loop, apply is_trunc_succ, exact IH }}
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end
definition trivial_shomotopy_group_of_is_strunc (E : spectrum)
{n k : } (K : is_strunc n E) (H : n < k)
: is_contr (πₛ[k] E) :=
let m := n + (2 - k) in
have I : m < 2, from
calc
m = (2 - k) + n : int.add_comm n (2 - k)
... < (2 - k) + k : add_lt_add_left H (2 - k)
... = 2 : sub_add_cancel 2 k,
@trivial_homotopy_group_of_is_trunc (E (2 - k)) (max0 m) 2
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(is_trunc_of_is_trunc_maxm2 m (E (2 - k)) (K (2 - k)))
(nat.succ_le_succ (max0_le_of_le (le_sub_one_of_lt I)))
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structure truncspectrum (n : ) :=
(carrier : spectrum)
(struct : is_strunc n carrier)
notation n `-spectrum` := truncspectrum n
attribute truncspectrum.carrier [coercion]
definition genspectrum_of_truncspectrum (n : )
: n-spectrum → gen_spectrum + :=
λ E, truncspectrum.carrier E
attribute genspectrum_of_truncspectrum [coercion]
section
open is_conn
definition is_conn_maxm1_of_maxm2 (A : Type*) (n : )
: is_conn (maxm2 n) A → is_conn (maxm1m1 n).+1 A :=
begin
intro H, induction n with n n,
{ exact H },
{ exact is_conn_minus_one A (tr pt) }
end
definition is_trunc_maxm2_of_maxm1 (A : Type*) (n : )
: is_trunc (maxm1m1 n).+1 A → is_trunc (maxm2 n) A :=
begin
intro H, induction n with n n,
{ exact H},
{ apply is_contr_of_merely_prop,
{ exact H },
{ exact tr pt } }
end
variables (A : Type*) (n : ) [H : is_conn (maxm2 n) A]
include H
definition is_trunc_maxm2_ppi (k l : ) (H3 : l ≤ n+1+k) (P : A → Type*)
(H2 : Πa, is_trunc (maxm2 l) (P a)) : is_trunc (maxm2 k) (Π*(a : A), P a) :=
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is_trunc_maxm2_of_maxm1 (Π*(a : A), P a) k
(@is_trunc_ppi_of_is_conn A (maxm1m1 n) (is_conn_maxm1_of_maxm2 A n H) (maxm1m1 k) _
(le.trans (maxm2_monotone H3) (maxm2_le n k)) P H2)
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definition is_strunc_spi_of_is_conn (k l : ) (H3 : l ≤ n+1+k) (P : A → spectrum)
(H2 : Πa, is_strunc l (P a)) : is_strunc k (spi A P) :=
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begin
intro m, unfold spi,
exact is_trunc_maxm2_ppi A n (k+m) _ (le.trans (add_le_add_right H3 _)
(le_of_eq (add.assoc (n+1) k m))) (λ a, P a m) (λa, H2 a m)
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end
end
definition is_strunc_spi_of_le {A : Type*} (k n : ) (H : n ≤ k) (P : A → spectrum)
(H2 : Πa, is_strunc n (P a)) : is_strunc k (spi A P) :=
begin
assert K : n ≤ -[1+ 0] + 1 + k,
{ krewrite (int.zero_add k), exact H },
{ exact @is_strunc_spi_of_is_conn A (-[1+ 0]) (is_conn.is_conn_minus_two A) k _ K P H2 }
end
definition is_strunc_spi {A : Type*} (n : ) (P : A → spectrum) (H : Πa, is_strunc n (P a))
: is_strunc n (spi A P) :=
is_strunc_spi_of_le n n !le.refl P H
definition is_strunc_sp_cotensor (n : ) (A : Type*) {Y : spectrum} (H : is_strunc n Y)
: is_strunc n (sp_cotensor A Y) :=
is_strunc_pequiv_closed (λn, !pppi_pequiv_ppmap) (is_strunc_spi n (λa, Y) (λa, H))
definition is_strunc_sp_ucotensor (n : ) (A : Type) {Y : spectrum} (H : is_strunc n Y)
: is_strunc n (sp_ucotensor A Y) :=
λk, !pi.is_trunc_arrow
end spectrum