category_theory.preadditive.injective_resolutionMathlib.CategoryTheory.Preadditive.InjectiveResolution

This file has been ported!

Changes since the initial port

The following section lists changes to this file in mathlib3 and mathlib4 that occured after the initial port. Most recent changes are shown first. Hovering over a commit will show all commits associated with the same mathlib3 commit.

Changes in mathlib3

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(last sync)

Changes in mathlib3port

mathlib3
mathlib3port
a2706b55
bump to nightly-2024-02-05-08

mathlib commit https://github.com/leanprover-community/mathlib/commit/65a1391a0106c9204fe45bc73a039f056558cb83

516c6ec2
Diff 
@@ -72,7 +72,7 @@ structure InjectiveResolution (Z : C) where
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
 #print CategoryTheory.HasInjectiveResolution /-
-/- ./././Mathport/Syntax/Translate/Command.lean:404:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
+/- ./././Mathport/Syntax/Translate/Command.lean:400:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
 /-- An object admits a injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
a2706b55
bump to nightly-2023-12-23-06

mathlib commit https://github.com/leanprover-community/mathlib/commit/65a1391a0106c9204fe45bc73a039f056558cb83

b8c74971
Diff 
@@ -72,7 +72,7 @@ structure InjectiveResolution (Z : C) where
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
 #print CategoryTheory.HasInjectiveResolution /-
-/- ./././Mathport/Syntax/Translate/Command.lean:394:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
+/- ./././Mathport/Syntax/Translate/Command.lean:404:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
 /-- An object admits a injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
a2706b55
bump to nightly-2023-09-24-06

mathlib commit https://github.com/leanprover-community/mathlib/commit/ce64cd319bb6b3e82f31c2d38e79080d377be451

5655435f
Diff 
@@ -3,8 +3,8 @@ Copyright (c) 2022 Jujian Zhang. All rights reserved.
 Released under Apache 2.0 license as described in the file LICENSE.
 Authors: Jujian Zhang, Scott Morrison
 -/
-import Mathbin.CategoryTheory.Preadditive.Injective
-import Mathbin.Algebra.Homology.Single
+import CategoryTheory.Preadditive.Injective
+import Algebra.Homology.Single
 
 #align_import category_theory.preadditive.injective_resolution from "leanprover-community/mathlib"@"a2706b55e8d7f7e9b1f93143f0b88f2e34a11eea"
 
@@ -72,7 +72,7 @@ structure InjectiveResolution (Z : C) where
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
 #print CategoryTheory.HasInjectiveResolution /-
-/- ./././Mathport/Syntax/Translate/Command.lean:393:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
+/- ./././Mathport/Syntax/Translate/Command.lean:394:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
 /-- An object admits a injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
a2706b55
bump to nightly-2023-07-20-09

mathlib commit https://github.com/leanprover-community/mathlib/commit/8ea5598db6caeddde6cb734aa179cc2408dbd345

9c56d0dd
Diff 
@@ -2,15 +2,12 @@
 Copyright (c) 2022 Jujian Zhang. All rights reserved.
 Released under Apache 2.0 license as described in the file LICENSE.
 Authors: Jujian Zhang, Scott Morrison
-
-! This file was ported from Lean 3 source module category_theory.preadditive.injective_resolution
-! leanprover-community/mathlib commit a2706b55e8d7f7e9b1f93143f0b88f2e34a11eea
-! Please do not edit these lines, except to modify the commit id
-! if you have ported upstream changes.
 -/
 import Mathbin.CategoryTheory.Preadditive.Injective
 import Mathbin.Algebra.Homology.Single
 
+#align_import category_theory.preadditive.injective_resolution from "leanprover-community/mathlib"@"a2706b55e8d7f7e9b1f93143f0b88f2e34a11eea"
+
 /-!
 # Injective resolutions
a2706b55
bump to nightly-2023-06-13-21

mathlib commit https://github.com/leanprover-community/mathlib/commit/9fb8964792b4237dac6200193a0d533f1b3f7423

829520ac
Diff 
@@ -75,7 +75,7 @@ structure InjectiveResolution (Z : C) where
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
 #print CategoryTheory.HasInjectiveResolution /-
-/- ./././Mathport/Syntax/Translate/Command.lean:394:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
+/- ./././Mathport/Syntax/Translate/Command.lean:393:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
 /-- An object admits a injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
@@ -100,18 +100,22 @@ end
 
 namespace InjectiveResolution
 
+#print CategoryTheory.InjectiveResolution.ι_f_succ /-
 @[simp]
 theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1) = 0 :=
   by
   apply zero_of_source_iso_zero
   dsimp; rfl
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
+-/
 
+#print CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d /-
 @[simp]
 theorem ι_f_zero_comp_complex_d {Z : C} (I : InjectiveResolution Z) :
     I.ι.f 0 ≫ I.cocomplex.d 0 1 = 0 :=
   I.exact₀.w
 #align category_theory.InjectiveResolution.ι_f_zero_comp_complex_d CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d
+-/
 
 #print CategoryTheory.InjectiveResolution.complex_d_comp /-
 @[simp]
a2706b55
bump to nightly-2023-06-04-18

mathlib commit https://github.com/leanprover-community/mathlib/commit/5f25c089cb34db4db112556f23c50d12da81b297

3fb4268b
Diff 
@@ -75,7 +75,7 @@ structure InjectiveResolution (Z : C) where
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
 #print CategoryTheory.HasInjectiveResolution /-
-/- ./././Mathport/Syntax/Translate/Command.lean:393:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
+/- ./././Mathport/Syntax/Translate/Command.lean:394:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
 /-- An object admits a injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
a2706b55
bump to nightly-2023-05-28-06

mathlib commit https://github.com/leanprover-community/mathlib/commit/917c3c072e487b3cccdbfeff17e75b40e45f66cb

ba5d8b97
Diff 
@@ -100,9 +100,6 @@ end
 
 namespace InjectiveResolution
 
-/- warning: category_theory.InjectiveResolution.ι_f_succ -> CategoryTheory.InjectiveResolution.ι_f_succ is a dubious translation:
-<too large>
-Case conversion may be inaccurate. Consider using '#align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succₓ'. -/
 @[simp]
 theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1) = 0 :=
   by
@@ -110,9 +107,6 @@ theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1)
   dsimp; rfl
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
 
-/- warning: category_theory.InjectiveResolution.ι_f_zero_comp_complex_d -> CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d is a dubious translation:
-<too large>
-Case conversion may be inaccurate. Consider using '#align category_theory.InjectiveResolution.ι_f_zero_comp_complex_d CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_dₓ'. -/
 @[simp]
 theorem ι_f_zero_comp_complex_d {Z : C} (I : InjectiveResolution Z) :
     I.ι.f 0 ≫ I.cocomplex.d 0 1 = 0 :=
a2706b55
bump to nightly-2023-05-28-04

mathlib commit https://github.com/leanprover-community/mathlib/commit/917c3c072e487b3cccdbfeff17e75b40e45f66cb

6797a637
Diff 
@@ -136,19 +136,10 @@ def self (Z : C) [CategoryTheory.Injective Z] : InjectiveResolution Z
     where
   cocomplex := (CochainComplex.single₀ C).obj Z
   ι := 𝟙 ((CochainComplex.single₀ C).obj Z)
-  Injective n := by
-    cases n <;>
-      · dsimp
-        infer_instance
-  exact₀ := by
-    dsimp
-    exact exact_epi_zero _
-  exact n := by
-    dsimp
-    exact exact_of_zero _ _
-  Mono := by
-    dsimp
-    infer_instance
+  Injective n := by cases n <;> · dsimp; infer_instance
+  exact₀ := by dsimp; exact exact_epi_zero _
+  exact n := by dsimp; exact exact_of_zero _ _
+  Mono := by dsimp; infer_instance
 #align category_theory.InjectiveResolution.self CategoryTheory.InjectiveResolution.self
 -/
a2706b55
bump to nightly-2023-05-28-03

mathlib commit https://github.com/leanprover-community/mathlib/commit/917c3c072e487b3cccdbfeff17e75b40e45f66cb

6c6011cf
Diff 
@@ -101,10 +101,7 @@ end
 namespace InjectiveResolution
 
 /- warning: category_theory.InjectiveResolution.ι_f_succ -> CategoryTheory.InjectiveResolution.ι_f_succ is a dubious translation:
-lean 3 declaration is
-  forall {C : Type.{u2}} [_inst_1 : CategoryTheory.Category.{u1, u2} C] [_inst_2 : CategoryTheory.Limits.HasZeroObject.{u1, u2} C _inst_1] [_inst_3 : CategoryTheory.Limits.HasZeroMorphisms.{u1, u2} C _inst_1] [_inst_4 : CategoryTheory.Limits.HasEqualizers.{u1, u2} C _inst_1] [_inst_5 : CategoryTheory.Limits.HasImages.{u1, u2} C _inst_1] {Z : C} (I : CategoryTheory.InjectiveResolution.{u1, u2} C _inst_1 _inst_2 _inst_3 _inst_4 _inst_5 Z) (n : Nat), Eq.{succ u1} (Quiver.Hom.{succ u1, u2} C (CategoryTheory.CategoryStruct.toQuiver.{u1, u2} C (CategoryTheory.Category.toCategoryStruct.{u1, u2} C _inst_1)) (HomologicalComplex.x.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne) (CategoryTheory.Functor.obj.{u1, u1, u2, max u2 u1} C _inst_1 (CochainComplex.{u1, u2, 0} C _inst_1 _inst_3 Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne) (HomologicalComplex.CategoryTheory.category.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne)) (CochainComplex.single₀.{u1, u2} C _inst_1 _inst_3 _inst_2) Z) (HAdd.hAdd.{0, 0, 0} Nat Nat Nat (instHAdd.{0} Nat Nat.hasAdd) n (OfNat.ofNat.{0} Nat 1 (OfNat.mk.{0} Nat 1 (One.one.{0} Nat Nat.hasOne))))) (HomologicalComplex.x.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne) (CategoryTheory.InjectiveResolution.cocomplex.{u1, u2} C _inst_1 _inst_2 _inst_3 _inst_4 _inst_5 Z I) (HAdd.hAdd.{0, 0, 0} Nat Nat Nat (instHAdd.{0} Nat Nat.hasAdd) n (OfNat.ofNat.{0} Nat 1 (OfNat.mk.{0} Nat 1 (One.one.{0} Nat Nat.hasOne)))))) (HomologicalComplex.Hom.f.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne) (CategoryTheory.Functor.obj.{u1, u1, u2, max u2 u1} C _inst_1 (CochainComplex.{u1, u2, 0} C _inst_1 _inst_3 Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne) (HomologicalComplex.CategoryTheory.category.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne)) (CochainComplex.single₀.{u1, u2} C _inst_1 _inst_3 _inst_2) Z) (CategoryTheory.InjectiveResolution.cocomplex.{u1, u2} C _inst_1 _inst_2 _inst_3 _inst_4 _inst_5 Z I) (CategoryTheory.InjectiveResolution.ι.{u1, u2} C _inst_1 _inst_2 _inst_3 _inst_4 _inst_5 Z I) (HAdd.hAdd.{0, 0, 0} Nat Nat Nat (instHAdd.{0} Nat Nat.hasAdd) n (OfNat.ofNat.{0} Nat 1 (OfNat.mk.{0} Nat 1 (One.one.{0} Nat Nat.hasOne))))) (OfNat.ofNat.{u1} (Quiver.Hom.{succ u1, u2} C (CategoryTheory.CategoryStruct.toQuiver.{u1, u2} C (CategoryTheory.Category.toCategoryStruct.{u1, u2} C _inst_1)) (HomologicalComplex.x.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne) (CategoryTheory.Functor.obj.{u1, u1, u2, max u2 u1} C _inst_1 (CochainComplex.{u1, u2, 0} C 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+<too large>
 Case conversion may be inaccurate. Consider using '#align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succₓ'. -/
 @[simp]
 theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1) = 0 :=
@@ -114,10 +111,7 @@ theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1)
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
 
 /- warning: category_theory.InjectiveResolution.ι_f_zero_comp_complex_d -> CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d is a dubious translation:
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+<too large>
 Case conversion may be inaccurate. Consider using '#align category_theory.InjectiveResolution.ι_f_zero_comp_complex_d CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_dₓ'. -/
 @[simp]
 theorem ι_f_zero_comp_complex_d {Z : C} (I : InjectiveResolution Z) :
a2706b55
bump to nightly-2023-05-11-02

mathlib commit https://github.com/leanprover-community/mathlib/commit/28b2a92f2996d28e580450863c130955de0ed398

1eda273d
Diff 
@@ -4,7 +4,7 @@ Released under Apache 2.0 license as described in the file LICENSE.
 Authors: Jujian Zhang, Scott Morrison
 
 ! This file was ported from Lean 3 source module category_theory.preadditive.injective_resolution
-! leanprover-community/mathlib commit 14b69e9f3c16630440a2cbd46f1ddad0d561dee7
+! leanprover-community/mathlib commit a2706b55e8d7f7e9b1f93143f0b88f2e34a11eea
 ! Please do not edit these lines, except to modify the commit id
 ! if you have ported upstream changes.
 -/
@@ -14,6 +14,9 @@ import Mathbin.Algebra.Homology.Single
 /-!
 # Injective resolutions
 
+> THIS FILE IS SYNCHRONIZED WITH MATHLIB4.
+> Any changes to this file require a corresponding PR to mathlib4.
+
 A injective resolution `I : InjectiveResolution Z` of an object `Z : C` consists of
 a `ℕ`-indexed cochain complex `I.cocomplex` of injective objects,
 along with a cochain map `I.ι` from cochain complex consisting just of `Z` in degree zero to `C`,
14b69e9f
bump to nightly-2023-05-09-14

mathlib commit https://github.com/leanprover-community/mathlib/commit/d4437c68c8d350fc9d4e95e1e174409db35e30d7

3276c9af
Diff 
@@ -44,6 +44,7 @@ open Injective
 
 variable [HasZeroObject C] [HasZeroMorphisms C] [HasEqualizers C] [HasImages C]
 
+#print CategoryTheory.InjectiveResolution /-
 /--
 An `InjectiveResolution Z` consists of a bundled `ℕ`-indexed cochain complex of injective objects,
 along with a quasi-isomorphism to the complex consisting of just `Z` supported in degree `0`.
@@ -66,24 +67,29 @@ structure InjectiveResolution (Z : C) where
   exact : ∀ n, Exact (cocomplex.d n (n + 1)) (cocomplex.d (n + 1) (n + 2)) := by infer_instance
   Mono : Mono (ι.f 0) := by infer_instance
 #align category_theory.InjectiveResolution CategoryTheory.InjectiveResolution
+-/
 
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
+#print CategoryTheory.HasInjectiveResolution /-
 /- ./././Mathport/Syntax/Translate/Command.lean:393:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
 /-- An object admits a injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
 #align category_theory.has_injective_resolution CategoryTheory.HasInjectiveResolution
+-/
 
 section
 
 variable (C)
 
+#print CategoryTheory.HasInjectiveResolutions /-
 /-- You will rarely use this typeclass directly: it is implied by the combination
 `[enough_injectives C]` and `[abelian C]`. -/
 class HasInjectiveResolutions : Prop where
   out : ∀ Z : C, HasInjectiveResolution Z
 #align category_theory.has_injective_resolutions CategoryTheory.HasInjectiveResolutions
+-/
 
 attribute [instance 100] has_injective_resolutions.out
 
@@ -91,6 +97,12 @@ end
 
 namespace InjectiveResolution
 
+/- warning: category_theory.InjectiveResolution.ι_f_succ -> CategoryTheory.InjectiveResolution.ι_f_succ is a dubious translation:
+lean 3 declaration is
+  forall {C : Type.{u2}} [_inst_1 : CategoryTheory.Category.{u1, u2} C] [_inst_2 : CategoryTheory.Limits.HasZeroObject.{u1, u2} C _inst_1] [_inst_3 : CategoryTheory.Limits.HasZeroMorphisms.{u1, u2} C _inst_1] [_inst_4 : CategoryTheory.Limits.HasEqualizers.{u1, u2} C _inst_1] [_inst_5 : CategoryTheory.Limits.HasImages.{u1, u2} C _inst_1] {Z : C} (I : CategoryTheory.InjectiveResolution.{u1, u2} C _inst_1 _inst_2 _inst_3 _inst_4 _inst_5 Z) (n : Nat), Eq.{succ u1} (Quiver.Hom.{succ u1, u2} C (CategoryTheory.CategoryStruct.toQuiver.{u1, u2} C (CategoryTheory.Category.toCategoryStruct.{u1, u2} C _inst_1)) (HomologicalComplex.x.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) Nat.hasOne) 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+but is expected to have type
+  forall {C : Type.{u2}} [_inst_1 : CategoryTheory.Category.{u1, u2} C] [_inst_2 : CategoryTheory.Limits.HasZeroObject.{u1, u2} C _inst_1] [_inst_3 : CategoryTheory.Limits.HasZeroMorphisms.{u1, u2} C _inst_1] [_inst_4 : CategoryTheory.Limits.HasEqualizers.{u1, u2} C _inst_1] [_inst_5 : CategoryTheory.Limits.HasImages.{u1, u2} C _inst_1] {Z : C} (I : CategoryTheory.InjectiveResolution.{u1, u2} C _inst_1 _inst_2 _inst_3 _inst_4 _inst_5 Z) (n : Nat), Eq.{succ u1} (Quiver.Hom.{succ u1, u2} C (CategoryTheory.CategoryStruct.toQuiver.{u1, u2} C (CategoryTheory.Category.toCategoryStruct.{u1, u2} C _inst_1)) (HomologicalComplex.X.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) 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(instOfNatNat 1))))) (HomologicalComplex.Hom.f.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) (CanonicallyOrderedCommSemiring.toOne.{0} Nat Nat.canonicallyOrderedCommSemiring)) (Prefunctor.obj.{succ u1, succ u1, u2, max u2 u1} C (CategoryTheory.CategoryStruct.toQuiver.{u1, u2} C (CategoryTheory.Category.toCategoryStruct.{u1, u2} C _inst_1)) (CochainComplex.{u1, u2, 0} C _inst_1 _inst_3 Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat 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+Case conversion may be inaccurate. Consider using '#align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succₓ'. -/
 @[simp]
 theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1) = 0 :=
   by
@@ -98,21 +110,30 @@ theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1)
   dsimp; rfl
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
 
+/- warning: category_theory.InjectiveResolution.ι_f_zero_comp_complex_d -> CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d is a dubious translation:
+lean 3 declaration is
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+but is expected to have type
+  forall {C : Type.{u2}} [_inst_1 : CategoryTheory.Category.{u1, u2} C] [_inst_2 : CategoryTheory.Limits.HasZeroObject.{u1, u2} C _inst_1] [_inst_3 : CategoryTheory.Limits.HasZeroMorphisms.{u1, u2} C _inst_1] [_inst_4 : CategoryTheory.Limits.HasEqualizers.{u1, u2} C _inst_1] [_inst_5 : CategoryTheory.Limits.HasImages.{u1, u2} C _inst_1] {Z : C} (I : CategoryTheory.InjectiveResolution.{u1, u2} C _inst_1 _inst_2 _inst_3 _inst_4 _inst_5 Z), Eq.{succ u1} (Quiver.Hom.{succ u1, u2} C (CategoryTheory.CategoryStruct.toQuiver.{u1, u2} C (CategoryTheory.Category.toCategoryStruct.{u1, u2} C _inst_1)) (HomologicalComplex.X.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) 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(HomologicalComplex.X.{u1, u2, 0} Nat C _inst_1 _inst_3 (ComplexShape.up.{0} Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) (CanonicallyOrderedCommSemiring.toOne.{0} Nat Nat.canonicallyOrderedCommSemiring)) (Prefunctor.obj.{succ u1, succ u1, u2, max u2 u1} C (CategoryTheory.CategoryStruct.toQuiver.{u1, u2} C (CategoryTheory.Category.toCategoryStruct.{u1, u2} C _inst_1)) (CochainComplex.{u1, u2, 0} C _inst_1 _inst_3 Nat (AddRightCancelMonoid.toAddRightCancelSemigroup.{0} Nat (AddCancelMonoid.toAddRightCancelMonoid.{0} Nat (AddCancelCommMonoid.toAddCancelMonoid.{0} Nat (OrderedCancelAddCommMonoid.toCancelAddCommMonoid.{0} Nat (StrictOrderedSemiring.toOrderedCancelAddCommMonoid.{0} Nat Nat.strictOrderedSemiring))))) 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+Case conversion may be inaccurate. Consider using '#align category_theory.InjectiveResolution.ι_f_zero_comp_complex_d CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_dₓ'. -/
 @[simp]
 theorem ι_f_zero_comp_complex_d {Z : C} (I : InjectiveResolution Z) :
     I.ι.f 0 ≫ I.cocomplex.d 0 1 = 0 :=
   I.exact₀.w
 #align category_theory.InjectiveResolution.ι_f_zero_comp_complex_d CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d
 
+#print CategoryTheory.InjectiveResolution.complex_d_comp /-
 @[simp]
 theorem complex_d_comp {Z : C} (I : InjectiveResolution Z) (n : ℕ) :
     I.cocomplex.d n (n + 1) ≫ I.cocomplex.d (n + 1) (n + 2) = 0 :=
   (I.exact _).w
 #align category_theory.InjectiveResolution.complex_d_comp CategoryTheory.InjectiveResolution.complex_d_comp
+-/
 
 instance {Z : C} (I : InjectiveResolution Z) (n : ℕ) : CategoryTheory.Mono (I.ι.f n) := by
   cases n <;> infer_instance
 
+#print CategoryTheory.InjectiveResolution.self /-
 /-- An injective object admits a trivial injective resolution: itself in degree 0. -/
 def self (Z : C) [CategoryTheory.Injective Z] : InjectiveResolution Z
     where
@@ -132,6 +153,7 @@ def self (Z : C) [CategoryTheory.Injective Z] : InjectiveResolution Z
     dsimp
     infer_instance
 #align category_theory.InjectiveResolution.self CategoryTheory.InjectiveResolution.self
+-/
 
 end InjectiveResolution
14b69e9f
bump to nightly-2023-04-24-06

mathlib commit https://github.com/leanprover-community/mathlib/commit/09079525fd01b3dda35e96adaa08d2f943e1648c

ff662d55
Diff 
@@ -69,7 +69,7 @@ structure InjectiveResolution (Z : C) where
 
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
-/- ./././Mathport/Syntax/Translate/Command.lean:388:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
+/- ./././Mathport/Syntax/Translate/Command.lean:393:30: infer kinds are unsupported in Lean 4: #[`out] [] -/
 /-- An object admits a injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
@@ -85,7 +85,7 @@ class HasInjectiveResolutions : Prop where
   out : ∀ Z : C, HasInjectiveResolution Z
 #align category_theory.has_injective_resolutions CategoryTheory.HasInjectiveResolutions
 
-attribute [instance] has_injective_resolutions.out
+attribute [instance 100] has_injective_resolutions.out
 
 end
14b69e9f
bump to nightly-2023-02-28-22

mathlib commit https://github.com/leanprover-community/mathlib/commit/9da1b3534b65d9661eb8f42443598a92bbb49211

1fb1623f
Diff 
@@ -61,7 +61,7 @@ you will not typically need to use this bundled object, and will instead use
 structure InjectiveResolution (Z : C) where
   cocomplex : CochainComplex C ℕ
   ι : (CochainComplex.single₀ C).obj Z ⟶ cocomplex
-  Injective : ∀ n, Injective (cocomplex.x n) := by infer_instance
+  Injective : ∀ n, Injective (cocomplex.pt n) := by infer_instance
   exact₀ : Exact (ι.f 0) (cocomplex.d 0 1) := by infer_instance
   exact : ∀ n, Exact (cocomplex.d n (n + 1)) (cocomplex.d (n + 1) (n + 2)) := by infer_instance
   Mono : Mono (ι.f 0) := by infer_instance
14b69e9f
bump to nightly-2023-02-21-16

mathlib commit https://github.com/leanprover-community/mathlib/commit/bd9851ca476957ea4549eb19b40e7b5ade9428cc

1107b979

Changes in mathlib4

mathlib3
mathlib4
14b69e9f
chore: classify porting notes referring to missing linters (#12098)

Reference the newly created issues #12094 and #12096, as well as the pre-existing #5171. Change all references to #10927 to #5171. Some of these changes were not labelled as "porting note"; change this for good measure.

c5b5490c
Diff 
@@ -39,6 +39,7 @@ variable {C : Type u} [Category.{v} C] [HasZeroObject C] [HasZeroMorphisms C]
 An `InjectiveResolution Z` consists of a bundled `ℕ`-indexed cochain complex of injective objects,
 along with a quasi-isomorphism from the complex consisting of just `Z` supported in degree `0`.
 -/
+-- Porting note(#5171): this linter isn't ported yet.
 -- @[nolint has_nonempty_instance]
 structure InjectiveResolution (Z : C) where
   /-- the cochain complex involved in the resolution -/
14b69e9f
chore: classify simp can do this porting notes (#10619)

Classify by adding issue number (#10618) to porting notes claiming anything semantically equivalent to simp can prove this or simp can simplify this.

de765f60
Diff 
@@ -98,7 +98,7 @@ theorem ι_f_succ (n : ℕ) : I.ι.f (n + 1) = 0 :=
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
 
--- Porting note: removed @[simp] simp can prove this
+-- Porting note (#10618): removed @[simp] simp can prove this
 @[reassoc]
 theorem ι_f_zero_comp_complex_d :
     I.ι.f 0 ≫ I.cocomplex.d 0 1 = 0 := by
@@ -106,7 +106,7 @@ theorem ι_f_zero_comp_complex_d :
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.ι_f_zero_comp_complex_d CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d
 
--- Porting note: removed @[simp] simp can prove this
+-- Porting note (#10618): removed @[simp] simp can prove this
 theorem complex_d_comp (n : ℕ) :
     I.cocomplex.d n (n + 1) ≫ I.cocomplex.d (n + 1) (n + 2) = 0 := by
   simp
14b69e9f
feat(Algebra/Homology): the class of quasi-isomorphisms in the homotopy category (#9686)

This PR introduces the class of quasi-isomorphisms in the homotopy category of homological complexes.

df4dbd30
Diff 
@@ -55,7 +55,7 @@ set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution CategoryTheory.InjectiveResolution
 
 open InjectiveResolution in
-attribute [instance] injective quasiIso hasHomology
+attribute [instance] injective hasHomology InjectiveResolution.quasiIso
 
 /-- An object admits an injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
14b69e9f
refactor(Algebra/Homology): use the new homology API (#8706)

This PR refactors the construction of left derived functors using the new homology API: this also affects the dependencies (Ext functors, group cohomology, local cohomology). As a result, the old homology API is no longer used in any significant way in mathlib. Then, with this PR, the homology refactor is essentially complete.

The organization of the files was made more coherent: the definition of a projective resolution is in Preadditive.ProjectiveResolution, the existence of resolutions when there are enough projectives is shown in Abelian.ProjectiveResolution, and the left derived functor is constructed in Abelian.LeftDerived; the dual results are in Preadditive.InjectiveResolution, Abelian.InjectiveResolution and Abelian.RightDerived.

Co-authored-by: Joël Riou <37772949+joelriou@users.noreply.github.com>

41529d1e
Diff 
@@ -37,7 +37,7 @@ open Limits HomologicalComplex CochainComplex
 variable {C : Type u} [Category.{v} C] [HasZeroObject C] [HasZeroMorphisms C]
 /--
 An `InjectiveResolution Z` consists of a bundled `ℕ`-indexed cochain complex of injective objects,
-along with a quasi-isomorphism to the complex consisting of just `Z` supported in degree `0`.
+along with a quasi-isomorphism from the complex consisting of just `Z` supported in degree `0`.
 -/
 -- @[nolint has_nonempty_instance]
 structure InjectiveResolution (Z : C) where
@@ -87,7 +87,7 @@ lemma cocomplex_exactAt_succ (n : ℕ) :
   rw [← quasiIsoAt_iff_exactAt I.ι (n + 1) (exactAt_succ_single_obj _ _)]
   · infer_instance
 
-lemma exact_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ):
+lemma exact_succ (n : ℕ):
     (ShortComplex.mk _ _ (I.cocomplex.d_comp_d n (n + 1) (n + 2))).Exact :=
   (HomologicalComplex.exactAt_iff' _ n (n + 1) (n + 2) (by simp)
     (by simp only [CochainComplex.next]; rfl)).1 (I.cocomplex_exactAt_succ n)
@@ -99,6 +99,7 @@ set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
 
 -- Porting note: removed @[simp] simp can prove this
+@[reassoc]
 theorem ι_f_zero_comp_complex_d :
     I.ι.f 0 ≫ I.cocomplex.d 0 1 = 0 := by
   simp
14b69e9f
refactor: use the new homology API for right derived functors (#8593)

Injective resolutions and right derived functors are redefined using the new homology API.

Co-authored-by: Joël Riou <37772949+joelriou@users.noreply.github.com>

547a8415
Diff 
@@ -1,10 +1,11 @@
 /-
 Copyright (c) 2022 Jujian Zhang. All rights reserved.
 Released under Apache 2.0 license as described in the file LICENSE.
-Authors: Jujian Zhang, Scott Morrison
+Authors: Jujian Zhang, Scott Morrison, Joël Riou
 -/
 import Mathlib.CategoryTheory.Preadditive.Injective
-import Mathlib.Algebra.Homology.Single
+import Mathlib.Algebra.Homology.ShortComplex.HomologicalComplex
+import Mathlib.Algebra.Homology.QuasiIso
 
 #align_import category_theory.preadditive.injective_resolution from "leanprover-community/mathlib"@"14b69e9f3c16630440a2cbd46f1ddad0d561dee7"
 
@@ -13,8 +14,8 @@ import Mathlib.Algebra.Homology.Single
 
 An injective resolution `I : InjectiveResolution Z` of an object `Z : C` consists of
 an `ℕ`-indexed cochain complex `I.cocomplex` of injective objects,
-along with a cochain map `I.ι` from cochain complex consisting just of `Z` in degree zero to `C`,
-so that the augmented cochain complex is exact.
+along with a quasi-isomorphism `I.ι` from the cochain complex consisting just of `Z`
+in degree zero to `I.cocomplex`.
 ```
 Z ----> 0 ----> ... ----> 0 ----> ...
 |       |                 |
@@ -27,46 +28,34 @@ I⁰ ---> I¹ ---> ... ----> Iⁿ ---> ...
 
 noncomputable section
 
-open CategoryTheory CategoryTheory.Limits
-
 universe v u
 
 namespace CategoryTheory
 
-variable {C : Type u} [Category.{v} C]
-
-open Injective
+open Limits HomologicalComplex CochainComplex
 
-variable [HasZeroObject C] [HasZeroMorphisms C] [HasEqualizers C] [HasImages C]
+variable {C : Type u} [Category.{v} C] [HasZeroObject C] [HasZeroMorphisms C]
 /--
 An `InjectiveResolution Z` consists of a bundled `ℕ`-indexed cochain complex of injective objects,
 along with a quasi-isomorphism to the complex consisting of just `Z` supported in degree `0`.
-
-Except in situations where you want to provide a particular injective resolution
-(for example to compute a derived functor),
-you will not typically need to use this bundled object, and will instead use
-* `injectiveResolution Z`: the `ℕ`-indexed cochain complex
-  (equipped with `injective` and `exact` instances)
-* `InjectiveResolution.ι Z`: the cochain map from `(single C _ 0).obj Z` to
-  `InjectiveResolution Z` (all the components are equipped with `Mono` instances,
-  and when the category is `Abelian` we will show `ι` is a quasi-iso).
 -/
 -- @[nolint has_nonempty_instance]
 structure InjectiveResolution (Z : C) where
+  /-- the cochain complex involved in the resolution -/
   cocomplex : CochainComplex C ℕ
-  ι : (CochainComplex.single₀ C).obj Z ⟶ cocomplex
+  /-- the cochain complex must be degreewise injective -/
   injective : ∀ n, Injective (cocomplex.X n) := by infer_instance
-  exact₀ : Exact (ι.f 0) (cocomplex.d 0 1) := by infer_instance
-  exact : ∀ n, Exact (cocomplex.d n (n + 1)) (cocomplex.d (n + 1) (n + 2)) := by infer_instance
-  mono : Mono (ι.f 0) := by infer_instance
+  /-- the cochain complex must have homology -/
+  [hasHomology : ∀ i, cocomplex.HasHomology i]
+  /-- the morphism from the single cochain complex with `Z` in degree `0` -/
+  ι : (single₀ C).obj Z ⟶ cocomplex
+  /-- the morphism from the single cochain complex with `Z` in degree `0` is a quasi-isomorphism -/
+  quasiIso : QuasiIso ι := by infer_instance
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution CategoryTheory.InjectiveResolution
 
 open InjectiveResolution in
-attribute [inherit_doc InjectiveResolution]
-  cocomplex InjectiveResolution.ι injective exact₀ exact mono
-
-attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
+attribute [instance] injective quasiIso hasHomology
 
 /-- An object admits an injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
@@ -91,50 +80,72 @@ end
 
 namespace InjectiveResolution
 
+variable {Z : C} (I : InjectiveResolution Z)
+
+lemma cocomplex_exactAt_succ (n : ℕ) :
+    I.cocomplex.ExactAt (n + 1) := by
+  rw [← quasiIsoAt_iff_exactAt I.ι (n + 1) (exactAt_succ_single_obj _ _)]
+  · infer_instance
+
+lemma exact_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ):
+    (ShortComplex.mk _ _ (I.cocomplex.d_comp_d n (n + 1) (n + 2))).Exact :=
+  (HomologicalComplex.exactAt_iff' _ n (n + 1) (n + 2) (by simp)
+    (by simp only [CochainComplex.next]; rfl)).1 (I.cocomplex_exactAt_succ n)
+
 @[simp]
-theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1) = 0 := by
-  apply zero_of_source_iso_zero
-  rfl
+theorem ι_f_succ (n : ℕ) : I.ι.f (n + 1) = 0 :=
+  (isZero_single_obj_X _ _ _ _ (by simp)).eq_of_src _ _
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
 
 -- Porting note: removed @[simp] simp can prove this
-theorem ι_f_zero_comp_complex_d {Z : C} (I : InjectiveResolution Z) :
-    I.ι.f 0 ≫ I.cocomplex.d 0 1 = 0 :=
-  I.exact₀.w
+theorem ι_f_zero_comp_complex_d :
+    I.ι.f 0 ≫ I.cocomplex.d 0 1 = 0 := by
+  simp
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.ι_f_zero_comp_complex_d CategoryTheory.InjectiveResolution.ι_f_zero_comp_complex_d
 
 -- Porting note: removed @[simp] simp can prove this
-theorem complex_d_comp {Z : C} (I : InjectiveResolution Z) (n : ℕ) :
-    I.cocomplex.d n (n + 1) ≫ I.cocomplex.d (n + 1) (n + 2) = 0 :=
-  (I.exact _).w
+theorem complex_d_comp (n : ℕ) :
+    I.cocomplex.d n (n + 1) ≫ I.cocomplex.d (n + 1) (n + 2) = 0 := by
+  simp
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.complex_d_comp CategoryTheory.InjectiveResolution.complex_d_comp
 
-instance {Z : C} (I : InjectiveResolution Z) (n : ℕ) : CategoryTheory.Mono (I.ι.f n) := by
+/-- The (limit) kernel fork given by the composition
+`Z ⟶ I.cocomplex.X 0 ⟶ I.cocomplex.X 1` when `I : InjectiveResolution Z`. -/
+@[simp]
+def kernelFork : KernelFork (I.cocomplex.d 0 1) :=
+  KernelFork.ofι _ I.ι_f_zero_comp_complex_d
+
+/-- `Z` is the kernel of `I.cocomplex.X 0 ⟶ I.cocomplex.X 1` when `I : InjectiveResolution Z`. -/
+def isLimitKernelFork : IsLimit (I.kernelFork) := by
+  refine IsLimit.ofIsoLimit (I.cocomplex.cyclesIsKernel 0 1 (by simp)) (Iso.symm ?_)
+  refine Fork.ext ((singleObjHomologySelfIso _ _ _).symm ≪≫
+    isoOfQuasiIsoAt I.ι 0 ≪≫ I.cocomplex.isoHomologyπ₀.symm) ?_
+  rw [← cancel_epi (singleObjHomologySelfIso (ComplexShape.up ℕ) _ _).hom,
+    ← cancel_epi (isoHomologyπ₀ _).hom,
+    ← cancel_epi (singleObjCyclesSelfIso (ComplexShape.up ℕ) _ _).inv]
+  simp
+
+instance (n : ℕ) : Mono (I.ι.f n) := by
   cases n
-  · apply I.mono
+  · exact mono_of_isLimit_fork I.isLimitKernelFork
   · rw [ι_f_succ]; infer_instance
 
+variable (Z)
+
 /-- An injective object admits a trivial injective resolution: itself in degree 0. -/
-def self (Z : C) [CategoryTheory.Injective Z] : InjectiveResolution Z where
+@[simps]
+def self [Injective Z] : InjectiveResolution Z where
   cocomplex := (CochainComplex.single₀ C).obj Z
   ι := 𝟙 ((CochainComplex.single₀ C).obj Z)
   injective n := by
     cases n
     · simpa
-    · exact ((HomologicalComplex.isZero_single_obj_X (ComplexShape.up ℕ) 0 Z) _
-        (Nat.succ_ne_zero _)).injective
-  exact₀ := by
-    dsimp
-    exact exact_epi_zero _
-  exact n := by
-    dsimp
-    exact exact_of_zero _ _
-  mono := by
-    dsimp
-    infer_instance
+    · apply IsZero.injective
+      apply HomologicalComplex.isZero_single_obj_X
+      simp
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.self CategoryTheory.InjectiveResolution.self
14b69e9f
refactor(Algebra/Homology): remove single₀ (#8208)

This PR removes the special definitions of single₀ for chain and cochain complexes, so as to avoid duplication of code with HomologicalComplex.single which is the functor constructing the complex that is supported by a single arbitrary degree. single₀ was supposed to have better definitional properties, but it turns out that in Lean4, it is no longer true (at least for the action of this functor on objects). The computation of the homology of these single complexes is generalized for HomologicalComplex.single using the new homology API: this result is moved to a separate file Algebra.Homology.SingleHomology.

ecdd87a3
Diff 
@@ -122,9 +122,10 @@ def self (Z : C) [CategoryTheory.Injective Z] : InjectiveResolution Z where
   cocomplex := (CochainComplex.single₀ C).obj Z
   ι := 𝟙 ((CochainComplex.single₀ C).obj Z)
   injective n := by
-    cases n <;>
-      · dsimp
-        infer_instance
+    cases n
+    · simpa
+    · exact ((HomologicalComplex.isZero_single_obj_X (ComplexShape.up ℕ) 0 Z) _
+        (Nat.succ_ne_zero _)).injective
   exact₀ := by
     dsimp
     exact exact_epi_zero _
14b69e9f
chore: script to replace headers with #align_import statements (#5979)

Open in Gitpod

Co-authored-by: Eric Wieser <wieser.eric@gmail.com> Co-authored-by: Scott Morrison <scott.morrison@gmail.com>

89aa3a3b
Diff 
@@ -2,15 +2,12 @@
 Copyright (c) 2022 Jujian Zhang. All rights reserved.
 Released under Apache 2.0 license as described in the file LICENSE.
 Authors: Jujian Zhang, Scott Morrison
-
-! This file was ported from Lean 3 source module category_theory.preadditive.injective_resolution
-! leanprover-community/mathlib commit 14b69e9f3c16630440a2cbd46f1ddad0d561dee7
-! Please do not edit these lines, except to modify the commit id
-! if you have ported upstream changes.
 -/
 import Mathlib.CategoryTheory.Preadditive.Injective
 import Mathlib.Algebra.Homology.Single
 
+#align_import category_theory.preadditive.injective_resolution from "leanprover-community/mathlib"@"14b69e9f3c16630440a2cbd46f1ddad0d561dee7"
+
 /-!
 # Injective resolutions
14b69e9f
chore: cleanup whitespace (#5988)

Grepping for [^ .:{-] [^ :] and reviewing the results. Once I started I couldn't stop. :-)

Co-authored-by: Scott Morrison <scott.morrison@gmail.com>

12343aa5
Diff 
@@ -50,7 +50,7 @@ Except in situations where you want to provide a particular injective resolution
 you will not typically need to use this bundled object, and will instead use
 * `injectiveResolution Z`: the `ℕ`-indexed cochain complex
   (equipped with `injective` and `exact` instances)
-* `InjectiveResolution.ι Z`: the cochain map from  `(single C _ 0).obj Z` to
+* `InjectiveResolution.ι Z`: the cochain map from `(single C _ 0).obj Z` to
   `InjectiveResolution Z` (all the components are equipped with `Mono` instances,
   and when the category is `Abelian` we will show `ι` is a quasi-iso).
 -/
14b69e9f
chore: fix grammar in docs (#5668)
15cdb8ec
Diff 
@@ -15,7 +15,7 @@ import Mathlib.Algebra.Homology.Single
 # Injective resolutions
 
 An injective resolution `I : InjectiveResolution Z` of an object `Z : C` consists of
-a `ℕ`-indexed cochain complex `I.cocomplex` of injective objects,
+an `ℕ`-indexed cochain complex `I.cocomplex` of injective objects,
 along with a cochain map `I.ι` from cochain complex consisting just of `Z` in degree zero to `C`,
 so that the augmented cochain complex is exact.
 ```
14b69e9f
chore: fix grammar 2/3 (#5002)

Part 2 of #5001

9e80ae3b
Diff 
@@ -14,7 +14,7 @@ import Mathlib.Algebra.Homology.Single
 /-!
 # Injective resolutions
 
-A injective resolution `I : InjectiveResolution Z` of an object `Z : C` consists of
+An injective resolution `I : InjectiveResolution Z` of an object `Z : C` consists of
 a `ℕ`-indexed cochain complex `I.cocomplex` of injective objects,
 along with a cochain map `I.ι` from cochain complex consisting just of `Z` in degree zero to `C`,
 so that the augmented cochain complex is exact.
@@ -71,7 +71,7 @@ attribute [inherit_doc InjectiveResolution]
 
 attribute [instance] InjectiveResolution.injective InjectiveResolution.mono
 
-/-- An object admits a injective resolution. -/
+/-- An object admits an injective resolution. -/
 class HasInjectiveResolution (Z : C) : Prop where
   out : Nonempty (InjectiveResolution Z)
 #align category_theory.has_injective_resolution CategoryTheory.HasInjectiveResolution
14b69e9f
chore: tidy various files (#3996)
9ec7de3c
Diff 
@@ -30,9 +30,7 @@ I⁰ ---> I¹ ---> ... ----> Iⁿ ---> ...
 
 noncomputable section
 
-open CategoryTheory
-
-open CategoryTheory.Limits
+open CategoryTheory CategoryTheory.Limits
 
 universe v u
 
@@ -85,7 +83,7 @@ section
 variable (C)
 
 /-- You will rarely use this typeclass directly: it is implied by the combination
-`[enough_injectives C]` and `[abelian C]`. -/
+`[EnoughInjectives C]` and `[Abelian C]`. -/
 class HasInjectiveResolutions : Prop where
   out : ∀ Z : C, HasInjectiveResolution Z
 #align category_theory.has_injective_resolutions CategoryTheory.HasInjectiveResolutions
@@ -99,7 +97,7 @@ namespace InjectiveResolution
 @[simp]
 theorem ι_f_succ {Z : C} (I : InjectiveResolution Z) (n : ℕ) : I.ι.f (n + 1) = 0 := by
   apply zero_of_source_iso_zero
-  dsimp; rfl
+  rfl
 set_option linter.uppercaseLean3 false in
 #align category_theory.InjectiveResolution.ι_f_succ CategoryTheory.InjectiveResolution.ι_f_succ
 
@@ -145,4 +143,3 @@ set_option linter.uppercaseLean3 false in
 end InjectiveResolution
 
 end CategoryTheory
-
14b69e9f
feat: port CategoryTheory.Preadditive.InjectiveResolution (#3860)

Co-authored-by: Matthew Robert Ballard <100034030+mattrobball@users.noreply.github.com>

98de1337

Dependencies 3 + 320

321 files ported (99.1%)
128520 lines ported (99.2%)
Show graph

The unported dependencies are