Context stringlengths 285 157k | file_name stringlengths 21 79 | start int64 14 3.67k | end int64 18 3.69k | theorem stringlengths 25 2.71k | proof stringlengths 5 10.6k |
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/-
Copyright (c) 2021 Anne Baanen. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Anne Baanen
-/
import Mathlib.RingTheory.Localization.FractionRing
import Mathlib.Algebra.Polynomial.RingDivision
#align_import field_theory.ratfunc from "leanprover-community/mathlib"@"... | Mathlib/FieldTheory/RatFunc/Defs.lean | 181 | 185 | theorem mk_eq_localization_mk (p : K[X]) {q : K[X]} (hq : q ≠ 0) :
RatFunc.mk p q =
ofFractionRing (Localization.mk p ⟨q, mem_nonZeroDivisors_iff_ne_zero.mpr hq⟩) := by |
-- Porting note: the original proof, did not need to pass `hq`
rw [mk_def_of_ne _ hq, Localization.mk_eq_mk']
|
/-
Copyright (c) 2023 Jz Pan. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jz Pan
-/
import Mathlib.FieldTheory.SplittingField.Construction
import Mathlib.FieldTheory.IsAlgClosed.AlgebraicClosure
import Mathlib.FieldTheory.Separable
import Mathlib.FieldTheory.NormalC... | Mathlib/FieldTheory/SeparableDegree.lean | 493 | 495 | theorem natSepDegree_eq_one_iff_of_monic (q : ℕ) [ExpChar F q] (hm : f.Monic)
(hi : Irreducible f) : f.natSepDegree = 1 ↔ ∃ (n : ℕ) (y : F), f = X ^ q ^ n - C y := by |
simp_rw [hi.natSepDegree_eq_one_iff_of_monic' q hm, map_sub, expand_X, expand_C]
|
/-
Copyright (c) 2022 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov
-/
import Mathlib.Analysis.Calculus.FDeriv.Analytic
import Mathlib.Analysis.Asymptotics.SpecificAsymptotics
import Mathlib.Analysis.Complex.CauchyIntegral
#align_impo... | Mathlib/Analysis/Complex/RemovableSingularity.lean | 115 | 123 | theorem tendsto_limUnder_of_differentiable_on_punctured_nhds_of_isLittleO {f : ℂ → E} {c : ℂ}
(hd : ∀ᶠ z in 𝓝[≠] c, DifferentiableAt ℂ f z)
(ho : (fun z => f z - f c) =o[𝓝[≠] c] fun z => (z - c)⁻¹) :
Tendsto f (𝓝[≠] c) (𝓝 <| limUnder (𝓝[≠] c) f) := by |
rw [eventually_nhdsWithin_iff] at hd
have : DifferentiableOn ℂ f ({z | z ≠ c → DifferentiableAt ℂ f z} \ {c}) := fun z hz =>
(hz.1 hz.2).differentiableWithinAt
have H := differentiableOn_update_limUnder_of_isLittleO hd this ho
exact continuousAt_update_same.1 (H.differentiableAt hd).continuousAt
|
/-
Copyright (c) 2020 Anne Baanen. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Anne Baanen, Filippo A. E. Nuccio
-/
import Mathlib.RingTheory.Localization.Integer
import Mathlib.RingTheory.Localization.Submodule
#align_import ring_theory.fractional_ideal from "lean... | Mathlib/RingTheory/FractionalIdeal/Basic.lean | 716 | 717 | theorem one_le {I : FractionalIdeal S P} : 1 ≤ I ↔ (1 : P) ∈ I := by |
rw [← coe_le_coe, coe_one, Submodule.one_le, mem_coe]
|
/-
Copyright (c) 2020 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers, Manuel Candales
-/
import Mathlib.Analysis.InnerProductSpace.Projection
import Mathlib.Geometry.Euclidean.PerpBisector
import Mathlib.Algebra.QuadraticDiscriminant
#align_... | Mathlib/Geometry/Euclidean/Basic.lean | 398 | 401 | theorem dist_orthogonalProjection_eq_zero_iff {s : AffineSubspace ℝ P} [Nonempty s]
[HasOrthogonalProjection s.direction] {p : P} :
dist p (orthogonalProjection s p) = 0 ↔ p ∈ s := by |
rw [dist_comm, dist_eq_zero, orthogonalProjection_eq_self_iff]
|
/-
Copyright (c) 2019 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes
-/
import Mathlib.Data.Matrix.Basic
import Mathlib.Data.PEquiv
#align_import data.matrix.pequiv from "leanprover-community/mathlib"@"3e068ece210655b7b9a9477c3aff38a492400aa... | Mathlib/Data/Matrix/PEquiv.lean | 152 | 155 | theorem single_mul_single [Fintype n] [DecidableEq k] [DecidableEq m] [DecidableEq n] [Semiring α]
(a : m) (b : n) (c : k) :
((single a b).toMatrix : Matrix _ _ α) * (single b c).toMatrix = (single a c).toMatrix := by |
rw [← toMatrix_trans, single_trans_single]
|
/-
Copyright (c) 2021 Jireh Loreaux. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jireh Loreaux
-/
import Mathlib.Algebra.Star.Subalgebra
import Mathlib.RingTheory.Ideal.Maps
import Mathlib.Tactic.NoncommRing
#align_import algebra.algebra.spectrum from "leanprover-c... | Mathlib/Algebra/Algebra/Spectrum.lean | 327 | 328 | theorem singleton_sub_eq (a : A) (r : R) : {r} - σ a = σ (↑ₐ r - a) := by |
rw [sub_eq_add_neg, neg_eq, singleton_add_eq, sub_eq_add_neg]
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Mario Carneiro, Kevin Buzzard, Yury Kudryashov, Eric Wieser
-/
import Mathlib.GroupTheory.GroupAction.BigOperators
import Mathlib.Logic.Equiv.Fin
import Mathlib.Algebra... | Mathlib/LinearAlgebra/Pi.lean | 64 | 66 | theorem pi_eq_zero (f : (i : ι) → M₂ →ₗ[R] φ i) : pi f = 0 ↔ ∀ i, f i = 0 := by |
simp only [LinearMap.ext_iff, pi_apply, funext_iff];
exact ⟨fun h a b => h b a, fun h a b => h b a⟩
|
/-
Copyright (c) 2018 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes, Johannes Hölzl, Scott Morrison, Jens Wagemaker
-/
import Mathlib.Algebra.GroupWithZero.Divisibility
import Mathlib.Algebra.MonoidAlgebra.Basic
import Mathlib.Data.Finset.So... | Mathlib/Algebra/Polynomial/Basic.lean | 831 | 835 | theorem ext_iff {p q : R[X]} : p = q ↔ ∀ n, coeff p n = coeff q n := by |
rcases p with ⟨f : ℕ →₀ R⟩
rcases q with ⟨g : ℕ →₀ R⟩
-- porting note (#10745): was `simp [coeff, DFunLike.ext_iff]`
simpa [coeff] using DFunLike.ext_iff (f := f) (g := g)
|
/-
Copyright (c) 2022 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers
-/
import Mathlib.Algebra.CharP.Invertible
import Mathlib.Algebra.Order.Interval.Set.Group
import Mathlib.Analysis.Convex.Segment
import Mathlib.LinearAlgebra.AffineSpace.Fi... | Mathlib/Analysis/Convex/Between.lean | 377 | 380 | theorem wbtw_swap_right_iff [NoZeroSMulDivisors R V] (x : P) {y z : P} :
Wbtw R x y z ∧ Wbtw R x z y ↔ y = z := by |
rw [wbtw_comm, wbtw_comm (z := y), eq_comm]
exact wbtw_swap_left_iff R x
|
/-
Copyright (c) 2020 Riccardo Brasca. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Riccardo Brasca
-/
import Mathlib.Algebra.NeZero
import Mathlib.Algebra.Polynomial.BigOperators
import Mathlib.Algebra.Polynomial.Lifts
import Mathlib.Algebra.Polynomial.Splits
import... | Mathlib/RingTheory/Polynomial/Cyclotomic/Basic.lean | 579 | 582 | theorem cyclotomic_prime_pow_mul_X_pow_sub_one (R : Type*) [CommRing R] (p k : ℕ)
[hn : Fact (Nat.Prime p)] :
cyclotomic (p ^ (k + 1)) R * (X ^ p ^ k - 1) = X ^ p ^ (k + 1) - 1 := by |
rw [cyclotomic_prime_pow_eq_geom_sum hn.out, geom_sum_mul, ← pow_mul, pow_succ, mul_comm]
|
/-
Copyright (c) 2017 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Mathlib.Algebra.Associated
import Mathlib.Algebra.Star.Unitary
import Mathlib.RingTheory.Int.Basic
import Mathlib.RingTheory.PrincipalIdealDomain
import Mathli... | Mathlib/NumberTheory/Zsqrtd/Basic.lean | 806 | 810 | theorem nonneg_mul_lem {x y : ℕ} {a : ℤ√d} (ha : Nonneg a) : Nonneg (⟨x, y⟩ * a) := by |
have : (⟨x, y⟩ * a : ℤ√d) = (x : ℤ√d) * a + sqrtd * ((y : ℤ√d) * a) := by
rw [decompose, right_distrib, mul_assoc, Int.cast_natCast, Int.cast_natCast]
rw [this]
exact (nonneg_smul ha).add (nonneg_muld <| nonneg_smul ha)
|
/-
Copyright (c) 2019 Scott Morrison. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Scott Morrison
-/
import Mathlib.Algebra.Category.GroupCat.Preadditive
import Mathlib.GroupTheory.QuotientGroup
import Mathlib.CategoryTheory.Limits.Shapes.Kernels
import Mathlib.Categ... | Mathlib/Algebra/Category/GroupCat/Colimits.lean | 181 | 184 | theorem cocone_naturality_components (j j' : J) (f : j ⟶ j') (x : F.obj j) :
(coconeMorphism.{w} F j') (F.map f x) = (coconeMorphism F j) x := by |
rw [← cocone_naturality F f]
rfl
|
/-
Copyright (c) 2022 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov
-/
import Mathlib.Order.Interval.Set.OrdConnected
import Mathlib.Data.Set.Lattice
#align_import data.set.intervals.ord_connected_component from "leanprover-community/... | Mathlib/Order/Interval/Set/OrdConnectedComponent.lean | 142 | 149 | theorem dual_ordConnectedSection (s : Set α) :
ordConnectedSection (ofDual ⁻¹' s) = ofDual ⁻¹' ordConnectedSection s := by |
simp only [ordConnectedSection]
simp (config := { unfoldPartialApp := true }) only [ordConnectedProj]
ext x
simp only [mem_range, Subtype.exists, mem_preimage, OrderDual.exists, dual_ordConnectedComponent,
ofDual_toDual]
tauto
|
/-
Copyright (c) 2020 Scott Morrison. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Scott Morrison
-/
import Mathlib.Algebra.Polynomial.Degree.Definitions
import Mathlib.Algebra.Polynomial.Eval
import Mathlib.Algebra.Polynomial.Monic
import Mathlib.Algebra.Polynomial.... | Mathlib/RingTheory/Polynomial/Pochhammer.lean | 156 | 161 | theorem ascPochhammer_mul (n m : ℕ) :
ascPochhammer S n * (ascPochhammer S m).comp (X + (n : S[X])) = ascPochhammer S (n + m) := by |
induction' m with m ih
· simp
· rw [ascPochhammer_succ_right, Polynomial.mul_X_add_natCast_comp, ← mul_assoc, ih,
← add_assoc, ascPochhammer_succ_right, Nat.cast_add, add_assoc]
|
/-
Copyright (c) 2023 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov, Joseph Myers
-/
import Mathlib.Analysis.InnerProductSpace.Orthogonal
import Mathlib.Analysis.Normed.Group.AddTorsor
#align_import geometry.euclidean.basic from "lean... | Mathlib/Geometry/Euclidean/PerpBisector.lean | 92 | 95 | theorem mem_perpBisector_iff_dist_eq : c ∈ perpBisector p₁ p₂ ↔ dist c p₁ = dist c p₂ := by |
rw [dist_eq_norm_vsub V, dist_eq_norm_vsub V, ← real_inner_add_sub_eq_zero_iff,
vsub_sub_vsub_cancel_left, inner_add_left, add_eq_zero_iff_eq_neg, ← inner_neg_right,
neg_vsub_eq_vsub_rev, mem_perpBisector_iff_inner_eq_inner]
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Mario Carneiro, Yury Kudryashov
-/
import Mathlib.Order.Filter.Interval
import Mathlib.Order.Interval.Set.Pi
import Mathlib.Tactic.TFAE
import Mathlib.Tactic.NormNum
im... | Mathlib/Topology/Order/Basic.lean | 409 | 412 | theorem exists_Ico_subset_of_mem_nhds' {a : α} {s : Set α} (hs : s ∈ 𝓝 a) {u : α} (hu : a < u) :
∃ u' ∈ Ioc a u, Ico a u' ⊆ s := by |
simpa only [OrderDual.exists, exists_prop, dual_Ico, dual_Ioc] using
exists_Ioc_subset_of_mem_nhds' (show ofDual ⁻¹' s ∈ 𝓝 (toDual a) from hs) hu.dual
|
/-
Copyright (c) 2022 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers
-/
import Mathlib.Algebra.ModEq
import Mathlib.Algebra.Module.Defs
import Mathlib.Algebra.Order.Archimedean
import Mathlib.Algebra.Periodic
import Mathlib.Data.Int.SuccPred
... | Mathlib/Algebra/Order/ToIntervalMod.lean | 123 | 124 | theorem toIcoDiv_zsmul_sub_self (a b : α) : toIcoDiv hp a b • p - b = -toIcoMod hp a b := by |
rw [toIcoMod, neg_sub]
|
/-
Copyright (c) 2022 Pierre-Alexandre Bazin. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Pierre-Alexandre Bazin
-/
import Mathlib.Algebra.DirectSum.Module
import Mathlib.Algebra.Module.BigOperators
import Mathlib.LinearAlgebra.Isomorphisms
import Mathlib.GroupTheor... | Mathlib/Algebra/Module/Torsion.lean | 833 | 845 | theorem isTorsion'_powers_iff (p : R) :
IsTorsion' M (Submonoid.powers p) ↔ ∀ x : M, ∃ n : ℕ, p ^ n • x = 0 := by |
-- Porting note: previous term proof was having trouble elaborating
constructor
· intro h x
let ⟨⟨a, ⟨n, hn⟩⟩, hx⟩ := @h x
dsimp at hn
use n
rw [hn]
apply hx
· intro h x
let ⟨n, hn⟩ := h x
exact ⟨⟨_, ⟨n, rfl⟩⟩, hn⟩
|
/-
Copyright (c) 2020 Riccardo Brasca. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Riccardo Brasca
-/
import Mathlib.RingTheory.Polynomial.Cyclotomic.Basic
import Mathlib.RingTheory.RootsOfUnity.Minpoly
#align_import ring_theory.polynomial.cyclotomic.roots from "le... | Mathlib/RingTheory/Polynomial/Cyclotomic/Roots.lean | 127 | 129 | theorem cyclotomic.roots_eq_primitiveRoots_val [NeZero (n : R)] :
(cyclotomic n R).roots = (primitiveRoots n R).val := by |
rw [← cyclotomic.roots_to_finset_eq_primitiveRoots]
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Mario Carneiro, Yury Kudryashov
-/
import Mathlib.Order.Filter.Interval
import Mathlib.Order.Interval.Set.Pi
import Mathlib.Tactic.TFAE
import Mathlib.Tactic.NormNum
im... | Mathlib/Topology/Order/Basic.lean | 547 | 551 | theorem SecondCountableTopology.of_separableSpace_orderTopology [DenselyOrdered α]
[SeparableSpace α] : SecondCountableTopology α := by |
rcases exists_countable_dense α with ⟨s, hc, hd⟩
refine ⟨⟨_, ?_, hd.topology_eq_generateFrom⟩⟩
exact (hc.image _).union (hc.image _)
|
/-
Copyright (c) 2017 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Mathlib.Algebra.Order.Ring.Defs
import Mathlib.Algebra.Group.Int
import Mathlib.Data.Nat.Dist
import Mathlib.Data.Ordmap.Ordnode
import Mathlib.Tactic.Abel
imp... | Mathlib/Data/Ordmap/Ordset.lean | 114 | 115 | theorem Sized.eq_node' {s l x r} (h : @Sized α (node s l x r)) : node s l x r = .node' l x r := by |
rw [h.1]
|
/-
Copyright (c) 2022 Yaël Dillies, Bhavik Mehta. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yaël Dillies, Bhavik Mehta
-/
import Mathlib.Combinatorics.SimpleGraph.Regularity.Bound
import Mathlib.Combinatorics.SimpleGraph.Regularity.Equitabilise
import Mathlib.Comb... | Mathlib/Combinatorics/SimpleGraph/Regularity/Chunk.lean | 188 | 191 | theorem card_eq_of_mem_parts_chunk (hs : s ∈ (chunk hP G ε hU).parts) :
s.card = m ∨ s.card = m + 1 := by |
unfold chunk at hs
split_ifs at hs <;> exact card_eq_of_mem_parts_equitabilise hs
|
/-
Copyright (c) 2020 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers
-/
import Mathlib.LinearAlgebra.AffineSpace.AffineEquiv
#align_import linear_algebra.affine_space.affine_subspace from "leanprover-community/mathlib"@"e96bdfbd1e8c98a09ff75... | Mathlib/LinearAlgebra/AffineSpace/AffineSubspace.lean | 479 | 485 | theorem mem_mk'_iff_vsub_mem {p₁ p₂ : P} {direction : Submodule k V} :
p₂ ∈ mk' p₁ direction ↔ p₂ -ᵥ p₁ ∈ direction := by |
refine ⟨fun h => ?_, fun h => ?_⟩
· rw [← direction_mk' p₁ direction]
exact vsub_mem_direction h (self_mem_mk' _ _)
· rw [← vsub_vadd p₂ p₁]
exact vadd_mem_mk' p₁ h
|
/-
Copyright (c) 2019 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes, Yakov Pechersky
-/
import Mathlib.Data.List.Nodup
import Mathlib.Data.List.Zip
import Mathlib.Data.Nat.Defs
import Mathlib.Data.List.Infix
#align_import data.list.rotate f... | Mathlib/Data/List/Rotate.lean | 142 | 144 | theorem rotate_eq_drop_append_take {l : List α} {n : ℕ} :
n ≤ l.length → l.rotate n = l.drop n ++ l.take n := by |
rw [rotate_eq_rotate']; exact rotate'_eq_drop_append_take
|
/-
Copyright (c) 2018 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro, Johannes Hölzl
-/
import Mathlib.Dynamics.Ergodic.MeasurePreserving
import Mathlib.MeasureTheory.Function.SimpleFunc
import Mathlib.MeasureTheory.Measure.MutuallySingul... | Mathlib/MeasureTheory/Integral/Lebesgue.lean | 946 | 964 | theorem lintegral_iSup_ae {f : ℕ → α → ℝ≥0∞} (hf : ∀ n, Measurable (f n))
(h_mono : ∀ n, ∀ᵐ a ∂μ, f n a ≤ f n.succ a) : ∫⁻ a, ⨆ n, f n a ∂μ = ⨆ n, ∫⁻ a, f n a ∂μ := by |
let ⟨s, hs⟩ := exists_measurable_superset_of_null (ae_iff.1 (ae_all_iff.2 h_mono))
let g n a := if a ∈ s then 0 else f n a
have g_eq_f : ∀ᵐ a ∂μ, ∀ n, g n a = f n a :=
(measure_zero_iff_ae_nmem.1 hs.2.2).mono fun a ha n => if_neg ha
calc
∫⁻ a, ⨆ n, f n a ∂μ = ∫⁻ a, ⨆ n, g n a ∂μ :=
lintegral_cong... |
/-
Copyright (c) 2020 Bhavik Mehta. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Bhavik Mehta, Yaël Dillies
-/
import Mathlib.Data.Set.Lattice
import Mathlib.Data.SetLike.Basic
import Mathlib.Order.GaloisConnection
import Mathlib.Order.Hom.Basic
#align_import order.... | Mathlib/Order/Closure.lean | 204 | 205 | theorem setOf_isClosed_eq_range_closure : {x | c.IsClosed x} = Set.range c := by |
ext x; exact ⟨fun hx ↦ ⟨x, hx.closure_eq⟩, by rintro ⟨y, rfl⟩; exact c.isClosed_closure _⟩
|
/-
Copyright (c) 2022 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov
-/
import Mathlib.Order.Interval.Set.OrdConnected
import Mathlib.Data.Set.Lattice
#align_import data.set.intervals.ord_connected_component from "leanprover-community/... | Mathlib/Order/Interval/Set/OrdConnectedComponent.lean | 200 | 234 | theorem disjoint_ordT5Nhd : Disjoint (ordT5Nhd s t) (ordT5Nhd t s) := by |
rw [disjoint_iff_inf_le]
rintro x ⟨hx₁, hx₂⟩
rcases mem_iUnion₂.1 hx₁ with ⟨a, has, ha⟩
clear hx₁
rcases mem_iUnion₂.1 hx₂ with ⟨b, hbt, hb⟩
clear hx₂
rw [mem_ordConnectedComponent, subset_inter_iff] at ha hb
wlog hab : a ≤ b with H
· exact H (x := x) (y := y) (z := z) b hbt hb a has ha (le_of_not_le... |
/-
Copyright (c) 2019 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Mathlib.Data.Nat.Choose.Basic
import Mathlib.Data.List.Perm
import Mathlib.Data.List.Range
#align_import data.list.sublists from "leanprover-community/mathlib... | Mathlib/Data/List/Sublists.lean | 261 | 262 | theorem sublistsLenAux_zero (l : List α) (f : List α → β) (r) :
sublistsLenAux 0 l f r = f [] :: r := by | cases l <;> rfl
|
/-
Copyright (c) 2018 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes, Abhimanyu Pallavi Sudhir, Jean Lo, Calle Sönne, Benjamin Davidson
-/
import Mathlib.Analysis.SpecialFunctions.Exp
import Mathlib.Tactic.Positivity.Core
import Mathlib.Algeb... | Mathlib/Analysis/SpecialFunctions/Trigonometric/Basic.lean | 1,288 | 1,289 | theorem cos_nat_mul_two_pi_sub_pi (n : ℕ) : cos (n * (2 * π) - π) = -1 := by |
simpa only [cos_zero] using (cos_periodic.nat_mul n).sub_antiperiod_eq cos_antiperiodic
|
/-
Copyright (c) 2020 Yury G. Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury G. Kudryashov
-/
import Mathlib.Analysis.SpecialFunctions.Pow.NNReal
import Mathlib.Analysis.SpecialFunctions.Pow.Continuity
import Mathlib.Analysis.SumOverResidueClass
#alig... | Mathlib/Analysis/PSeries.lean | 211 | 218 | theorem summable_condensed_iff {f : ℕ → ℝ≥0} (hf : ∀ ⦃m n⦄, 0 < m → m ≤ n → f n ≤ f m) :
(Summable fun k : ℕ => (2 : ℝ≥0) ^ k * f (2 ^ k)) ↔ Summable f := by |
have h_succ_diff : SuccDiffBounded 2 (2 ^ ·) := by
intro n
simp [pow_succ, mul_two, two_mul]
convert summable_schlomilch_iff hf (pow_pos zero_lt_two) (pow_right_strictMono _root_.one_lt_two)
two_ne_zero h_succ_diff
simp [pow_succ, mul_two, two_mul]
|
/-
Copyright (c) 2018 Guy Leroy. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Sangwoo Jo (aka Jason), Guy Leroy, Johannes Hölzl, Mario Carneiro
-/
import Mathlib.Algebra.Group.Commute.Units
import Mathlib.Algebra.Group.Int
import Mathlib.Algebra.GroupWithZero.Semicon... | Mathlib/Data/Int/GCD.lean | 454 | 459 | theorem pow_gcd_eq_one {M : Type*} [Monoid M] (x : M) {m n : ℕ} (hm : x ^ m = 1) (hn : x ^ n = 1) :
x ^ m.gcd n = 1 := by |
rcases m with (rfl | m); · simp [hn]
obtain ⟨y, rfl⟩ := isUnit_ofPowEqOne hm m.succ_ne_zero
rw [← Units.val_pow_eq_pow_val, ← Units.val_one (α := M), ← zpow_natCast, ← Units.ext_iff] at *
rw [Nat.gcd_eq_gcd_ab, zpow_add, zpow_mul, zpow_mul, hn, hm, one_zpow, one_zpow, one_mul]
|
/-
Copyright (c) 2015 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Leonardo de Moura, Mario Carneiro
-/
import Mathlib.Data.FunLike.Equiv
import Mathlib.Data.Quot
import Mathlib.Init.Data.Bool.Lemmas
import Mathlib.Logic.Unique
import Mathlib.T... | Mathlib/Logic/Equiv/Defs.lean | 262 | 263 | theorem Perm.coe_subsingleton {α : Type*} [Subsingleton α] (e : Perm α) : (e : α → α) = id := by |
rw [Perm.subsingleton_eq_refl e, coe_refl]
|
/-
Copyright (c) 2022 Ivan Sadofschi Costa. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Ivan Sadofschi Costa
-/
import Mathlib.Topology.Order
import Mathlib.Topology.Sets.Opens
import Mathlib.Topology.ContinuousFunction.Basic
#align_import topology.continuous_funct... | Mathlib/Topology/ContinuousFunction/T0Sierpinski.lean | 55 | 58 | theorem productOfMemOpens_injective [T0Space X] : Function.Injective (productOfMemOpens X) := by |
intro x1 x2 h
apply Inseparable.eq
rw [← Inducing.inseparable_iff (productOfMemOpens_inducing X), h]
|
/-
Copyright (c) 2023 Peter Nelson. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Peter Nelson
-/
import Mathlib.SetTheory.Cardinal.Finite
#align_import data.set.ncard from "leanprover-community/mathlib"@"74c2af38a828107941029b03839882c5c6f87a04"
/-!
# Noncomputable... | Mathlib/Data/Set/Card.lean | 860 | 863 | theorem ncard_union_eq (h : Disjoint s t) (hs : s.Finite := by | toFinite_tac)
(ht : t.Finite := by toFinite_tac) : (s ∪ t).ncard = s.ncard + t.ncard := by
to_encard_tac
rw [hs.cast_ncard_eq, ht.cast_ncard_eq, (hs.union ht).cast_ncard_eq, encard_union_eq h]
|
/-
Copyright (c) 2020 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers
-/
import Mathlib.Geometry.Euclidean.Sphere.Basic
import Mathlib.LinearAlgebra.AffineSpace.FiniteDimensional
import Mathlib.Tactic.DeriveFintype
#align_import geometry.eucl... | Mathlib/Geometry/Euclidean/Circumcenter.lean | 316 | 326 | theorem eq_circumcenter_of_dist_eq {n : ℕ} (s : Simplex ℝ P n) {p : P}
(hp : p ∈ affineSpan ℝ (Set.range s.points)) {r : ℝ} (hr : ∀ i, dist (s.points i) p = r) :
p = s.circumcenter := by |
have h := s.circumsphere_unique_dist_eq.2 ⟨p, r⟩
simp only [hp, hr, forall_const, eq_self_iff_true, subset_sphere, Sphere.ext_iff,
Set.forall_mem_range, mem_sphere, true_and] at h
-- Porting note: added the next three lines (`simp` less powerful)
rw [subset_sphere (s := ⟨p, r⟩)] at h
simp only [hp, hr, f... |
/-
Copyright (c) 2017 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro, Johannes Hölzl, Patrick Massot
-/
import Mathlib.Data.Set.Image
import Mathlib.Data.SProd
#align_import data.set.prod from "leanprover-community/mathlib"@"48fb5b5280e7... | Mathlib/Data/Set/Prod.lean | 988 | 990 | theorem piCongrLeft_symm_preimage_pi (f : ι' ≃ ι) (s : Set ι') (t : ∀ i, Set (α i)) :
(f.piCongrLeft α).symm ⁻¹' s.pi (fun i' => t <| f i') = (f '' s).pi t := by |
ext; simp
|
/-
Copyright (c) 2014 Jeremy Avigad. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jeremy Avigad, Leonardo de Moura, Floris van Doorn, Yury Kudryashov, Neil Strickland
-/
import Mathlib.Algebra.Ring.InjSurj
import Mathlib.Algebra.Group.Units.Hom
import Mathlib.Algebra... | Mathlib/Algebra/Ring/Units.lean | 50 | 50 | theorem neg_divp (a : α) (u : αˣ) : -(a /ₚ u) = -a /ₚ u := by | simp only [divp, neg_mul]
|
/-
Copyright (c) 2014 Jeremy Avigad. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jeremy Avigad, Leonardo de Moura, Mario Carneiro
-/
import Batteries.Data.Nat.Gcd
import Mathlib.Init.Data.Nat.Notation
import Mathlib.Mathport.Rename
#align_import init.data.nat.gcd... | Mathlib/Init/Data/Nat/GCD.lean | 35 | 36 | theorem gcd_def (x y : ℕ) : gcd x y = if x = 0 then y else gcd (y % x) x := by |
cases x <;> simp [Nat.gcd_succ]
|
/-
Copyright (c) 2019 Kevin Kappelmann. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kevin Kappelmann
-/
import Mathlib.Algebra.ContinuedFractions.Translations
#align_import algebra.continued_fractions.continuants_recurrence from "leanprover-community/mathlib"@"5f11... | Mathlib/Algebra/ContinuedFractions/ContinuantsRecurrence.lean | 33 | 38 | theorem continuants_recurrenceAux {gp ppred pred : Pair K} (nth_s_eq : g.s.get? n = some gp)
(nth_conts_aux_eq : g.continuantsAux n = ppred)
(succ_nth_conts_aux_eq : g.continuantsAux (n + 1) = pred) :
g.continuants (n + 1) = ⟨gp.b * pred.a + gp.a * ppred.a, gp.b * pred.b + gp.a * ppred.b⟩ := by |
simp [nth_cont_eq_succ_nth_cont_aux,
continuantsAux_recurrence nth_s_eq nth_conts_aux_eq succ_nth_conts_aux_eq]
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Mario Carneiro, Yury Kudryashov
-/
import Mathlib.Order.Filter.Basic
import Mathlib.Topology.Bases
import Mathlib.Data.Set.Accumulate
import Mathlib.Topology.Bornology.... | Mathlib/Topology/Compactness/Compact.lean | 960 | 961 | theorem isCompact_range [CompactSpace X] {f : X → Y} (hf : Continuous f) : IsCompact (range f) := by |
rw [← image_univ]; exact isCompact_univ.image hf
|
/-
Copyright (c) 2014 Robert Lewis. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Robert Lewis, Leonardo de Moura, Mario Carneiro, Floris van Doorn
-/
import Mathlib.Algebra.Field.Basic
import Mathlib.Algebra.GroupWithZero.Units.Equiv
import Mathlib.Algebra.Order.Fiel... | Mathlib/Algebra/Order/Field/Basic.lean | 690 | 691 | theorem div_lt_iff_of_neg' (hc : c < 0) : b / c < a ↔ c * a < b := by |
rw [mul_comm, div_lt_iff_of_neg hc]
|
/-
Copyright (c) 2021 Heather Macbeth. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Heather Macbeth
-/
import Mathlib.Algebra.CharP.Invertible
import Mathlib.Analysis.NormedSpace.LinearIsometry
import Mathlib.Analysis.Normed.Group.AddTorsor
import Mathlib.Analysis.No... | Mathlib/Analysis/NormedSpace/AffineIsometry.lean | 412 | 415 | theorem toAffineIsometryEquiv_linearIsometryEquiv :
e.toAffineIsometryEquiv.linearIsometryEquiv = e := by |
ext
rfl
|
/-
Copyright (c) 2019 Reid Barton. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Patrick Massot, Sébastien Gouëzel, Zhouhang Zhou, Reid Barton
-/
import Mathlib.Logic.Equiv.Fin
import Mathlib.Topology.DenseEmbedding
import Mathlib.Topology.Support
impo... | Mathlib/Topology/Homeomorph.lean | 446 | 447 | theorem symm_map_nhds_eq (h : X ≃ₜ Y) (x : X) : map h.symm (𝓝 (h x)) = 𝓝 x := by |
rw [h.symm.map_nhds_eq, h.symm_apply_apply]
|
/-
Copyright (c) 2018 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Jens Wagemaker, Aaron Anderson
-/
import Mathlib.Algebra.BigOperators.Associated
import Mathlib.Algebra.GCDMonoid.Basic
import Mathlib.Data.Finsupp.Multiset
import Math... | Mathlib/RingTheory/UniqueFactorizationDomain.lean | 1,643 | 1,649 | theorem mem_factors'_iff_dvd {a p : α} (ha0 : a ≠ 0) (hp : Irreducible p) :
Subtype.mk (Associates.mk p) (irreducible_mk.2 hp) ∈ factors' a ↔ p ∣ a := by |
constructor
· rw [← mk_dvd_mk]
apply dvd_of_mem_factors'
apply ha0
· apply mem_factors'_of_dvd ha0 hp
|
/-
Copyright (c) 2022 Anatole Dedecker. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Anatole Dedecker
-/
import Mathlib.Topology.UniformSpace.UniformConvergenceTopology
#align_import topology.uniform_space.equicontinuity from "leanprover-community/mathlib"@"f2ce6086... | Mathlib/Topology/UniformSpace/Equicontinuity.lean | 603 | 607 | theorem equicontinuousAt_iInf_dom {t : κ → TopologicalSpace X'} {F : ι → X' → α}
{x₀ : X'} {k : κ} (hk : EquicontinuousAt (tX := t k) F x₀) :
EquicontinuousAt (tX := ⨅ k, t k) F x₀ := by |
rw [← equicontinuousWithinAt_univ (tX := _)] at hk ⊢
exact equicontinuousWithinAt_iInf_dom hk
|
/-
Copyright (c) 2020 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers
-/
import Mathlib.Algebra.Module.BigOperators
import Mathlib.Data.Fintype.BigOperators
import Mathlib.LinearAlgebra.AffineSpace.AffineMap
import Mathlib.LinearAlgebra.Affine... | Mathlib/LinearAlgebra/AffineSpace/Combination.lean | 513 | 515 | theorem sum_smul_vsub_const_eq_affineCombination_vsub (w : ι → k) (p₁ : ι → P) (p₂ : P)
(h : ∑ i ∈ s, w i = 1) : (∑ i ∈ s, w i • (p₁ i -ᵥ p₂)) = s.affineCombination k p₁ w -ᵥ p₂ := by |
rw [sum_smul_vsub_eq_affineCombination_vsub, affineCombination_apply_const _ _ _ h]
|
/-
Copyright (c) 2019 Jeremy Avigad. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jeremy Avigad, Yury Kudryashov
-/
import Mathlib.Analysis.Normed.Group.InfiniteSum
import Mathlib.Analysis.Normed.MulAction
import Mathlib.Topology.Algebra.Order.LiminfLimsup
import Mat... | Mathlib/Analysis/Asymptotics/Asymptotics.lean | 2,241 | 2,244 | theorem isBigO_atTop_iff_eventually_exists_pos {α : Type*}
[SemilatticeSup α] [Nonempty α] {f : α → G} {g : α → G'} :
f =O[atTop] g ↔ ∀ᶠ n₀ in atTop, ∃ c > 0, ∀ n ≥ n₀, c * ‖f n‖ ≤ ‖g n‖ := by |
simp_rw [isBigO_iff'', ← exists_prop, Subtype.exists', exists_eventually_atTop]
|
/-
Copyright (c) 2022 Violeta Hernández Palacios. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Violeta Hernández Palacios
-/
import Mathlib.SetTheory.Game.Ordinal
import Mathlib.SetTheory.Ordinal.NaturalOps
#align_import set_theory.game.birthday from "leanprover-com... | Mathlib/SetTheory/Game/Birthday.lean | 54 | 56 | theorem birthday_moveLeft_lt {x : PGame} (i : x.LeftMoves) :
(x.moveLeft i).birthday < x.birthday := by |
cases x; rw [birthday]; exact lt_max_of_lt_left (lt_lsub _ i)
|
/-
Copyright (c) 2022 Sébastien Gouëzel. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Sébastien Gouëzel
-/
import Mathlib.Analysis.Calculus.FDeriv.Add
import Mathlib.Analysis.Calculus.FDeriv.Equiv
import Mathlib.Analysis.Calculus.FDeriv.Prod
import Mathlib.Analysis.C... | Mathlib/Analysis/BoundedVariation.lean | 797 | 807 | theorem LipschitzOnWith.comp_eVariationOn_le {f : E → F} {C : ℝ≥0} {t : Set E}
(h : LipschitzOnWith C f t) {g : α → E} {s : Set α} (hg : MapsTo g s t) :
eVariationOn (f ∘ g) s ≤ C * eVariationOn g s := by |
apply iSup_le _
rintro ⟨n, ⟨u, hu, us⟩⟩
calc
(∑ i ∈ Finset.range n, edist (f (g (u (i + 1)))) (f (g (u i)))) ≤
∑ i ∈ Finset.range n, C * edist (g (u (i + 1))) (g (u i)) :=
Finset.sum_le_sum fun i _ => h (hg (us _)) (hg (us _))
_ = C * ∑ i ∈ Finset.range n, edist (g (u (i + 1))) (g (u i)) :=... |
/-
Copyright (c) 2022 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov
-/
import Mathlib.Analysis.Calculus.FDeriv.Analytic
import Mathlib.Analysis.Asymptotics.SpecificAsymptotics
import Mathlib.Analysis.Complex.CauchyIntegral
#align_impo... | Mathlib/Analysis/Complex/RemovableSingularity.lean | 71 | 87 | theorem differentiableOn_update_limUnder_of_isLittleO {f : ℂ → E} {s : Set ℂ} {c : ℂ} (hc : s ∈ 𝓝 c)
(hd : DifferentiableOn ℂ f (s \ {c}))
(ho : (fun z => f z - f c) =o[𝓝[≠] c] fun z => (z - c)⁻¹) :
DifferentiableOn ℂ (update f c (limUnder (𝓝[≠] c) f)) s := by |
set F : ℂ → E := fun z => (z - c) • f z
suffices DifferentiableOn ℂ F (s \ {c}) ∧ ContinuousAt F c by
rw [differentiableOn_compl_singleton_and_continuousAt_iff hc, ← differentiableOn_dslope hc,
dslope_sub_smul] at this
have hc : Tendsto f (𝓝[≠] c) (𝓝 (deriv F c)) :=
continuousAt_update_same.m... |
/-
Copyright (c) 2019 Jeremy Avigad. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jeremy Avigad, Yury Kudryashov
-/
import Mathlib.Analysis.Normed.Group.InfiniteSum
import Mathlib.Analysis.Normed.MulAction
import Mathlib.Topology.Algebra.Order.LiminfLimsup
import Mat... | Mathlib/Analysis/Asymptotics/Asymptotics.lean | 109 | 109 | theorem isBigO_iff_isBigOWith : f =O[l] g ↔ ∃ c : ℝ, IsBigOWith c l f g := by | rw [IsBigO_def]
|
/-
Copyright (c) 2021 Heather Macbeth. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Heather Macbeth
-/
import Mathlib.Analysis.Calculus.Deriv.Inv
import Mathlib.Analysis.NormedSpace.BallAction
import Mathlib.Analysis.SpecialFunctions.ExpDeriv
import Mathlib.Analysis.... | Mathlib/Geometry/Manifold/Instances/Sphere.lean | 318 | 322 | theorem stereographic_neg_apply (v : sphere (0 : E) 1) :
stereographic (norm_eq_of_mem_sphere (-v)) v = 0 := by |
convert stereographic_apply_neg (-v)
ext1
simp
|
/-
Copyright (c) 2020 Floris van Doorn. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Floris van Doorn, Sébastien Gouëzel
-/
import Mathlib.MeasureTheory.Measure.Haar.InnerProductSpace
import Mathlib.MeasureTheory.Measure.Lebesgue.EqHaar
import Mathlib.MeasureTheory.I... | Mathlib/MeasureTheory/Measure/Haar/NormedSpace.lean | 163 | 177 | theorem integrable_comp_smul_iff {E : Type*} [NormedAddCommGroup E] [NormedSpace ℝ E]
[MeasurableSpace E] [BorelSpace E] [FiniteDimensional ℝ E] (μ : Measure E) [IsAddHaarMeasure μ]
(f : E → F) {R : ℝ} (hR : R ≠ 0) : Integrable (fun x => f (R • x)) μ ↔ Integrable f μ := by |
-- reduce to one-way implication
suffices
∀ {g : E → F} (_ : Integrable g μ) {S : ℝ} (_ : S ≠ 0), Integrable (fun x => g (S • x)) μ by
refine ⟨fun hf => ?_, fun hf => this hf hR⟩
convert this hf (inv_ne_zero hR)
rw [← mul_smul, mul_inv_cancel hR, one_smul]
-- now prove
intro g hg S hS
let t :... |
/-
Copyright (c) 2022 Eric Rodriguez. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Eric Rodriguez
-/
import Mathlib.Algebra.GroupWithZero.Units.Lemmas
import Mathlib.Algebra.Order.BigOperators.Group.Finset
import Mathlib.Data.Fintype.BigOperators
#align_import data.... | Mathlib/Data/Sign.lean | 398 | 402 | theorem sign_nonneg_iff : 0 ≤ sign a ↔ 0 ≤ a := by |
rcases lt_trichotomy 0 a with (h | h | h)
· simp [h, h.le]
· simp [← h]
· simp [h, h.not_le]
|
/-
Copyright (c) 2014 Robert Lewis. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Robert Lewis, Leonardo de Moura, Johannes Hölzl, Mario Carneiro
-/
import Mathlib.Algebra.Field.Defs
import Mathlib.Algebra.GroupWithZero.Units.Lemmas
import Mathlib.Algebra.Ring.Commute... | Mathlib/Algebra/Field/Basic.lean | 101 | 106 | theorem one_div_neg_eq_neg_one_div (a : K) : 1 / -a = -(1 / a) :=
calc
1 / -a = 1 / (-1 * a) := by | rw [neg_eq_neg_one_mul]
_ = 1 / a * (1 / -1) := by rw [one_div_mul_one_div_rev]
_ = 1 / a * -1 := by rw [one_div_neg_one_eq_neg_one]
_ = -(1 / a) := by rw [mul_neg, mul_one]
|
/-
Copyright (c) 2022 Andrew Yang. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Andrew Yang
-/
import Mathlib.Data.ENat.Lattice
import Mathlib.Order.OrderIsoNat
import Mathlib.Tactic.TFAE
#align_import order.height from "leanprover-community/mathlib"@"bf27744463e962... | Mathlib/Order/Height.lean | 109 | 114 | theorem le_chainHeight_TFAE (n : ℕ) :
TFAE [↑n ≤ s.chainHeight, ∃ l ∈ s.subchain, length l = n, ∃ l ∈ s.subchain, n ≤ length l] := by |
tfae_have 1 → 2; · exact s.exists_chain_of_le_chainHeight
tfae_have 2 → 3; · rintro ⟨l, hls, he⟩; exact ⟨l, hls, he.ge⟩
tfae_have 3 → 1; · rintro ⟨l, hs, hn⟩; exact le_iSup₂_of_le l hs (WithTop.coe_le_coe.2 hn)
tfae_finish
|
/-
Copyright (c) 2021 Benjamin Davidson. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Benjamin Davidson
-/
import Mathlib.MeasureTheory.Integral.FundThmCalculus
import Mathlib.Analysis.SpecialFunctions.Trigonometric.ArctanDeriv
import Mathlib.Analysis.SpecialFunction... | Mathlib/Analysis/SpecialFunctions/Integrals.lean | 864 | 874 | theorem integral_sqrt_one_sub_sq : ∫ x in (-1 : ℝ)..1, √(1 - x ^ 2 : ℝ) = π / 2 :=
calc
_ = ∫ x in sin (-(π / 2)).. sin (π / 2), √(1 - x ^ 2 : ℝ) := by | rw [sin_neg, sin_pi_div_two]
_ = ∫ x in (-(π / 2))..(π / 2), √(1 - sin x ^ 2 : ℝ) * cos x :=
(integral_comp_mul_deriv (fun x _ => hasDerivAt_sin x) continuousOn_cos
(by continuity)).symm
_ = ∫ x in (-(π / 2))..(π / 2), cos x ^ 2 := by
refine integral_congr_ae (MeasureTheory.ae_o... |
/-
Copyright (c) 2019 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl
-/
import Mathlib.MeasureTheory.Integral.Lebesgue
#align_import measure_theory.measure.giry_monad from "leanprover-community/mathlib"@"56f4cd1ef396e9fd389b5d8371ee9ad91... | Mathlib/MeasureTheory/Measure/GiryMonad.lean | 176 | 178 | theorem bind_apply {m : Measure α} {f : α → Measure β} {s : Set β} (hs : MeasurableSet s)
(hf : Measurable f) : bind m f s = ∫⁻ a, f a s ∂m := by |
rw [bind, join_apply hs, lintegral_map (measurable_coe hs) hf]
|
/-
Copyright (c) 2020 Bhavik Mehta. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Bhavik Mehta
-/
import Mathlib.CategoryTheory.Limits.Shapes.Equalizers
import Mathlib.CategoryTheory.Limits.Shapes.KernelPair
#align_import category_theory.limits.shapes.reflexive from ... | Mathlib/CategoryTheory/Limits/Shapes/Reflexive.lean | 156 | 159 | theorem hasEqualizer_of_common_retraction [HasCoreflexiveEqualizers C] {A B : C} {f g : A ⟶ B}
(r : B ⟶ A) (fr : f ≫ r = 𝟙 _) (gr : g ≫ r = 𝟙 _) : HasEqualizer f g := by |
letI := IsCoreflexivePair.mk' r fr gr
infer_instance
|
/-
Copyright (c) 2021 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov
-/
import Mathlib.Analysis.Convex.Between
import Mathlib.MeasureTheory.Constructions.BorelSpace.Basic
import Mathlib.MeasureTheory.Measure.Lebesgue.Basic
import Mathli... | Mathlib/MeasureTheory/Measure/Hausdorff.lean | 321 | 331 | theorem mkMetric'_isMetric (m : Set X → ℝ≥0∞) : (mkMetric' m).IsMetric := by |
rintro s t ⟨r, r0, hr⟩
refine tendsto_nhds_unique_of_eventuallyEq
(mkMetric'.tendsto_pre _ _) ((mkMetric'.tendsto_pre _ _).add (mkMetric'.tendsto_pre _ _)) ?_
rw [← pos_iff_ne_zero] at r0
filter_upwards [Ioo_mem_nhdsWithin_Ioi ⟨le_rfl, r0⟩]
rintro ε ⟨_, εr⟩
refine boundedBy_union_of_top_of_nonempty_int... |
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Mario Carneiro, Patrick Massot, Yury Kudryashov, Rémy Degenne
-/
import Mathlib.Order.MinMax
import Mathlib.Data.Set.Subsingleton
import Mathlib.Tactic.Says
#align_imp... | Mathlib/Order/Interval/Set/Basic.lean | 887 | 889 | theorem Ioo_union_left (hab : a < b) : Ioo a b ∪ {a} = Ico a b := by |
rw [← Ico_diff_left, diff_union_self,
union_eq_self_of_subset_right (singleton_subset_iff.2 <| left_mem_Ico.2 hab)]
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Shing Tak Lam, Yury Kudryashov
-/
import Mathlib.Algebra.MvPolynomial.Derivation
import Mathlib.Algebra.MvPolynomial.Variables
#align_import data.mv_polynomial.pderiv from "leanprover... | Mathlib/Algebra/MvPolynomial/PDeriv.lean | 69 | 77 | theorem pderiv_monomial {i : σ} :
pderiv i (monomial s a) = monomial (s - single i 1) (a * s i) := by |
classical
simp only [pderiv_def, mkDerivation_monomial, Finsupp.smul_sum, smul_eq_mul, ← smul_mul_assoc,
← (monomial _).map_smul]
refine (Finset.sum_eq_single i (fun j _ hne => ?_) fun hi => ?_).trans ?_
· simp [Pi.single_eq_of_ne hne]
· rw [Finsupp.not_mem_support_iff] at hi; simp [hi]
· s... |
/-
Copyright (c) 2022 Damiano Testa. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Damiano Testa
-/
import Mathlib.Algebra.Polynomial.AlgebraMap
import Mathlib.Algebra.Polynomial.Reverse
import Mathlib.Algebra.Polynomial.Inductions
import Mathlib.RingTheory.Localizati... | Mathlib/Algebra/Polynomial/Laurent.lean | 418 | 423 | theorem induction_on_mul_T {Q : R[T;T⁻¹] → Prop} (f : R[T;T⁻¹])
(Qf : ∀ {f : R[X]} {n : ℕ}, Q (toLaurent f * T (-n))) : Q f := by |
rcases f.exists_T_pow with ⟨n, f', hf⟩
rw [← mul_one f, ← T_zero, ← Nat.cast_zero, ← Nat.sub_self n, Nat.cast_sub rfl.le, T_sub,
← mul_assoc, ← hf]
exact Qf
|
/-
Copyright (c) 2019 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl
-/
import Mathlib.MeasureTheory.Integral.Lebesgue
#align_import measure_theory.measure.giry_monad from "leanprover-community/mathlib"@"56f4cd1ef396e9fd389b5d8371ee9ad91... | Mathlib/MeasureTheory/Measure/GiryMonad.lean | 214 | 219 | theorem join_map_map {f : α → β} (hf : Measurable f) (μ : Measure (Measure α)) :
join (map (map f) μ) = map f (join μ) := by |
ext1 s hs
rw [join_apply hs, map_apply hf hs, join_apply (hf hs),
lintegral_map (measurable_coe hs) (measurable_map f hf)]
simp_rw [map_apply hf hs]
|
/-
Copyright (c) 2018 Kenny Lau. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kenny Lau, Patrick Massot
-/
import Mathlib.Algebra.Algebra.Subalgebra.Operations
import Mathlib.Algebra.Ring.Fin
import Mathlib.RingTheory.Ideal.Quotient
#align_import ring_theory.ideal.q... | Mathlib/RingTheory/Ideal/QuotientOperations.lean | 329 | 333 | theorem fst_comp_quotientMulEquivQuotientProd (I J : Ideal R) (coprime : IsCoprime I J) :
(RingHom.fst _ _).comp
(quotientMulEquivQuotientProd I J coprime : R ⧸ I * J →+* (R ⧸ I) × R ⧸ J) =
Ideal.Quotient.factor (I * J) I mul_le_right := by |
apply Quotient.ringHom_ext; ext; rfl
|
/-
Copyright (c) 2018 Ellen Arlt. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Ellen Arlt, Blair Shi, Sean Leather, Mario Carneiro, Johan Commelin, Lu-Ming Zhang
-/
import Mathlib.Algebra.Algebra.Opposite
import Mathlib.Algebra.Algebra.Pi
import Mathlib.Algebra.BigOp... | Mathlib/Data/Matrix/Basic.lean | 1,723 | 1,726 | theorem dotProduct_mulVec [Fintype n] [Fintype m] [NonUnitalSemiring R] (v : m → R)
(A : Matrix m n R) (w : n → R) : v ⬝ᵥ A *ᵥ w = v ᵥ* A ⬝ᵥ w := by |
simp only [dotProduct, vecMul, mulVec, Finset.mul_sum, Finset.sum_mul, mul_assoc]
exact Finset.sum_comm
|
/-
Copyright (c) 2020 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes
-/
import Mathlib.Algebra.Group.Aut
import Mathlib.Algebra.Group.Subgroup.Basic
import Mathlib.Logic.Function.Basic
#align_import group_theory.semidirect_product from "lean... | Mathlib/GroupTheory/SemidirectProduct.lean | 252 | 255 | theorem hom_ext {f g : N ⋊[φ] G →* H} (hl : f.comp inl = g.comp inl)
(hr : f.comp inr = g.comp inr) : f = g := by |
rw [lift_unique f, lift_unique g]
simp only [*]
|
/-
Copyright (c) 2022 Joël Riou. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joël Riou
-/
import Mathlib.CategoryTheory.Equivalence
#align_import algebraic_topology.dold_kan.compatibility from "leanprover-community/mathlib"@"32a7e535287f9c73f2e4d2aef306a39190f0b504... | Mathlib/AlgebraicTopology/DoldKan/Compatibility.lean | 133 | 138 | theorem equivalence₂CounitIso_eq :
(equivalence₂ eB hF).counitIso = equivalence₂CounitIso eB hF := by |
ext Y'
dsimp [equivalence₂, Iso.refl]
simp only [equivalence₁CounitIso_eq, equivalence₂CounitIso_hom_app,
equivalence₁CounitIso_hom_app, Functor.map_comp, assoc]
|
/-
Copyright (c) 2019 Floris van Doorn. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Floris van Doorn, Yury Kudryashov, Sébastien Gouëzel, Chris Hughes
-/
import Mathlib.Algebra.Group.Basic
import Mathlib.Algebra.Group.Pi.Basic
import Mathlib.Order.Fin
import Mathlib... | Mathlib/Data/Fin/Tuple/Basic.lean | 935 | 937 | theorem insertNth_sub_same [∀ j, AddGroup (α j)] (i : Fin (n + 1)) (x y : α i)
(p : ∀ j, α (i.succAbove j)) : i.insertNth x p - i.insertNth y p = Pi.single i (x - y) := by |
simp_rw [← insertNth_sub, ← insertNth_zero_right, Pi.sub_def, sub_self, Pi.zero_def]
|
/-
Copyright (c) 2022 Michael Stoll. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Michael Stoll
-/
import Mathlib.Data.Fintype.Parity
import Mathlib.NumberTheory.LegendreSymbol.ZModChar
import Mathlib.FieldTheory.Finite.Basic
#align_import number_theory.legendre_sym... | Mathlib/NumberTheory/LegendreSymbol/QuadraticChar/Basic.lean | 312 | 325 | theorem FiniteField.isSquare_neg_one_iff : IsSquare (-1 : F) ↔ Fintype.card F % 4 ≠ 3 := by |
classical -- suggested by the linter (instead of `[DecidableEq F]`)
by_cases hF : ringChar F = 2
· simp only [FiniteField.isSquare_of_char_two hF, Ne, true_iff_iff]
exact fun hf =>
one_ne_zero <|
(Nat.odd_of_mod_four_eq_three hf).symm.trans <| FiniteField.even_card_of_char_two hF
· have h₁ :=... |
/-
Copyright (c) 2018 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro, Johannes Hölzl, Sander Dahmen, Scott Morrison, Chris Hughes, Anne Baanen
-/
import Mathlib.LinearAlgebra.Dimension.Free
import Mathlib.Algebra.Module.Torsion
#align_im... | Mathlib/LinearAlgebra/Dimension/Constructions.lean | 550 | 552 | theorem Subalgebra.rank_top : Module.rank F (⊤ : Subalgebra F E) = Module.rank F E := by |
rw [subalgebra_top_rank_eq_submodule_top_rank]
exact _root_.rank_top F E
|
/-
Copyright (c) 2015 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Mathlib.Algebra.Group.Nat
import Mathlib.Algebra.Order.Sub.Canonical
import Mathlib.Data.List.Perm
import Mathlib.Data.Set.List
import Mathlib.Init.Quot... | Mathlib/Data/Multiset/Basic.lean | 3,016 | 3,017 | theorem disjoint_iff_ne {s t : Multiset α} : Disjoint s t ↔ ∀ a ∈ s, ∀ b ∈ t, a ≠ b := by |
simp [disjoint_left, imp_not_comm]
|
/-
Copyright (c) 2018 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes, Abhimanyu Pallavi Sudhir, Jean Lo, Calle Sönne, Benjamin Davidson
-/
import Mathlib.Analysis.SpecialFunctions.Exp
import Mathlib.Tactic.Positivity.Core
import Mathlib.Algeb... | Mathlib/Analysis/SpecialFunctions/Trigonometric/Basic.lean | 1,302 | 1,302 | theorem sin_pi_div_two_sub (x : ℂ) : sin (π / 2 - x) = cos x := by | simp [sub_eq_add_neg, sin_add]
|
/-
Copyright (c) 2022 Yaël Dillies. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yaël Dillies
-/
import Mathlib.Data.Fintype.Card
import Mathlib.Order.UpperLower.Basic
#align_import combinatorics.set_family.intersecting from "leanprover-community/mathlib"@"d90e4e186... | Mathlib/Combinatorics/SetFamily/Intersecting.lean | 122 | 130 | theorem Intersecting.isUpperSet' {s : Finset α} (hs : (s : Set α).Intersecting)
(h : ∀ t : Finset α, (t : Set α).Intersecting → s ⊆ t → s = t) : IsUpperSet (s : Set α) := by |
classical
rintro a b hab ha
rw [h (Insert.insert b s) _ (Finset.subset_insert _ _)]
· exact mem_insert_self _ _
rw [coe_insert]
exact
hs.insert (mt (eq_bot_mono hab) <| hs.ne_bot ha) fun c hc hbc => hs ha hc <| hbc.mono_left hab
|
/-
Copyright (c) 2022 David Kurniadi Angdinata. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: David Kurniadi Angdinata
-/
import Mathlib.AlgebraicGeometry.PrimeSpectrum.Basic
import Mathlib.RingTheory.Localization.AsSubring
#align_import algebraic_geometry.prime_spec... | Mathlib/AlgebraicGeometry/PrimeSpectrum/Maximal.lean | 129 | 138 | theorem iInf_localization_eq_bot : ⨅ v : PrimeSpectrum R,
Localization.subalgebra.ofField K _ (v.asIdeal.primeCompl_le_nonZeroDivisors) = ⊥ := by |
ext x
rw [Algebra.mem_iInf]
constructor
· rw [← MaximalSpectrum.iInf_localization_eq_bot, Algebra.mem_iInf]
exact fun hx ⟨v, hv⟩ => hx ⟨v, hv.isPrime⟩
· rw [Algebra.mem_bot]
rintro ⟨y, rfl⟩ ⟨v, hv⟩
exact ⟨y, 1, v.ne_top_iff_one.mp hv.ne_top, by rw [map_one, inv_one, mul_one]⟩
|
/-
Copyright (c) 2021 Stuart Presnell. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Stuart Presnell
-/
import Mathlib.Data.Finsupp.Multiset
import Mathlib.Data.Nat.GCD.BigOperators
import Mathlib.Data.Nat.PrimeFin
import Mathlib.NumberTheory.Padics.PadicVal
import Ma... | Mathlib/Data/Nat/Factorization/Basic.lean | 393 | 397 | theorem factorization_lt {n : ℕ} (p : ℕ) (hn : n ≠ 0) : n.factorization p < n := by |
by_cases pp : p.Prime
· exact (pow_lt_pow_iff_right pp.one_lt).1 <| (ord_proj_le p hn).trans_lt <|
lt_pow_self pp.one_lt _
· simpa only [factorization_eq_zero_of_non_prime n pp] using hn.bot_lt
|
/-
Copyright (c) 2020 Kenny Lau. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kenny Lau
-/
import Mathlib.Algebra.Polynomial.AlgebraMap
import Mathlib.Algebra.Polynomial.Monic
import Mathlib.Algebra.Ring.Action.Basic
import Mathlib.GroupTheory.GroupAction.Hom
import ... | Mathlib/Algebra/Polynomial/GroupRingAction.lean | 115 | 117 | theorem prodXSubSMul.coeff (x : R) (g : G) (n : ℕ) :
g • (prodXSubSMul G R x).coeff n = (prodXSubSMul G R x).coeff n := by |
rw [← Polynomial.coeff_smul, prodXSubSMul.smul]
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Mario Carneiro, Alexander Bentkamp
-/
import Mathlib.LinearAlgebra.Basis
import Mathlib.LinearAlgebra.FreeModule.Basic
import Mathlib.LinearAlgebra.LinearPMap
import Ma... | Mathlib/LinearAlgebra/Basis/VectorSpace.lean | 163 | 176 | theorem nonzero_span_atom (v : V) (hv : v ≠ 0) : IsAtom (span K {v} : Submodule K V) := by |
constructor
· rw [Submodule.ne_bot_iff]
exact ⟨v, ⟨mem_span_singleton_self v, hv⟩⟩
· intro T hT
by_contra h
apply hT.2
change span K {v} ≤ T
simp_rw [span_singleton_le_iff_mem, ← Ne.eq_def, Submodule.ne_bot_iff] at *
rcases h with ⟨s, ⟨hs, hz⟩⟩
rcases mem_span_singleton.1 (hT.1 hs) wi... |
/-
Copyright (c) 2015 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Leonardo de Moura, Jeremy Avigad, Minchao Wu, Mario Carneiro
-/
import Mathlib.Data.Finset.Attr
import Mathlib.Data.Multiset.FinsetOps
import Mathlib.Logic.Equiv.Set
import Math... | Mathlib/Data/Finset/Basic.lean | 890 | 892 | theorem forall_mem_cons (h : a ∉ s) (p : α → Prop) :
(∀ x, x ∈ cons a s h → p x) ↔ p a ∧ ∀ x, x ∈ s → p x := by |
simp only [mem_cons, or_imp, forall_and, forall_eq]
|
/-
Copyright (c) 2019 Scott Morrison. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Scott Morrison, Yaël Dillies
-/
import Mathlib.Order.Cover
import Mathlib.Order.Interval.Finset.Defs
#align_import data.finset.locally_finite from "leanprover-community/mathlib"@"442a... | Mathlib/Order/Interval/Finset/Basic.lean | 1,000 | 1,002 | theorem eq_of_mem_uIcc_of_mem_uIcc : a ∈ [[b, c]] → b ∈ [[a, c]] → a = b := by |
simp_rw [mem_uIcc]
exact Set.eq_of_mem_uIcc_of_mem_uIcc
|
/-
Copyright (c) 2022 Heather Macbeth. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Heather Macbeth
-/
import Mathlib.Analysis.Complex.AbsMax
import Mathlib.Analysis.LocallyConvex.WithSeminorms
import Mathlib.Geometry.Manifold.MFDeriv.Basic
import Mathlib.Topology.Lo... | Mathlib/Geometry/Manifold/Complex.lean | 123 | 135 | theorem apply_eq_of_isPreconnected_isCompact_isOpen {f : M → F} {U : Set M} {a b : M}
(hd : MDifferentiableOn I 𝓘(ℂ, F) f U) (hpc : IsPreconnected U) (hc : IsCompact U)
(ho : IsOpen U) (ha : a ∈ U) (hb : b ∈ U) : f a = f b := by |
refine ?_
-- Subtract `f b` to avoid the assumption `[StrictConvexSpace ℝ F]`
wlog hb₀ : f b = 0 generalizing f
· have hd' : MDifferentiableOn I 𝓘(ℂ, F) (f · - f b) U := fun x hx ↦
⟨(hd x hx).1.sub continuousWithinAt_const, (hd x hx).2.sub_const _⟩
simpa [sub_eq_zero] using this hd' (sub_self _)
r... |
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl
-/
import Mathlib.Topology.Algebra.InfiniteSum.Group
import Mathlib.Logic.Encodable.Lattice
/-!
# Infinite sums and products over `ℕ` and `ℤ`
This file contains lemma... | Mathlib/Topology/Algebra/InfiniteSum/NatInt.lean | 88 | 92 | theorem hasProd_iff_tendsto_nat [T2Space M] {f : ℕ → M} (hf : Multipliable f) :
HasProd f m ↔ Tendsto (fun n : ℕ ↦ ∏ i ∈ range n, f i) atTop (𝓝 m) := by |
refine ⟨fun h ↦ h.tendsto_prod_nat, fun h ↦ ?_⟩
rw [tendsto_nhds_unique h hf.hasProd.tendsto_prod_nat]
exact hf.hasProd
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl
-/
import Mathlib.Order.CompleteLattice
import Mathlib.Order.Synonym
import Mathlib.Order.Hom.Set
import Mathlib.Order.Bounds.Basic
#align_import order.galois_connectio... | Mathlib/Order/GaloisConnection.lean | 541 | 545 | theorem l_sup_u [SemilatticeSup α] [SemilatticeSup β] (gi : GaloisInsertion l u) (a b : β) :
l (u a ⊔ u b) = a ⊔ b :=
calc
l (u a ⊔ u b) = l (u a) ⊔ l (u b) := gi.gc.l_sup
_ = a ⊔ b := by | simp only [gi.l_u_eq]
|
/-
Copyright (c) 2023 Michael Stoll. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Michael Geißer, Michael Stoll
-/
import Mathlib.Tactic.Qify
import Mathlib.Data.ZMod.Basic
import Mathlib.NumberTheory.DiophantineApproximation
import Mathlib.NumberTheory.Zsqrtd.Basic
... | Mathlib/NumberTheory/Pell.lean | 281 | 284 | theorem y_mul_pos {a b : Solution₁ d} (hax : 0 < a.x) (hay : 0 < a.y) (hbx : 0 < b.x)
(hby : 0 < b.y) : 0 < (a * b).y := by |
simp only [y_mul]
positivity
|
/-
Copyright (c) 2019 Gabriel Ebner. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Gabriel Ebner, Sébastien Gouëzel, Yury Kudryashov, Anatole Dedecker
-/
import Mathlib.Analysis.Calculus.Deriv.Basic
import Mathlib.Analysis.Calculus.FDeriv.Add
#align_import analysis.c... | Mathlib/Analysis/Calculus/Deriv/Add.lean | 355 | 357 | theorem HasDerivAtFilter.const_sub (c : F) (hf : HasDerivAtFilter f f' x L) :
HasDerivAtFilter (fun x => c - f x) (-f') x L := by |
simpa only [sub_eq_add_neg] using hf.neg.const_add c
|
/-
Copyright (c) 2014 Jeremy Avigad. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jeremy Avigad, Leonardo de Moura, Mario Carneiro
-/
/-!
# Definitions and properties of `coprime`
-/
namespace Nat
/-!
### `coprime`
See also `nat.coprime_of_dvd` and `nat.coprime_o... | .lake/packages/batteries/Batteries/Data/Nat/Gcd.lean | 108 | 118 | theorem Coprime.coprime_div_left (cmn : Coprime m n) (dvd : a ∣ m) : Coprime (m / a) n := by |
match eq_zero_or_pos a with
| .inl h0 =>
rw [h0] at dvd
rw [Nat.eq_zero_of_zero_dvd dvd] at cmn ⊢
simp; assumption
| .inr hpos =>
let ⟨k, hk⟩ := dvd
rw [hk, Nat.mul_div_cancel_left _ hpos]
rw [hk] at cmn
exact cmn.coprime_mul_left
|
/-
Copyright (c) 2021 Scott Morrison. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johan Commelin, Scott Morrison
-/
import Mathlib.Algebra.Homology.ComplexShape
import Mathlib.CategoryTheory.Subobject.Limits
import Mathlib.CategoryTheory.GradedObject
import Mathlib.... | Mathlib/Algebra/Homology/HomologicalComplex.lean | 1,045 | 1,047 | theorem mk_d_1_0 : (mk X₀ X₁ X₂ d₀ d₁ s succ).d 0 1 = d₀ := by |
change ite (1 = 0 + 1) (d₀ ≫ 𝟙 X₁) 0 = d₀
rw [if_pos rfl, Category.comp_id]
|
/-
Copyright (c) 2020 Markus Himmel. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Markus Himmel, Scott Morrison
-/
import Mathlib.CategoryTheory.Preadditive.Yoneda.Basic
import Mathlib.CategoryTheory.Preadditive.Injective
import Mathlib.Algebra.Category.GroupCat.EpiM... | Mathlib/CategoryTheory/Preadditive/Yoneda/Injective.lean | 43 | 51 | theorem injective_iff_preservesEpimorphisms_preadditive_yoneda_obj' (J : C) :
Injective J ↔ (preadditiveYonedaObj J).PreservesEpimorphisms := by |
rw [injective_iff_preservesEpimorphisms_yoneda_obj]
refine ⟨fun h : (preadditiveYonedaObj J ⋙ (forget <| ModuleCat (End J))).PreservesEpimorphisms =>
?_, ?_⟩
· exact
Functor.preservesEpimorphisms_of_preserves_of_reflects (preadditiveYonedaObj J) (forget _)
· intro
exact (inferInstance : (preaddit... |
/-
Copyright (c) 2019 Sébastien Gouëzel. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Sébastien Gouëzel, Floris van Doorn
-/
import Mathlib.Analysis.Calculus.ContDiff.Defs
import Mathlib.Analysis.Calculus.FDeriv.Add
import Mathlib.Analysis.Calculus.FDeriv.Mul
import ... | Mathlib/Analysis/Calculus/ContDiff/Basic.lean | 1,231 | 1,239 | theorem contDiff_update [DecidableEq ι] (k : ℕ∞) (x : ∀ i, F' i) (i : ι) :
ContDiff 𝕜 k (update x i) := by |
rw [contDiff_pi]
intro j
dsimp [Function.update]
split_ifs with h
· subst h
exact contDiff_id
· exact contDiff_const
|
/-
Copyright (c) 2018 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes, Abhimanyu Pallavi Sudhir, Jean Lo, Calle Sönne, Benjamin Davidson
-/
import Mathlib.Analysis.SpecialFunctions.Trigonometric.Inverse
import Mathlib.Analysis.SpecialFunctions... | Mathlib/Analysis/SpecialFunctions/Trigonometric/InverseDeriv.lean | 66 | 71 | theorem hasDerivWithinAt_arcsin_Ici {x : ℝ} (h : x ≠ -1) :
HasDerivWithinAt arcsin (1 / √(1 - x ^ 2)) (Ici x) x := by |
rcases eq_or_ne x 1 with (rfl | h')
· convert (hasDerivWithinAt_const (1 : ℝ) _ (π / 2)).congr _ _ <;>
simp (config := { contextual := true }) [arcsin_of_one_le]
· exact (hasDerivAt_arcsin h h').hasDerivWithinAt
|
/-
Copyright (c) 2020 Yury G. Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury G. Kudryashov
-/
import Mathlib.Logic.Function.Iterate
import Mathlib.Order.Monotone.Basic
#align_import order.iterate from "leanprover-community/mathlib"@"2258b40dacd2942571... | Mathlib/Order/Iterate.lean | 207 | 209 | theorem iterate_pos_le_iff_map_le (h : Commute f g) (hf : Monotone f) (hg : StrictMono g) {x n}
(hn : 0 < n) : f^[n] x ≤ g^[n] x ↔ f x ≤ g x := by |
simpa only [not_lt] using not_congr (h.symm.iterate_pos_lt_iff_map_lt' hg hf hn)
|
/-
Copyright (c) 2021 Yaël Dillies. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yaël Dillies
-/
import Mathlib.Order.Interval.Multiset
#align_import data.nat.interval from "leanprover-community/mathlib"@"1d29de43a5ba4662dd33b5cfeecfc2a27a5a8a29"
/-!
# Finite inter... | Mathlib/Order/Interval/Finset/Nat.lean | 178 | 179 | theorem Ico_pred_singleton {a : ℕ} (h : 0 < a) : Ico (a - 1) a = {a - 1} := by |
rw [← Icc_pred_right _ h, Icc_self]
|
/-
Copyright (c) 2018 Scott Morrison. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Scott Morrison, Markus Himmel, Bhavik Mehta, Andrew Yang, Emily Riehl
-/
import Mathlib.CategoryTheory.Limits.Shapes.WidePullbacks
import Mathlib.CategoryTheory.Limits.Shapes.BinaryPro... | Mathlib/CategoryTheory/Limits/Shapes/Pullbacks.lean | 499 | 500 | theorem spanExt_inv_app_zero : (spanExt iX iY iZ wf wg).inv.app WalkingSpan.zero = iX.inv := by |
dsimp [spanExt]
|
/-
Copyright (c) 2022 Riccardo Brasca. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Alex Best, Riccardo Brasca, Eric Rodriguez
-/
import Mathlib.Data.PNat.Prime
import Mathlib.Algebra.IsPrimePow
import Mathlib.NumberTheory.Cyclotomic.Basic
import Mathlib.RingTheory.A... | Mathlib/NumberTheory/Cyclotomic/PrimitiveRoots.lean | 98 | 100 | theorem zeta_isRoot [IsDomain B] [NeZero ((n : ℕ) : B)] : IsRoot (cyclotomic n B) (zeta n A B) := by |
convert aeval_zeta n A B using 0
rw [IsRoot.def, aeval_def, eval₂_eq_eval_map, map_cyclotomic]
|
/-
Copyright (c) 2021 Yaël Dillies. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yaël Dillies
-/
import Mathlib.Algebra.Order.Group.Instances
import Mathlib.Analysis.Convex.Segment
import Mathlib.Tactic.GCongr
#align_import analysis.convex.star from "leanprover-comm... | Mathlib/Analysis/Convex/Star.lean | 352 | 356 | theorem StarConvex.affine_preimage (f : E →ᵃ[𝕜] F) {s : Set F} (hs : StarConvex 𝕜 (f x) s) :
StarConvex 𝕜 x (f ⁻¹' s) := by |
intro y hy a b ha hb hab
rw [mem_preimage, Convex.combo_affine_apply hab]
exact hs hy ha hb hab
|
/-
Copyright (c) 2023 Eric Wieser. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Eric Wieser
-/
import Mathlib.LinearAlgebra.TensorProduct.Graded.External
import Mathlib.RingTheory.GradedAlgebra.Basic
import Mathlib.GroupTheory.GroupAction.Ring
/-!
# Graded tensor pr... | Mathlib/LinearAlgebra/TensorProduct/Graded/Internal.lean | 222 | 227 | theorem tmul_one_mul_one_tmul (a₁ : A) (b₂ : B) :
(a₁ ᵍ⊗ₜ[R] (1 : B) * (1 : A) ᵍ⊗ₜ[R] b₂ : 𝒜 ᵍ⊗[R] ℬ) = (a₁ : A) ᵍ⊗ₜ (b₂ : B) := by |
convert tmul_coe_mul_zero_coe_tmul 𝒜 ℬ
a₁ (@GradedMonoid.GOne.one _ (ℬ ·) _ _) (@GradedMonoid.GOne.one _ (𝒜 ·) _ _) b₂
· rw [SetLike.coe_gOne, mul_one]
· rw [SetLike.coe_gOne, one_mul]
|
/-
Copyright (c) 2021 François Sunatori. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: François Sunatori
-/
import Mathlib.Analysis.Complex.Circle
import Mathlib.LinearAlgebra.Determinant
import Mathlib.LinearAlgebra.Matrix.GeneralLinearGroup
#align_import analysis.c... | Mathlib/Analysis/Complex/Isometry.lean | 65 | 71 | theorem rotation_ne_conjLIE (a : circle) : rotation a ≠ conjLIE := by |
intro h
have h1 : rotation a 1 = conj 1 := LinearIsometryEquiv.congr_fun h 1
have hI : rotation a I = conj I := LinearIsometryEquiv.congr_fun h I
rw [rotation_apply, RingHom.map_one, mul_one] at h1
rw [rotation_apply, conj_I, ← neg_one_mul, mul_left_inj' I_ne_zero, h1, eq_neg_self_iff] at hI
exact one_ne_z... |
/-
Copyright (c) 2022 Jireh Loreaux. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jireh Loreaux
-/
import Mathlib.Topology.ContinuousFunction.Bounded
import Mathlib.Topology.ContinuousFunction.CocompactMap
#align_import topology.continuous_function.zero_at_infty fro... | Mathlib/Topology/ContinuousFunction/ZeroAtInfty.lean | 446 | 446 | theorem isometry_toBCF : Isometry (toBCF : C₀(α, β) → α →ᵇ β) := by | tauto
|
/-
Copyright (c) 2014 Jeremy Avigad. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jeremy Avigad, Andrew Zipperer, Haitao Zhang, Minchao Wu, Yury Kudryashov
-/
import Mathlib.Data.Set.Prod
import Mathlib.Logic.Function.Conjugate
#align_import data.set.function from "... | Mathlib/Data/Set/Function.lean | 164 | 166 | theorem injective_codRestrict {f : ι → α} {s : Set α} (h : ∀ x, f x ∈ s) :
Injective (codRestrict f s h) ↔ Injective f := by |
simp only [Injective, Subtype.ext_iff, val_codRestrict_apply]
|
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