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 Yaël Dillies. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yaël Dillies
-/
import Mathlib.Analysis.Convex.Function
#align_import analysis.convex.quasiconvex from "leanprover-community/mathlib"@"9003f28797c0664a49e4179487267c494477d853"
/-!
# Q... | Mathlib/Analysis/Convex/Quasiconvex.lean | 238 | 242 | theorem QuasilinearOn.monotoneOn_or_antitoneOn [LinearOrder β] (hf : QuasilinearOn 𝕜 s f) :
MonotoneOn f s ∨ AntitoneOn f s := by |
simp_rw [monotoneOn_or_antitoneOn_iff_uIcc, ← segment_eq_uIcc]
rintro a ha b hb c _ h
refine ⟨((hf.2 _).segment_subset ?_ ?_ h).2, ((hf.1 _).segment_subset ?_ ?_ h).2⟩ <;> simp [*]
|
/-
Copyright (c) 2019 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.Equiv
import Mathlib.Analysis.Calculus.FormalMultilinearSeries
#align_import analysis.calculus.cont_diff_def from "lean... | Mathlib/Analysis/Calculus/ContDiff/Defs.lean | 646 | 651 | theorem HasFTaylorSeriesUpToOn.contDiffOn {f' : E → FormalMultilinearSeries 𝕜 E F}
(hf : HasFTaylorSeriesUpToOn n f f' s) : ContDiffOn 𝕜 n f s := by |
intro x hx m hm
use s
simp only [Set.insert_eq_of_mem hx, self_mem_nhdsWithin, true_and_iff]
exact ⟨f', hf.of_le hm⟩
|
/-
Copyright (c) 2018 Mitchell Rowett. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mitchell Rowett, Scott Morrison
-/
import Mathlib.Algebra.Quotient
import Mathlib.Algebra.Group.Subgroup.Actions
import Mathlib.Algebra.Group.Subgroup.MulOpposite
import Mathlib.Group... | Mathlib/GroupTheory/Coset.lean | 355 | 359 | theorem rightRel_apply {x y : α} : @Setoid.r _ (rightRel s) x y ↔ y * x⁻¹ ∈ s :=
calc
(∃ a : s, (a : α) * y = x) ↔ ∃ a : s, y * x⁻¹ = a⁻¹ := by |
simp only [mul_inv_eq_iff_eq_mul, Subgroup.coe_inv, eq_inv_mul_iff_mul_eq]
_ ↔ y * x⁻¹ ∈ s := by simp [exists_inv_mem_iff_exists_mem]
|
/-
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.CategoryTheory.Limits.HasLimits
import Mathlib.CategoryTheory.Products.Basic
import Mathlib.CategoryTheory.Functor.Currying
import Mathlib.CategoryTheo... | Mathlib/CategoryTheory/Limits/Fubini.lean | 354 | 358 | theorem colimitUncurryIsoColimitCompColim_ι_hom {j} {k} :
colimit.ι _ (j, k) ≫ (colimitUncurryIsoColimitCompColim F).hom =
(colimit.ι _ k ≫ colimit.ι (F ⋙ colim) j : _ ⟶ (colimit (F ⋙ colim))) := by |
rw [← cancel_mono (colimitUncurryIsoColimitCompColim F).inv]
simp
|
/-
Copyright (c) 2024 Raghuram Sundararajan. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Raghuram Sundararajan
-/
import Mathlib.Algebra.Ring.Defs
import Mathlib.Algebra.Group.Ext
/-!
# Extensionality lemmas for rings and similar structures
In this file we prove e... | Mathlib/Algebra/Ring/Ext.lean | 387 | 392 | theorem toSemiring_injective :
Function.Injective (@toSemiring R) := by |
intro _ _ h
ext x y
· exact congrArg (·.toAdd.add x y) h
· exact congrArg (·.toMul.mul x y) h
|
/-
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.Geometry.Euclidean.Angle.Oriented.Affine
import Mathlib.Geometry.Euclidean.Angle.Unoriented.RightAngle
#align_import geometry.euclidean.angle.oriented.rig... | Mathlib/Geometry/Euclidean/Angle/Oriented/RightAngle.lean | 718 | 722 | theorem sin_oangle_left_mul_dist_of_oangle_eq_pi_div_two {p₁ p₂ p₃ : P}
(h : ∡ p₁ p₂ p₃ = ↑(π / 2)) : Real.Angle.sin (∡ p₃ p₁ p₂) * dist p₁ p₃ = dist p₃ p₂ := by |
have hs : (∡ p₃ p₁ p₂).sign = 1 := by rw [← oangle_rotate_sign, h, Real.Angle.sign_coe_pi_div_two]
rw [oangle_eq_angle_of_sign_eq_one hs, angle_comm, Real.Angle.sin_coe, dist_comm p₁ p₃,
sin_angle_mul_dist_of_angle_eq_pi_div_two (angle_rev_eq_pi_div_two_of_oangle_eq_pi_div_two h)]
|
/-
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.CategoryTheory.Elementwise
import Mathlib.CategoryTheory.Adjunction.Evaluation
import Mathlib.Tactic.CategoryTheory.Elementwise
import Mathlib.CategoryTheory... | Mathlib/CategoryTheory/Sites/Subsheaf.lean | 324 | 335 | theorem Subpresheaf.sheafify_le (h : G ≤ G') (hF : Presieve.IsSheaf J F)
(hG' : Presieve.IsSheaf J G'.toPresheaf) : G.sheafify J ≤ G' := by |
intro U x hx
convert ((G.sheafifyLift (Subpresheaf.homOfLe h) hG').app U ⟨x, hx⟩).2
apply (hF _ hx).isSeparatedFor.ext
intro V i hi
have :=
congr_arg (fun f : G.toPresheaf ⟶ G'.toPresheaf => (NatTrans.app f (op V) ⟨_, hi⟩).1)
(G.to_sheafifyLift (Subpresheaf.homOfLe h) hG')
convert this.symm
erw... |
/-
Copyright (c) 2022 Junyan Xu. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Damiano Testa, Junyan Xu
-/
import Mathlib.Algebra.Order.Group.PiLex
import Mathlib.Data.DFinsupp.Order
import Mathlib.Data.DFinsupp.NeLocus
import Mathlib.Order.WellFoundedSet
#align_impo... | Mathlib/Data/DFinsupp/Lex.lean | 133 | 139 | theorem toLex_monotone : Monotone (@toLex (Π₀ i, α i)) := by |
intro a b h
refine le_of_lt_or_eq (or_iff_not_imp_right.2 fun hne ↦ ?_)
classical
exact ⟨Finset.min' _ (nonempty_neLocus_iff.2 hne),
fun j hj ↦ not_mem_neLocus.1 fun h ↦ (Finset.min'_le _ _ h).not_lt hj,
(h _).lt_of_ne (mem_neLocus.1 <| Finset.min'_mem _ _)⟩
|
/-
Copyright (c) 2019 Anne Baanen. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Anne Baanen, Lu-Ming Zhang
-/
import Mathlib.Data.Matrix.Invertible
import Mathlib.LinearAlgebra.Matrix.Adjugate
import Mathlib.LinearAlgebra.FiniteDimensional
#align_import linear_algeb... | Mathlib/LinearAlgebra/Matrix/NonsingularInverse.lean | 239 | 241 | theorem coe_units_inv (A : (Matrix n n α)ˣ) : ↑A⁻¹ = (A⁻¹ : Matrix n n α) := by |
letI := A.invertible
rw [← invOf_eq_nonsing_inv, invOf_units]
|
/-
Copyright (c) 2022 Eric Rodriguez. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Eric Rodriguez, Eric Wieser
-/
import Mathlib.Data.List.Chain
#align_import data.list.destutter from "leanprover-community/mathlib"@"7b78d1776212a91ecc94cf601f83bdcc46b04213"
/-!
# D... | Mathlib/Data/List/Destutter.lean | 53 | 54 | theorem destutter'_cons_neg (h : ¬R b a) : (a :: l).destutter' R b = l.destutter' R b := by |
rw [destutter', if_neg h]
|
/-
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, Sébastien Gouëzel,
Rémy Degenne, David Loeffler
-/
import Mathlib.Analysis.SpecialFunctions.Pow.Complex
import Qq
#align_... | Mathlib/Analysis/SpecialFunctions/Pow/Real.lean | 334 | 335 | theorem abs_cpow_inv_nat (x : ℂ) (n : ℕ) : abs (x ^ (n⁻¹ : ℂ)) = Complex.abs x ^ (n⁻¹ : ℝ) := by |
rw [← abs_cpow_real]; simp [-abs_cpow_real]
|
/-
Copyright (c) 2020 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers, Sébastien Gouëzel, Heather Macbeth
-/
import Mathlib.Analysis.InnerProductSpace.Projection
import Mathlib.Analysis.NormedSpace.PiLp
import Mathlib.LinearAlgebra.FiniteDimen... | Mathlib/Analysis/InnerProductSpace/PiL2.lean | 1,057 | 1,060 | theorem inner_matrix_row_row [Fintype n] (A B : Matrix m n 𝕜) (i j : m) :
⟪A i, B j⟫ₑ = (B * Aᴴ) j i := by |
simp_rw [EuclideanSpace.inner_piLp_equiv_symm, Matrix.mul_apply', Matrix.dotProduct_comm,
Matrix.conjTranspose_apply, Pi.star_def]
|
/-
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.Algebra.Order.Nonneg.Ring
import Mathlib.Algebra.Order.Ring.Rat
import Mathlib.Data.Int.Lemmas
#align_import data.rat.nnrat fr... | Mathlib/Data/NNRat/Defs.lean | 285 | 286 | theorem toNNRat_lt_toNNRat_iff' : toNNRat q < toNNRat p ↔ q < p ∧ 0 < p := by |
simp [← coe_lt_coe, toNNRat, lt_irrefl]
|
/-
Copyright (c) 2024 Jireh Loreaux. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Jireh Loreaux
-/
import Mathlib.Algebra.Algebra.Unitization
import Mathlib.Algebra.Algebra.Spectrum
/-!
# Quasiregularity and quasispectrum
For a non-unital ring `R`, an element `r : ... | Mathlib/Algebra/Algebra/Quasispectrum.lean | 388 | 392 | theorem quasispectrum.algebraMap_mem_iff (S : Type*) {R A : Type*} [Semifield R] [Field S]
[NonUnitalRing A] [Algebra R S] [Module S A] [IsScalarTower S A A]
[SMulCommClass S A A] [Module R A] [IsScalarTower R S A] {a : A} {r : R} :
algebraMap R S r ∈ quasispectrum S a ↔ r ∈ quasispectrum R a := by |
simp_rw [Unitization.quasispectrum_eq_spectrum_inr' _ S a, spectrum.algebraMap_mem_iff]
|
/-
Copyright (c) 2017 Robert Y. Lewis. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Robert Y. Lewis, Keeley Hoek
-/
import Mathlib.Algebra.NeZero
import Mathlib.Data.Nat.Defs
import Mathlib.Logic.Embedding.Basic
import Mathlib.Logic.Equiv.Set
import Mathlib.Tactic.Co... | Mathlib/Data/Fin/Basic.lean | 1,131 | 1,135 | theorem castSucc_pred_add_one_eq {a : Fin (n + 1)} (ha : a ≠ 0) :
(a.pred ha).castSucc + 1 = a := by |
cases' a using cases with a
· exact (ha rfl).elim
· rw [pred_succ, coeSucc_eq_succ]
|
/-
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.Data.Nat.Cast.WithTop
import Mathlib.RingTheory.Prime
import Mathlib.RingTheory.Polynomial.Content
import Mathlib.RingTheory.Ideal.Quotient
#align_import ... | Mathlib/RingTheory/EisensteinCriterion.lean | 65 | 68 | theorem eval_zero_mem_ideal_of_eq_mul_X_pow {n : ℕ} {P : Ideal R} {q : R[X]}
{c : Polynomial (R ⧸ P)} (hq : map (mk P) q = c * X ^ n) (hn0 : n ≠ 0) : eval 0 q ∈ P := by |
rw [← coeff_zero_eq_eval_zero, ← eq_zero_iff_mem, ← coeff_map, hq,
coeff_zero_eq_eval_zero, eval_mul, eval_pow, eval_X, zero_pow hn0, mul_zero]
|
/-
Copyright (c) 2014 Parikshit Khanna. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Parikshit Khanna, Jeremy Avigad, Leonardo de Moura, Floris van Doorn, Mario Carneiro
-/
import Mathlib.Data.List.Basic
/-!
# insertNth
Proves various lemmas about `List.insertNth`.... | Mathlib/Data/List/InsertNth.lean | 158 | 168 | theorem get_insertNth_self (l : List α) (x : α) (n : ℕ) (hn : n ≤ l.length)
(hn' : n < (insertNth n x l).length := (by rwa [length_insertNth _ _ hn, Nat.lt_succ_iff])) :
(insertNth n x l).get ⟨n, hn'⟩ = x := by |
induction' l with hd tl IH generalizing n
· simp only [length] at hn
cases hn
simp only [insertNth_zero, get_singleton]
· cases n
· simp
· simp only [Nat.succ_le_succ_iff, length] at hn
simpa using IH _ hn
|
/-
Copyright (c) 2018 Johan Commelin. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johan Commelin
-/
import Mathlib.Algebra.Algebra.Defs
import Mathlib.Algebra.Order.BigOperators.Ring.Finset
import Mathlib.Algebra.Order.Field.Canonical.Basic
import Mathlib.Algebra.Or... | Mathlib/Data/Real/NNReal.lean | 125 | 126 | theorem _root_.Real.toNNReal_of_nonneg {r : ℝ} (hr : 0 ≤ r) : r.toNNReal = ⟨r, hr⟩ := by |
simp_rw [Real.toNNReal, max_eq_left hr]
|
/-
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.MeanInequalities
import Mathlib.Analysis.MeanInequalitiesPow
import Mathlib.Analysis.SpecialFunctions.Pow.Continuity
import Mathlib.Data.Set... | Mathlib/Analysis/NormedSpace/lpSpace.lean | 1,120 | 1,131 | theorem uniformContinuous_coe [_i : Fact (1 ≤ p)] :
UniformContinuous (α := lp E p) ((↑) : lp E p → ∀ i, E i) := by |
have hp : p ≠ 0 := (zero_lt_one.trans_le _i.elim).ne'
rw [uniformContinuous_pi]
intro i
rw [NormedAddCommGroup.uniformity_basis_dist.uniformContinuous_iff
NormedAddCommGroup.uniformity_basis_dist]
intro ε hε
refine ⟨ε, hε, ?_⟩
rintro f g (hfg : ‖f - g‖ < ε)
have : ‖f i - g i‖ ≤ ‖f - g‖ := norm_appl... |
/-
Copyright (c) 2020 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov
-/
import Mathlib.Logic.Function.Conjugate
#align_import logic.function.iterate from "leanprover-community/mathlib"@"792a2a264169d64986541c6f8f7e3bbb6acb6295"
/-!
# ... | Mathlib/Logic/Function/Iterate.lean | 80 | 82 | theorem iterate_add_apply (m n : ℕ) (x : α) : f^[m + n] x = f^[m] (f^[n] x) := by |
rw [iterate_add f m n]
rfl
|
/-
Copyright (c) 2023 Yaël Dillies. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yaël Dillies
-/
import Mathlib.Data.Finset.Lattice
#align_import order.irreducible from "leanprover-community/mathlib"@"bf2428c9486c407ca38b5b3fb10b87dad0bc99fa"
/-!
# Irreducible and ... | Mathlib/Order/Irreducible.lean | 130 | 143 | theorem exists_supIrred_decomposition (a : α) :
∃ s : Finset α, s.sup id = a ∧ ∀ ⦃b⦄, b ∈ s → SupIrred b := by |
classical
apply WellFoundedLT.induction a _
clear a
rintro a ih
by_cases ha : SupIrred a
· exact ⟨{a}, by simp [ha]⟩
rw [not_supIrred] at ha
obtain ha | ⟨b, c, rfl, hb, hc⟩ := ha
· exact ⟨∅, by simp [ha.eq_bot]⟩
obtain ⟨s, rfl, hs⟩ := ih _ hb
obtain ⟨t, rfl, ht⟩ := ih _ hc
exact ⟨s ∪ t, sup_uni... |
/-
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.Algebra.Polynomial.Module.Basic
import Mathlib.Algebra.Ring.Idempotents
import Mathlib.RingTheory.Ideal.LocalRing
import Mathlib.RingTheory.Noetherian
import... | Mathlib/RingTheory/Filtration.lean | 285 | 287 | theorem inf_submodule : (F ⊓ F').submodule = F.submodule ⊓ F'.submodule := by |
ext
exact forall_and
|
/-
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 | 535 | 548 | theorem comp_eq_of_monotoneOn (f : α → E) {t : Set β} (φ : β → α) (hφ : MonotoneOn φ t) :
eVariationOn (f ∘ φ) t = eVariationOn f (φ '' t) := by |
apply le_antisymm (comp_le_of_monotoneOn f φ hφ (mapsTo_image φ t))
cases isEmpty_or_nonempty β
· convert zero_le (_ : ℝ≥0∞)
exact eVariationOn.subsingleton f <|
(subsingleton_of_subsingleton.image _).anti (surjOn_image φ t)
let ψ := φ.invFunOn t
have ψφs : EqOn (φ ∘ ψ) id (φ '' t) := (surjOn_image... |
/-
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 | 674 | 680 | theorem sum_reflectionCircumcenterWeightsWithCircumcenter {n : ℕ} {i₁ i₂ : Fin (n + 1)}
(h : i₁ ≠ i₂) : ∑ i, reflectionCircumcenterWeightsWithCircumcenter i₁ i₂ i = 1 := by |
simp_rw [sum_pointsWithCircumcenter, reflectionCircumcenterWeightsWithCircumcenter, sum_ite,
sum_const, filter_or, filter_eq']
rw [card_union_of_disjoint]
· set_option simprocs false in simp
· simpa only [if_true, mem_univ, disjoint_singleton] using h
|
/-
Copyright (c) 2020 Johan Commelin. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johan Commelin
-/
import Mathlib.Algebra.FreeAlgebra
import Mathlib.GroupTheory.Finiteness
import Mathlib.RingTheory.Adjoin.Tower
import Mathlib.RingTheory.Finiteness
import Mathlib.Ri... | Mathlib/RingTheory/FiniteType.lean | 606 | 611 | theorem of_mem_span_of_iff [Nontrivial R] {m : M} {S : Set M} :
of R M m ∈ span R (of R M '' S) ↔ m ∈ S := by |
refine ⟨fun h => ?_, fun h => Submodule.subset_span <| Set.mem_image_of_mem (of R M) h⟩
erw [of, MonoidHom.coe_mk, ← Finsupp.supported_eq_span_single, Finsupp.mem_supported,
Finsupp.support_single_ne_zero _ (one_ne_zero' R)] at h
simpa using h
|
/-
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.Geometry.Euclidean.Angle.Oriented.RightAngle
import Mathlib.Geometry.Euclidean.Circumcenter
#align_import geometry.euclidean.angle.sphere from "leanprover... | Mathlib/Geometry/Euclidean/Angle/Sphere.lean | 241 | 245 | theorem dist_div_sin_oangle_eq_two_mul_radius {s : Sphere P} {p₁ p₂ p₃ : P} (hp₁ : p₁ ∈ s)
(hp₂ : p₂ ∈ s) (hp₃ : p₃ ∈ s) (hp₁p₂ : p₁ ≠ p₂) (hp₁p₃ : p₁ ≠ p₃) (hp₂p₃ : p₂ ≠ p₃) :
dist p₁ p₃ / |Real.Angle.sin (∡ p₁ p₂ p₃)| = 2 * s.radius := by |
rw [← dist_div_sin_oangle_div_two_eq_radius hp₁ hp₂ hp₃ hp₁p₂ hp₁p₃ hp₂p₃,
mul_div_cancel₀ _ (two_ne_zero' ℝ)]
|
/-
Copyright (c) 2021 Yakov Pechersky. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yakov Pechersky
-/
import Mathlib.Algebra.BigOperators.Group.Finset
import Mathlib.Data.List.MinMax
import Mathlib.Algebra.Tropical.Basic
import Mathlib.Order.ConditionallyCompleteLat... | Mathlib/Algebra/Tropical/BigOperators.lean | 111 | 116 | theorem Multiset.untrop_sum [LinearOrder R] [OrderTop R] (s : Multiset (Tropical R)) :
untrop s.sum = Multiset.inf (s.map untrop) := by |
induction' s using Multiset.induction with s x IH
· simp
· simp only [sum_cons, ge_iff_le, untrop_add, untrop_le_iff, map_cons, inf_cons, ← IH]
rfl
|
/-
Copyright (c) 2019 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.Equiv
import Mathlib.Analysis.Calculus.FormalMultilinearSeries
#align_import analysis.calculus.cont_diff_def from "lean... | Mathlib/Analysis/Calculus/ContDiff/Defs.lean | 1,085 | 1,100 | theorem contDiffOn_of_continuousOn_differentiableOn
(Hcont : ∀ m : ℕ, (m : ℕ∞) ≤ n → ContinuousOn (fun x => iteratedFDerivWithin 𝕜 m f s x) s)
(Hdiff : ∀ m : ℕ, (m : ℕ∞) < n →
DifferentiableOn 𝕜 (fun x => iteratedFDerivWithin 𝕜 m f s x) s) :
ContDiffOn 𝕜 n f s := by |
intro x hx m hm
rw [insert_eq_of_mem hx]
refine ⟨s, self_mem_nhdsWithin, ftaylorSeriesWithin 𝕜 f s, ?_⟩
constructor
· intro y _
simp only [ftaylorSeriesWithin, ContinuousMultilinearMap.uncurry0_apply,
iteratedFDerivWithin_zero_apply]
· intro k hk y hy
convert (Hdiff k (lt_of_lt_of_le hk hm) ... |
/-
Copyright (c) 2019 Johan Commelin. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johan Commelin, Bhavik Mehta
-/
import Mathlib.CategoryTheory.Comma.StructuredArrow
import Mathlib.CategoryTheory.PUnit
import Mathlib.CategoryTheory.Functor.ReflectsIso
import Mathlib... | Mathlib/CategoryTheory/Comma/Over.lean | 355 | 358 | theorem UnderMorphism.ext {X : T} {U V : Under X} {f g : U ⟶ V} (h : f.right = g.right) :
f = g := by |
let ⟨_,b,_⟩ := f; let ⟨_,e,_⟩ := g
congr; simp only [eq_iff_true_of_subsingleton]
|
/-
Copyright (c) 2018 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Mathlib.Data.Fintype.Option
import Mathlib.Data.Fintype.Prod
import Mathlib.Data.Fintype.Pi
import Mathlib.Data.Vector.Basic
import Mathlib.Data.PFun
import Ma... | Mathlib/Computability/TuringMachine.lean | 724 | 727 | theorem Tape.map_mk' {Γ Γ'} [Inhabited Γ] [Inhabited Γ'] (f : PointedMap Γ Γ') (L R : ListBlank Γ) :
(Tape.mk' L R).map f = Tape.mk' (L.map f) (R.map f) := by |
simp only [Tape.mk', Tape.map, ListBlank.head_map, eq_self_iff_true, and_self_iff,
ListBlank.tail_map]
|
/-
Copyright (c) 2019 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov
Some proofs and docs came from `algebra/commute` (c) Neil Strickland
-/
import Mathlib.Algebra.Group.Defs
import Mathlib.Init.Logic
import Mathlib.Tactic.Cases
#alig... | Mathlib/Algebra/Group/Semiconj/Defs.lean | 124 | 129 | theorem pow_right {a x y : M} (h : SemiconjBy a x y) (n : ℕ) : SemiconjBy a (x ^ n) (y ^ n) := by |
induction' n with n ih
· rw [pow_zero, pow_zero]
exact SemiconjBy.one_right _
· rw [pow_succ, pow_succ]
exact ih.mul_right h
|
/-
Copyright (c) 2020 Yury Kudryashov. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Yury Kudryashov, Sébastien Gouëzel
-/
import Mathlib.Analysis.Calculus.Deriv.ZPow
import Mathlib.Analysis.SpecialFunctions.Sqrt
import Mathlib.Analysis.SpecialFunctions.Log.Deriv
impo... | Mathlib/Analysis/Convex/SpecificFunctions/Deriv.lean | 174 | 177 | theorem strictConcaveOn_cos_Icc : StrictConcaveOn ℝ (Icc (-(π / 2)) (π / 2)) cos := by |
apply strictConcaveOn_of_deriv2_neg (convex_Icc _ _) continuousOn_cos fun x hx => ?_
rw [interior_Icc] at hx
simp [cos_pos_of_mem_Ioo hx]
|
/-
Copyright (c) 2022 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers, Heather Macbeth
-/
import Mathlib.Analysis.InnerProductSpace.TwoDim
import Mathlib.Geometry.Euclidean.Angle.Unoriented.Basic
#align_import geometry.euclidean.angle.oriente... | Mathlib/Geometry/Euclidean/Angle/Oriented/Basic.lean | 963 | 964 | theorem oangle_sign_add_left (x y : V) : (o.oangle (x + y) y).sign = (o.oangle x y).sign := by |
rw [← o.oangle_sign_add_smul_left x y 1, one_smul]
|
/-
Copyright (c) 2018 Andreas Swerdlow. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Andreas Swerdlow, Kexing Ying
-/
import Mathlib.LinearAlgebra.BilinearForm.Hom
import Mathlib.LinearAlgebra.Dual
/-!
# Bilinear form
This file defines various properties of bilinea... | Mathlib/LinearAlgebra/BilinearForm/Properties.lean | 283 | 295 | theorem isPairSelfAdjoint_equiv (e : M' ≃ₗ[R] M) (f : Module.End R M) :
IsPairSelfAdjoint B₂ F₂ f ↔
IsPairSelfAdjoint (B₂.comp ↑e ↑e) (F₂.comp ↑e ↑e) (e.symm.conj f) := by |
have hₗ : (F₂.comp ↑e ↑e).compLeft (e.symm.conj f) = (F₂.compLeft f).comp ↑e ↑e := by
ext
simp [LinearEquiv.symm_conj_apply]
have hᵣ : (B₂.comp ↑e ↑e).compRight (e.symm.conj f) = (B₂.compRight f).comp ↑e ↑e := by
ext
simp [LinearEquiv.conj_apply]
have he : Function.Surjective (⇑(↑e : M' →ₗ[R] M) ... |
/-
Copyright (c) 2021 Paul Lezeau. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Anne Baanen, Paul Lezeau
-/
import Mathlib.Algebra.IsPrimePow
import Mathlib.Algebra.Squarefree.Basic
import Mathlib.Order.Hom.Bounded
import Mathlib.Algebra.GCDMonoid.Basic
#align_impor... | Mathlib/RingTheory/ChainOfDivisors.lean | 66 | 81 | theorem exists_chain_of_prime_pow {p : Associates M} {n : ℕ} (hn : n ≠ 0) (hp : Prime p) :
∃ c : Fin (n + 1) → Associates M,
c 1 = p ∧ StrictMono c ∧ ∀ {r : Associates M}, r ≤ p ^ n ↔ ∃ i, r = c i := by |
refine ⟨fun i => p ^ (i : ℕ), ?_, fun n m h => ?_, @fun y => ⟨fun h => ?_, ?_⟩⟩
· dsimp only
rw [Fin.val_one', Nat.mod_eq_of_lt, pow_one]
exact Nat.lt_succ_of_le (Nat.one_le_iff_ne_zero.mpr hn)
· exact Associates.dvdNotUnit_iff_lt.mp
⟨pow_ne_zero n hp.ne_zero, p ^ (m - n : ℕ),
not_isUni... |
/-
Copyright (c) 2019 Sébastien Gouëzel. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Sébastien Gouëzel
-/
import Mathlib.Analysis.Analytic.Basic
import Mathlib.Analysis.Analytic.Composition
import Mathlib.Analysis.Analytic.Linear
import Mathlib.Analysis.Calculus.FDe... | Mathlib/Geometry/Manifold/SmoothManifoldWithCorners.lean | 986 | 987 | theorem extend_target' : (f.extend I).target = I '' f.target := by |
rw [extend, PartialEquiv.trans_target'', I.source_eq, univ_inter, I.toPartialEquiv_coe]
|
/-
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.Data.Bool.Set
import Mathlib.Data.Nat.Set
import Mathlib.Data.Set.Prod
import Mathlib.Data.ULift
import Mathlib.Order.Bounds.Basic
import Mathlib.Order... | Mathlib/Order/CompleteLattice.lean | 1,095 | 1,098 | theorem iInf₂_comm {ι₁ ι₂ : Sort*} {κ₁ : ι₁ → Sort*} {κ₂ : ι₂ → Sort*}
(f : ∀ i₁, κ₁ i₁ → ∀ i₂, κ₂ i₂ → α) :
⨅ (i₁) (j₁) (i₂) (j₂), f i₁ j₁ i₂ j₂ = ⨅ (i₂) (j₂) (i₁) (j₁), f i₁ j₁ i₂ j₂ := by |
simp only [@iInf_comm _ (κ₁ _), @iInf_comm _ ι₁]
|
/-
Copyright (c) 2021 Johan Commelin. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johan Commelin
-/
import Mathlib.Algebra.Polynomial.AlgebraMap
import Mathlib.Algebra.Polynomial.Degree.Lemmas
import Mathlib.Algebra.Polynomial.HasseDeriv
#align_import data.polynomi... | Mathlib/Algebra/Polynomial/Taylor.lean | 62 | 62 | theorem taylor_zero (f : R[X]) : taylor 0 f = f := by | rw [taylor_zero', LinearMap.id_apply]
|
/-
Copyright (c) 2022 Kevin H. Wilson. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kevin H. Wilson
-/
import Mathlib.Analysis.Calculus.MeanValue
import Mathlib.Analysis.NormedSpace.RCLike
import Mathlib.Order.Filter.Curry
#align_import analysis.calculus.uniform_lim... | Mathlib/Analysis/Calculus/UniformLimitsDeriv.lean | 431 | 438 | theorem hasFDerivAt_of_tendstoUniformly [NeBot l] (hf' : TendstoUniformly f' g' l)
(hf : ∀ n : ι, ∀ x : E, HasFDerivAt (f n) (f' n x) x)
(hfg : ∀ x : E, Tendsto (fun n => f n x) l (𝓝 (g x))) : ∀ x : E, HasFDerivAt g (g' x) x := by |
intro x
have hf : ∀ n : ι, ∀ x : E, x ∈ Set.univ → HasFDerivAt (f n) (f' n x) x := by simp [hf]
have hfg : ∀ x : E, x ∈ Set.univ → Tendsto (fun n => f n x) l (𝓝 (g x)) := by simp [hfg]
have hf' : TendstoUniformlyOn f' g' l Set.univ := by rwa [tendstoUniformlyOn_univ]
exact hasFDerivAt_of_tendstoUniformlyOn ... |
/-
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 | 2,002 | 2,003 | theorem vecMul_mulVec [Fintype m] [Fintype n] (A : Matrix m n α) (B : Matrix m o α) (x : n → α) :
(A *ᵥ x) ᵥ* B = x ᵥ* (Aᵀ * B) := by | rw [← vecMul_vecMul, vecMul_transpose]
|
/-
Copyright (c) 2021 Sébastien Gouëzel. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Sébastien Gouëzel, Yaël Dillies
-/
import Mathlib.Analysis.Normed.Group.Basic
import Mathlib.Topology.MetricSpace.Thickening
import Mathlib.Topology.MetricSpace.IsometricSMul
#alig... | Mathlib/Analysis/Normed/Group/Pointwise.lean | 195 | 195 | theorem singleton_mul_closedBall_one : {x} * closedBall 1 δ = closedBall x δ := by | simp
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Yury Kudryashov
-/
import Mathlib.Order.Interval.Set.Basic
import Mathlib.Data.Set.NAry
import Mathlib.Order.Directed
#align_import order.bounds.basic from "leanprover... | Mathlib/Order/Bounds/Basic.lean | 1,553 | 1,556 | theorem BddAbove.bddBelow_image2_of_bddAbove :
BddAbove s → BddBelow t → BddBelow (Set.image2 f s t) := by |
rintro ⟨a, ha⟩ ⟨b, hb⟩
exact ⟨f a b, mem_lowerBounds_image2_of_mem_lowerBounds_of_mem_lowerBounds h₀ h₁ ha hb⟩
|
/-
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, Jeremy Avigad
-/
import Mathlib.Order.Filter.Lift
import Mathlib.Topology.Defs.Filter
#align_import topology.basic from "leanprover-community/mathlib"@... | Mathlib/Topology/Basic.lean | 1,446 | 1,457 | theorem tendsto_inf_principal_nhds_iff_of_forall_eq {f : α → X} {l : Filter α} {s : Set α}
(h : ∀ a ∉ s, f a = x) : Tendsto f (l ⊓ 𝓟 s) (𝓝 x) ↔ Tendsto f l (𝓝 x) := by |
rw [tendsto_iff_comap, tendsto_iff_comap]
replace h : 𝓟 sᶜ ≤ comap f (𝓝 x) := by
rintro U ⟨t, ht, htU⟩ x hx
have : f x ∈ t := (h x hx).symm ▸ mem_of_mem_nhds ht
exact htU this
refine ⟨fun h' => ?_, le_trans inf_le_left⟩
have := sup_le h' h
rw [sup_inf_right, sup_principal, union_compl_self, pri... |
/-
Copyright (c) 2020 Bhavik Mehta. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Bhavik Mehta, Jakob von Raumer
-/
import Mathlib.CategoryTheory.Limits.HasLimits
import Mathlib.CategoryTheory.Thin
#align_import category_theory.limits.shapes.wide_pullbacks from "lean... | Mathlib/CategoryTheory/Limits/Shapes/WidePullbacks.lean | 444 | 452 | theorem eq_desc_of_comp_eq (g : widePushout _ _ arrows ⟶ X) :
(∀ j : J, ι arrows j ≫ g = fs j) → head arrows ≫ g = f → g = desc f fs w := by |
intro h1 h2
apply
(colimit.isColimit (WidePushoutShape.wideSpan B objs arrows)).uniq
(WidePushoutShape.mkCocone f fs <| w)
rintro (_ | _)
· apply h2
· apply h1
|
/-
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.Algebra.MonoidAlgebra.Ideal
import Mathlib.Algebra.MvPolynomial.Division
#align_import ring_theory.mv_polynomial.ideal from "leanprover-community/mathlib"@"... | Mathlib/RingTheory/MvPolynomial/Ideal.lean | 39 | 43 | theorem mem_ideal_span_monomial_image_iff_dvd {x : MvPolynomial σ R} {s : Set (σ →₀ ℕ)} :
x ∈ Ideal.span ((fun s => monomial s (1 : R)) '' s) ↔
∀ xi ∈ x.support, ∃ si ∈ s, monomial si 1 ∣ monomial xi (x.coeff xi) := by |
refine mem_ideal_span_monomial_image.trans (forall₂_congr fun xi hxi => ?_)
simp_rw [monomial_dvd_monomial, one_dvd, and_true_iff, mem_support_iff.mp hxi, false_or_iff]
|
/-
Copyright (c) 2018 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro, Kevin Kappelmann
-/
import Mathlib.Algebra.CharZero.Lemmas
import Mathlib.Algebra.Order.Interval.Set.Group
import Mathlib.Algebra.Group.Int
import Mathlib.Data.Int.Lemm... | Mathlib/Algebra/Order/Floor.lean | 203 | 209 | theorem le_floor_iff' (hn : n ≠ 0) : n ≤ ⌊a⌋₊ ↔ (n : α) ≤ a := by |
obtain ha | ha := le_total a 0
· rw [floor_of_nonpos ha]
exact
iff_of_false (Nat.pos_of_ne_zero hn).not_le
(not_le_of_lt <| ha.trans_lt <| cast_pos.2 <| Nat.pos_of_ne_zero hn)
· exact le_floor_iff ha
|
/-
Copyright (c) 2020 Simon Hudon. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Simon Hudon, Yaël Dillies
-/
import Mathlib.Data.Nat.Defs
import Mathlib.Order.Interval.Set.Basic
import Mathlib.Tactic.Monotonicity.Attr
#align_import data.nat.log from "leanprover-comm... | Mathlib/Data/Nat/Log.lean | 135 | 148 | theorem log_eq_iff {b m n : ℕ} (h : m ≠ 0 ∨ 1 < b ∧ n ≠ 0) :
log b n = m ↔ b ^ m ≤ n ∧ n < b ^ (m + 1) := by |
rcases em (1 < b ∧ n ≠ 0) with (⟨hb, hn⟩ | hbn)
· rw [le_antisymm_iff, ← Nat.lt_succ_iff, ← pow_le_iff_le_log, ← lt_pow_iff_log_lt, and_comm] <;>
assumption
have hm : m ≠ 0 := h.resolve_right hbn
rw [not_and_or, not_lt, Ne, not_not] at hbn
rcases hbn with (hb | rfl)
· obtain rfl | rfl := le_one_iff_e... |
/-
Copyright (c) 2021 Kyle Miller. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kyle Miller
-/
import Mathlib.Combinatorics.SimpleGraph.Subgraph
import Mathlib.Data.List.Rotate
#align_import combinatorics.simple_graph.connectivity from "leanprover-community/mathlib"... | Mathlib/Combinatorics/SimpleGraph/Connectivity.lean | 1,843 | 1,845 | theorem transfer_eq_map_of_le (hp) (GH : G ≤ H) :
p.transfer H hp = p.map (SimpleGraph.Hom.mapSpanningSubgraphs GH) := by |
induction p <;> simp [*]
|
/-
Copyright (c) 2020 Adam Topaz. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Zhangir Azerbayev, Adam Topaz, Eric Wieser
-/
import Mathlib.LinearAlgebra.CliffordAlgebra.Basic
import Mathlib.LinearAlgebra.Alternating.Basic
#align_import linear_algebra.exterior_algeb... | Mathlib/LinearAlgebra/ExteriorAlgebra/Basic.lean | 404 | 407 | theorem map_apply_ιMulti {n : ℕ} (f : M →ₗ[R] N) (m : Fin n → M) :
map f (ιMulti R n m) = ιMulti R n (f ∘ m) := by |
rw [ιMulti_apply, ιMulti_apply, map_list_prod]
simp only [List.map_ofFn, Function.comp, map_apply_ι]
|
/-
Copyright (c) 2021 Bryan Gin-ge Chen. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Adam Topaz, Bryan Gin-ge Chen, Yaël Dillies
-/
import Mathlib.Order.BooleanAlgebra
import Mathlib.Logic.Equiv.Basic
#align_import order.symm_diff from "leanprover-community/mathlib... | Mathlib/Order/SymmDiff.lean | 189 | 196 | theorem symmDiff_sup_inf : a ∆ b ⊔ a ⊓ b = a ⊔ b := by |
refine le_antisymm (sup_le symmDiff_le_sup inf_le_sup) ?_
rw [sup_inf_left, symmDiff]
refine sup_le (le_inf le_sup_right ?_) (le_inf ?_ le_sup_right)
· rw [sup_right_comm]
exact le_sup_of_le_left le_sdiff_sup
· rw [sup_assoc]
exact le_sup_of_le_right le_sdiff_sup
|
/-
Copyright (c) 2018 Chris Hughes. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Chris Hughes
-/
import Mathlib.Algebra.Group.Subgroup.Finite
import Mathlib.Data.Finset.Fin
import Mathlib.Data.Finset.Sort
import Mathlib.Data.Int.Order.Units
import Mathlib.GroupTheory... | Mathlib/GroupTheory/Perm/Sign.lean | 564 | 572 | theorem sign_prodCongrRight (σ : α → Perm β) : sign (prodCongrRight σ) = ∏ k, sign (σ k) := by |
obtain ⟨l, hl, mem_l⟩ := Finite.exists_univ_list α
have l_to_finset : l.toFinset = Finset.univ := by
apply eq_top_iff.mpr
intro b _
exact List.mem_toFinset.mpr (mem_l b)
rw [← prod_prodExtendRight σ hl mem_l, map_list_prod sign, List.map_map, ← l_to_finset,
List.prod_toFinset _ hl]
simp_rw [← f... |
/-
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 | 171 | 173 | theorem self_trans_symm (h : X ≃ₜ Y) : h.trans h.symm = Homeomorph.refl X := by |
ext
apply symm_apply_apply
|
/-
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.InnerProductSpace.Dual
import Mathlib.Analysis.InnerProductSpace.Orientation
import Mathlib.Data.Complex.Orientation
import Mathlib.Tactic.L... | Mathlib/Analysis/InnerProductSpace/TwoDim.lean | 192 | 198 | theorem inner_rightAngleRotationAux₁_left (x y : E) : ⟪o.rightAngleRotationAux₁ x, y⟫ = ω x y := by |
-- Porting note: split `simp only` for greater proof control
simp only [rightAngleRotationAux₁, LinearEquiv.trans_symm, LinearIsometryEquiv.toLinearEquiv_symm,
LinearMap.coe_comp, LinearEquiv.coe_coe, Function.comp_apply, LinearEquiv.trans_apply,
LinearIsometryEquiv.coe_toLinearEquiv]
rw [InnerProductSpa... |
/-
Copyright (c) 2022 Joseph Myers. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Joseph Myers, Heather Macbeth
-/
import Mathlib.Analysis.InnerProductSpace.TwoDim
import Mathlib.Geometry.Euclidean.Angle.Unoriented.Basic
#align_import geometry.euclidean.angle.oriente... | Mathlib/Geometry/Euclidean/Angle/Oriented/Basic.lean | 232 | 238 | theorem two_zsmul_oangle_neg_right (x y : V) :
(2 : ℤ) • o.oangle x (-y) = (2 : ℤ) • o.oangle x y := by |
by_cases hx : x = 0
· simp [hx]
· by_cases hy : y = 0
· simp [hy]
· simp [o.oangle_neg_right hx hy]
|
/-
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.Bool.Basic
import Mathlib.Data.Option.Defs
import Mathlib.Data.Prod.Basic
import Mathlib.Data.Sigma.Basic
import Mathlib... | Mathlib/Logic/Equiv/Basic.lean | 1,184 | 1,187 | theorem subtypeEquiv_refl {p : α → Prop} (h : ∀ a, p a ↔ p (Equiv.refl _ a) := fun a => Iff.rfl) :
(Equiv.refl α).subtypeEquiv h = Equiv.refl { a : α // p a } := by |
ext
rfl
|
/-
Copyright (c) 2020 Aaron Anderson. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Aaron Anderson
-/
import Mathlib.Algebra.GCDMonoid.Finset
import Mathlib.Algebra.Polynomial.CancelLeads
import Mathlib.Algebra.Polynomial.EraseLead
import Mathlib.Algebra.Polynomial.Fi... | Mathlib/RingTheory/Polynomial/Content.lean | 102 | 102 | theorem content_zero : content (0 : R[X]) = 0 := by | rw [← C_0, content_C, normalize_zero]
|
/-
Copyright (c) 2018 Andreas Swerdlow. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Andreas Swerdlow, Kexing Ying
-/
import Mathlib.Algebra.Algebra.Tower
import Mathlib.LinearAlgebra.BilinearMap
#align_import linear_algebra.bilinear_form from "leanprover-community/... | Mathlib/LinearAlgebra/BilinearForm/Basic.lean | 211 | 214 | theorem flip_flip :
flipHom.trans flipHom = LinearEquiv.refl R (BilinForm R M) := by |
ext A
simp
|
/-
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
-/
import Mathlib.Algebra.Associated
import Mathlib.Algebra.Ring.Regular
import Mathlib.Tactic.Common
#align_import algebra.gcd_monoid.basic from "leanp... | Mathlib/Algebra/GCDMonoid/Basic.lean | 575 | 589 | theorem gcd_pow_right_dvd_pow_gcd [GCDMonoid α] {a b : α} {k : ℕ} :
gcd a (b ^ k) ∣ gcd a b ^ k := by |
by_cases hg : gcd a b = 0
· rw [gcd_eq_zero_iff] at hg
rcases hg with ⟨rfl, rfl⟩
exact
(gcd_zero_left' (0 ^ k : α)).dvd.trans
(pow_dvd_pow_of_dvd (gcd_zero_left' (0 : α)).symm.dvd _)
· induction' k with k hk
· rw [pow_zero, pow_zero]
exact (gcd_one_right' a).dvd
rw [pow_succ',... |
/-
Copyright (c) 2016 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, Johannes Hölzl
-/
import Mathlib.Algebra.Group.Even
import Mathlib.Algebra.Order.Group.Lattice
import Mathlib.Algebra.Order.Monoid.Unbu... | Mathlib/Algebra/Order/Group/Abs.lean | 538 | 539 | theorem abs_eq_self : |a| = a ↔ 0 ≤ a := by |
rw [abs_eq_max_neg, max_eq_left_iff, neg_le_self_iff]
|
/-
Copyright (c) 2022 Markus Himmel. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Markus Himmel
-/
import Mathlib.CategoryTheory.Filtered.Basic
import Mathlib.CategoryTheory.Limits.HasLimits
import Mathlib.CategoryTheory.Limits.Types
#align_import category_theory.li... | Mathlib/CategoryTheory/Limits/Filtered.lean | 52 | 60 | theorem IsCofiltered.iff_nonempty_limit : IsCofiltered C ↔
∀ {J : Type v} [SmallCategory J] [FinCategory J] (F : J ⥤ C),
∃ (X : C), Nonempty (limit (F ⋙ coyoneda.obj (op X))) := by |
rw [IsCofiltered.iff_cone_nonempty.{v}]
refine ⟨fun h J _ _ F => ?_, fun h J _ _ F => ?_⟩
· obtain ⟨c⟩ := h F
exact ⟨c.pt, ⟨(limitCompCoyonedaIsoCone F c.pt).inv c.π⟩⟩
· obtain ⟨pt, ⟨π⟩⟩ := h F
exact ⟨⟨pt, (limitCompCoyonedaIsoCone F pt).hom π⟩⟩
|
/-
Copyright (c) 2020 Sébastien Gouëzel. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Sébastien Gouëzel, Johan Commelin
-/
import Mathlib.Analysis.Analytic.Basic
import Mathlib.Combinatorics.Enumerative.Composition
#align_import analysis.analytic.composition from "l... | Mathlib/Analysis/Analytic/Composition.lean | 458 | 513 | theorem comp_summable_nnreal (q : FormalMultilinearSeries 𝕜 F G) (p : FormalMultilinearSeries 𝕜 E F)
(hq : 0 < q.radius) (hp : 0 < p.radius) :
∃ r > (0 : ℝ≥0),
Summable fun i : Σ n, Composition n => ‖q.compAlongComposition p i.2‖₊ * r ^ i.1 := by |
/- This follows from the fact that the growth rate of `‖qₙ‖` and `‖pₙ‖` is at most geometric,
giving a geometric bound on each `‖q.comp_along_composition p op‖`, together with the
fact that there are `2^(n-1)` compositions of `n`, giving at most a geometric loss. -/
rcases ENNReal.lt_iff_exists_nnreal_btwn... |
/-
Copyright (c) 2019 Alexander Bentkamp. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Alexander Bentkamp, Yury Kudryashov, Yaël Dillies
-/
import Mathlib.Algebra.Order.Invertible
import Mathlib.Algebra.Order.Module.OrderedSMul
import Mathlib.LinearAlgebra.AffineSpac... | Mathlib/Analysis/Convex/Segment.lean | 642 | 646 | theorem image_mk_openSegment_left (x₁ x₂ : E) (y : F) :
(fun x => (x, y)) '' openSegment 𝕜 x₁ x₂ = openSegment 𝕜 (x₁, y) (x₂, y) := by |
rw [openSegment_eq_image₂, openSegment_eq_image₂, image_image]
refine EqOn.image_eq fun a ha ↦ ?_
simp [Convex.combo_self ha.2.2]
|
/-
Copyright (c) 2022 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Batteries.Data.RBMap.Alter
import Batteries.Data.List.Lemmas
/-!
# Additional lemmas for Red-black trees
-/
namespace Batteries
namespace RBNode
open RBColor... | .lake/packages/batteries/Batteries/Data/RBMap/Lemmas.lean | 543 | 553 | theorem Ordered.memP_iff_upperBound? [@TransCmp α cmp] [IsCut cmp cut] (ht : Ordered cmp t) :
t.MemP cut ↔ ∃ x, t.upperBound? cut = some x ∧ cut x = .eq := by |
refine memP_def.trans ⟨fun ⟨y, hy, ey⟩ => ?_, fun ⟨x, hx, e⟩ => ⟨_, upperBound?_mem hx, e⟩⟩
have ⟨x, hx⟩ := ht.upperBound?_exists.2 ⟨_, hy, fun h => nomatch ey.symm.trans h⟩
refine ⟨x, hx, ?_⟩; cases ex : cut x
· cases e : cmp x y
· cases ey.symm.trans <| IsCut.lt_trans e ex
· cases ey.symm.trans <| Is... |
/-
Copyright (c) 2018 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Mathlib.Algebra.Order.Monoid.Unbundled.Pow
import Mathlib.Data.Finset.Fold
import Mathlib.Data.Finset.Option
import Mathlib.Data.Finset.Pi
import Mathlib.Data.... | Mathlib/Data/Finset/Lattice.lean | 1,288 | 1,290 | theorem lt_sup'_iff : a < s.sup' H f ↔ ∃ b ∈ s, a < f b := by |
rw [← WithBot.coe_lt_coe, coe_sup', Finset.lt_sup_iff]
exact exists_congr (fun _ => and_congr_right' WithBot.coe_lt_coe)
|
/-
Copyright (c) 2020 Bhavik Mehta. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Bhavik Mehta, E. W. Ayers
-/
import Mathlib.CategoryTheory.Comma.Over
import Mathlib.CategoryTheory.Limits.Shapes.Pullbacks
import Mathlib.CategoryTheory.Yoneda
import Mathlib.Data.Set.L... | Mathlib/CategoryTheory/Sites/Sieves.lean | 771 | 774 | theorem functorPushforward_top (F : C ⥤ D) (X : C) : (⊤ : Sieve X).functorPushforward F = ⊤ := by |
refine (generate_sieve _).symm.trans ?_
apply generate_of_contains_isSplitEpi (𝟙 (F.obj X))
exact ⟨X, 𝟙 _, 𝟙 _, trivial, by simp⟩
|
/-
Copyright (c) 2018 Mario Carneiro. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Mario Carneiro
-/
import Mathlib.Algebra.Order.AbsoluteValue
import Mathlib.Algebra.Order.Field.Basic
import Mathlib.Algebra.Order.Group.MinMax
import Mathlib.Algebra.Ring.Pi
import Ma... | Mathlib/Algebra/Order/CauSeq/Basic.lean | 74 | 85 | theorem rat_inv_continuous_lemma {β : Type*} [DivisionRing β] (abv : β → α) [IsAbsoluteValue abv]
{ε K : α} (ε0 : 0 < ε) (K0 : 0 < K) :
∃ δ > 0, ∀ {a b : β}, K ≤ abv a → K ≤ abv b → abv (a - b) < δ → abv (a⁻¹ - b⁻¹) < ε := by |
refine ⟨K * ε * K, mul_pos (mul_pos K0 ε0) K0, fun {a b} ha hb h => ?_⟩
have a0 := K0.trans_le ha
have b0 := K0.trans_le hb
rw [inv_sub_inv' ((abv_pos abv).1 a0) ((abv_pos abv).1 b0), abv_mul abv, abv_mul abv, abv_inv abv,
abv_inv abv, abv_sub abv]
refine lt_of_mul_lt_mul_left (lt_of_mul_lt_mul_right ?_ ... |
/-
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
-/
import Mathlib.Init.ZeroOne
import Mathlib.Data.Set.Defs
import Mathlib.Order.Basic
import Mathlib.Order.SymmDiff
import Mathlib.Tactic.Tauto
import ... | Mathlib/Data/Set/Basic.lean | 575 | 576 | theorem not_nonempty_iff_eq_empty {s : Set α} : ¬s.Nonempty ↔ s = ∅ := by |
simp only [Set.Nonempty, not_exists, eq_empty_iff_forall_not_mem]
|
/-
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.EuclideanDomain.Basic
import Mathlib.RingTheory.PrincipalIdealDomain
import Mathlib.Algebra.GCDMonoid.Nat
#ali... | Mathlib/RingTheory/Int/Basic.lean | 33 | 46 | theorem gcd_eq_one_iff_coprime {a b : ℤ} : Int.gcd a b = 1 ↔ IsCoprime a b := by |
constructor
· intro hg
obtain ⟨ua, -, ha⟩ := exists_unit_of_abs a
obtain ⟨ub, -, hb⟩ := exists_unit_of_abs b
use Nat.gcdA (Int.natAbs a) (Int.natAbs b) * ua, Nat.gcdB (Int.natAbs a) (Int.natAbs b) * ub
rw [mul_assoc, ← ha, mul_assoc, ← hb, mul_comm, mul_comm _ (Int.natAbs b : ℤ), ←
Nat.gcd_eq... |
/-
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
-/
import Mathlib.Init.ZeroOne
import Mathlib.Data.Set.Defs
import Mathlib.Order.Basic
import Mathlib.Order.SymmDiff
import Mathlib.Tactic.Tauto
import ... | Mathlib/Data/Set/Basic.lean | 2,266 | 2,267 | theorem ite_inter_self (t s s' : Set α) : t.ite s s' ∩ t = s ∩ t := by |
rw [Set.ite, union_inter_distrib_right, diff_inter_self, inter_assoc, inter_self, union_empty]
|
/-
Copyright (c) 2014 Parikshit Khanna. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Parikshit Khanna, Jeremy Avigad, Leonardo de Moura, Floris van Doorn, Mario Carneiro
-/
import Mathlib.Data.Nat.Defs
import Mathlib.Data.Option.Basic
import Mathlib.Data.List.Defs
im... | Mathlib/Data/List/Basic.lean | 1,420 | 1,425 | theorem eq_cons_of_length_one {l : List α} (h : l.length = 1) :
l = [l.nthLe 0 (by omega)] := by |
refine ext_get (by convert h) fun n h₁ h₂ => ?_
simp only [get_singleton]
congr
omega
|
/-
Copyright (c) 2021 Hunter Monroe. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Hunter Monroe, Kyle Miller, Alena Gusakov
-/
import Mathlib.Combinatorics.SimpleGraph.Finite
import Mathlib.Combinatorics.SimpleGraph.Maps
#align_import combinatorics.simple_graph.subg... | Mathlib/Combinatorics/SimpleGraph/Subgraph.lean | 1,291 | 1,293 | theorem deleteVerts_inter_verts_set_right_eq :
G'.deleteVerts (s ∩ G'.verts) = G'.deleteVerts s := by |
ext <;> simp (config := { contextual := true }) [imp_false]
|
/-
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.MeasureTheory.Integral.Lebesgue
/-!
# Measure with a given density with respect to another measure
For a measure `μ` on `α` and a fun... | Mathlib/MeasureTheory/Measure/WithDensity.lean | 244 | 284 | theorem withDensity_apply_eq_zero' {f : α → ℝ≥0∞} {s : Set α} (hf : AEMeasurable f μ) :
μ.withDensity f s = 0 ↔ μ ({ x | f x ≠ 0 } ∩ s) = 0 := by |
constructor
· intro hs
let t := toMeasurable (μ.withDensity f) s
apply measure_mono_null (inter_subset_inter_right _ (subset_toMeasurable (μ.withDensity f) s))
have A : μ.withDensity f t = 0 := by rw [measure_toMeasurable, hs]
rw [withDensity_apply f (measurableSet_toMeasurable _ s),
lintegra... |
/-
Copyright (c) 2021 Kevin Buzzard. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kevin Buzzard, Ines Wright, Joachim Breitner
-/
import Mathlib.GroupTheory.QuotientGroup
import Mathlib.GroupTheory.Solvable
import Mathlib.GroupTheory.PGroup
import Mathlib.GroupTheory... | Mathlib/GroupTheory/Nilpotent.lean | 659 | 669 | theorem nilpotent_center_quotient_ind {P : ∀ (G) [Group G] [IsNilpotent G], Prop}
(G : Type*) [Group G] [IsNilpotent G]
(hbase : ∀ (G) [Group G] [Subsingleton G], P G)
(hstep : ∀ (G) [Group G] [IsNilpotent G], P (G ⧸ center G) → P G) : P G := by |
obtain ⟨n, h⟩ : ∃ n, Group.nilpotencyClass G = n := ⟨_, rfl⟩
induction' n with n ih generalizing G
· haveI := nilpotencyClass_zero_iff_subsingleton.mp h
exact hbase _
· have hn : Group.nilpotencyClass (G ⧸ center G) = n := by
simp [nilpotencyClass_quotient_center, h]
exact hstep _ (ih _ hn)
|
/-
Copyright (c) 2018 Andreas Swerdlow. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Andreas Swerdlow, Kexing Ying
-/
import Mathlib.Algebra.GroupWithZero.NonZeroDivisors
import Mathlib.LinearAlgebra.BilinearForm.Properties
/-!
# Bilinear form
This file defines ort... | Mathlib/LinearAlgebra/BilinearForm/Orthogonal.lean | 203 | 206 | theorem span_singleton_sup_orthogonal_eq_top {B : BilinForm K V} {x : V} (hx : ¬B.IsOrtho x x) :
(K ∙ x) ⊔ B.orthogonal (K ∙ x) = ⊤ := by |
rw [orthogonal_span_singleton_eq_toLin_ker]
exact LinearMap.span_singleton_sup_ker_eq_top _ hx
|
/-
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
-/
import Mathlib.Topology.Maps
import Mathlib.Topology.NhdsSet
#align_import topology.constructions from "leanprover-community/mathlib"... | Mathlib/Topology/Constructions.lean | 1,484 | 1,486 | theorem set_pi_mem_nhds_iff {I : Set ι} (hI : I.Finite) {s : ∀ i, Set (π i)} (a : ∀ i, π i) :
I.pi s ∈ 𝓝 a ↔ ∀ i : ι, i ∈ I → s i ∈ 𝓝 (a i) := by |
rw [nhds_pi, pi_mem_pi_iff hI]
|
/-
Copyright (c) 2019 Kenny Lau. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kenny Lau
-/
import Mathlib.Algebra.Algebra.Operations
import Mathlib.Algebra.Algebra.Subalgebra.Prod
import Mathlib.Algebra.Algebra.Subalgebra.Tower
import Mathlib.LinearAlgebra.Basis
impo... | Mathlib/RingTheory/Adjoin/Basic.lean | 99 | 113 | theorem adjoin_induction₂ {p : A → A → Prop} {a b : A} (ha : a ∈ adjoin R s) (hb : b ∈ adjoin R s)
(Hs : ∀ x ∈ s, ∀ y ∈ s, p x y) (Halg : ∀ r₁ r₂, p (algebraMap R A r₁) (algebraMap R A r₂))
(Halg_left : ∀ (r), ∀ x ∈ s, p (algebraMap R A r) x)
(Halg_right : ∀ (r), ∀ x ∈ s, p x (algebraMap R A r))
(Hadd_l... |
refine adjoin_induction hb ?_ (fun r => ?_) (Hadd_right a) (Hmul_right a)
· exact adjoin_induction ha Hs Halg_left
(fun x y Hx Hy z hz => Hadd_left x y z (Hx z hz) (Hy z hz))
fun x y Hx Hy z hz => Hmul_left x y z (Hx z hz) (Hy z hz)
· exact adjoin_induction ha (Halg_right r) (fun r' => Halg r' r)
... |
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Johan Commelin, Mario Carneiro
-/
import Mathlib.Algebra.Algebra.Tower
import Mathlib.Algebra.GroupWithZero.Divisibility
import Mathlib.Algebra.Regular.Pow
import Mathl... | Mathlib/Algebra/MvPolynomial/Basic.lean | 555 | 556 | theorem support_X [Nontrivial R] : (X n : MvPolynomial σ R).support = {Finsupp.single n 1} := by |
classical rw [X, support_monomial, if_neg]; exact one_ne_zero
|
/-
Copyright (c) 2021 Kyle Miller. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kyle Miller
-/
import Mathlib.Combinatorics.SimpleGraph.Subgraph
import Mathlib.Data.List.Rotate
#align_import combinatorics.simple_graph.connectivity from "leanprover-community/mathlib"... | Mathlib/Combinatorics/SimpleGraph/Connectivity.lean | 1,645 | 1,645 | theorem map_eq_nil_iff {p : G.Walk u u} : p.map f = nil ↔ p = nil := by | cases p <;> simp
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Jeremy Avigad
-/
import Mathlib.Algebra.Order.Ring.Defs
import Mathlib.Data.Set.Finite
#align_import order.filter.basic from "leanprover-community/mathlib"@"d4f691b9e5... | Mathlib/Order/Filter/Basic.lean | 1,141 | 1,142 | theorem eventually_const {f : Filter α} [t : NeBot f] {p : Prop} : (∀ᶠ _ in f, p) ↔ p := by |
by_cases h : p <;> simp [h, t.ne]
|
/-
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 | 201 | 201 | theorem birthday_nat_add (n : ℕ) : (↑n + a).birthday = a.birthday + n := by | simp
|
/-
Copyright (c) 2019 Scott Morrison. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Scott Morrison, Bhavik Mehta
-/
import Mathlib.CategoryTheory.Comma.Over
import Mathlib.CategoryTheory.DiscreteCategory
import Mathlib.CategoryTheory.EpiMono
import Mathlib.CategoryThe... | Mathlib/CategoryTheory/Limits/Shapes/BinaryProducts.lean | 1,381 | 1,382 | theorem map_inl_inv_coprodComparison [IsIso (coprodComparison F A B)] :
F.map coprod.inl ≫ inv (coprodComparison F A B) = coprod.inl := by | simp [IsIso.inv_comp_eq]
|
/-
Copyright (c) 2024 Christian Merten. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Christian Merten
-/
import Mathlib.Algebra.Category.GroupCat.Limits
import Mathlib.CategoryTheory.CofilteredSystem
import Mathlib.CategoryTheory.Galois.Decomposition
import Mathlib.C... | Mathlib/CategoryTheory/Galois/Prorepresentability.lean | 324 | 331 | theorem endEquivAutGalois_mul (f g : End F) :
(endEquivAutGalois F) (g ≫ f) = (endEquivAutGalois F g) * (endEquivAutGalois F f) := by |
refine AutGalois.ext F (fun A ↦ evaluation_aut_injective_of_isConnected F A A.pt ?_)
simp only [map_mul, endEquivAutGalois_π, Aut.Aut_mul_def, NatTrans.comp_app, Iso.trans_hom]
simp only [map_comp, FintypeCat.comp_apply, endEquivAutGalois_π]
change f.app A (g.app A A.pt) =
(f.app A ≫ F.map ((AutGalois.π F ... |
/-
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
-/
import Mathlib.GroupTheory.QuotientGroup
import Mathlib.LinearAlgebra.Span
#align_import linear_algebra.quotient from... | Mathlib/LinearAlgebra/Quotient.lean | 262 | 265 | theorem nontrivial_of_lt_top (h : p < ⊤) : Nontrivial (M ⧸ p) := by |
obtain ⟨x, _, not_mem_s⟩ := SetLike.exists_of_lt h
refine ⟨⟨mk x, 0, ?_⟩⟩
simpa using not_mem_s
|
/-
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.Complex.UpperHalfPlane.Topology
import Mathlib.Analysis.SpecialFunctions.Arsinh
import Mathlib.Geometry.Euclidean.Inversion.Basic
#align_im... | Mathlib/Analysis/Complex/UpperHalfPlane/Metric.lean | 162 | 168 | theorem dist_coe_center_sq (z w : ℍ) (r : ℝ) : dist (z : ℂ) (w.center r) ^ 2 =
2 * z.im * w.im * (Real.cosh (dist z w) - Real.cosh r) + (w.im * Real.sinh r) ^ 2 := by |
have H : 2 * z.im * w.im ≠ 0 := by positivity
simp only [Complex.dist_eq, Complex.sq_abs, normSq_apply, coe_re, coe_im, center_re, center_im,
cosh_dist', mul_div_cancel₀ _ H, sub_sq z.im, mul_pow, Real.cosh_sq, sub_re, sub_im, mul_sub, ←
sq]
ring
|
/-
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
-/
import Mathlib.CategoryTheory.EpiMono
import Mathlib.CategoryTheory.Limits.HasLimits
#align_import category_theory.limits.shapes.equalizers from "lean... | Mathlib/CategoryTheory/Limits/Shapes/Equalizers.lean | 397 | 398 | theorem Cofork.condition (t : Cofork f g) : f ≫ t.π = g ≫ t.π := by |
rw [← t.app_zero_eq_comp_π_left, ← t.app_zero_eq_comp_π_right]
|
/-
Copyright (c) 2022 Amelia Livingston. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Amelia Livingston
-/
import Mathlib.Algebra.Category.ModuleCat.Projective
import Mathlib.AlgebraicTopology.ExtraDegeneracy
import Mathlib.CategoryTheory.Abelian.Ext
import Mathlib.R... | Mathlib/RepresentationTheory/GroupCohomology/Resolution.lean | 243 | 261 | theorem diagonalSucc_inv_single_right (g : G →₀ k) (f : Gⁿ) (r : k) :
(diagonalSucc k G n).inv.hom (g ⊗ₜ Finsupp.single f r) =
Finsupp.lift _ k G (fun a => single (a • partialProd f) r) g := by |
refine g.induction ?_ ?_
/- Porting note (#11039): broken proof was
· simp only [TensorProduct.zero_tmul, map_zero]
· intro a b x ha hb hx
simp only [lift_apply, smul_single', map_add, hx, diagonalSucc_inv_single_single,
TensorProduct.add_tmul, Finsupp.sum_single_index, zero_mul, single_zero] -/
· rw... |
/-
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 | 451 | 455 | theorem exists_nontrivial_of_not_isSquare (h₀ : 0 < d) (hd : ¬IsSquare d) :
∃ a : Solution₁ d, a ≠ 1 ∧ a ≠ -1 := by |
obtain ⟨x, y, prop, hy⟩ := exists_of_not_isSquare h₀ hd
refine ⟨mk x y prop, fun H => ?_, fun H => ?_⟩ <;> apply_fun Solution₁.y at H <;>
simp [hy] at H
|
/-
Copyright (c) 2021 Rémy Degenne. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Rémy Degenne
-/
import Mathlib.MeasureTheory.MeasurableSpace.Basic
import Mathlib.MeasureTheory.Measure.MeasureSpaceDef
#align_import measure_theory.function.ae_measurable_sequence from... | Mathlib/MeasureTheory/Function/AEMeasurableSequence.lean | 69 | 78 | theorem prop_of_mem_aeSeqSet (hf : ∀ i, AEMeasurable (f i) μ) {x : α} (hx : x ∈ aeSeqSet hf p) :
p x fun n => aeSeq hf p n x := by |
simp only [aeSeq, hx, if_true]
rw [funext fun n => mk_eq_fun_of_mem_aeSeqSet hf hx n]
have h_ss : aeSeqSet hf p ⊆ { x | p x fun n => f n x } := by
rw [← compl_compl { x | p x fun n => f n x }, aeSeqSet, Set.compl_subset_compl]
refine Set.Subset.trans (Set.compl_subset_compl.mpr ?_) (subset_toMeasurable _... |
/-
Copyright (c) 2021 Fox Thomson. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Fox Thomson, Yaël Dillies
-/
import Mathlib.Computability.NFA
#align_import computability.epsilon_NFA from "leanprover-community/mathlib"@"28aa996fc6fb4317f0083c4e6daf79878d81be33"
/-!
... | Mathlib/Computability/EpsilonNFA.lean | 189 | 194 | theorem toεNFA_εClosure (M : NFA α σ) (S : Set σ) : M.toεNFA.εClosure S = S := by |
ext a
refine ⟨?_, εNFA.εClosure.base _⟩
rintro (⟨_, h⟩ | ⟨_, _, h, _⟩)
· exact h
· cases h
|
/-
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 | 373 | 377 | theorem orthogonalProjection_mem_subspace_eq_self {s : AffineSubspace ℝ P} [Nonempty s]
[HasOrthogonalProjection s.direction] (p : s) : orthogonalProjection s p = p := by |
ext
rw [orthogonalProjection_eq_self_iff]
exact p.2
|
/-
Copyright (c) 2021 Aaron Anderson, Jesse Michael Han, Floris van Doorn. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Aaron Anderson, Jesse Michael Han, Floris van Doorn
-/
import Mathlib.Data.Finset.Basic
import Mathlib.ModelTheory.Syntax
import Mathlib.Data.List.... | Mathlib/ModelTheory/Semantics.lean | 644 | 648 | theorem realize_rel₁ {R : L.Relations 1} {t : L.Term _} :
(R.formula₁ t).Realize v ↔ RelMap R ![t.realize v] := by |
rw [Relations.formula₁, realize_rel, iff_eq_eq]
refine congr rfl (funext fun _ => ?_)
simp only [Matrix.cons_val_fin_one]
|
/-
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.Order.Interval.Set.Monotone
import Mathlib.Topology.MetricSpace.Basic
import Mathlib.Topology.MetricSpace.Bounded
import Mathlib.Topology.Order.Monot... | Mathlib/Analysis/BoxIntegral/Box/Basic.lean | 299 | 301 | theorem biUnion_coe_eq_coe (I : WithBot (Box ι)) :
⋃ (J : Box ι) (_ : ↑J = I), (J : Set (ι → ℝ)) = I := by |
induction I <;> simp [WithBot.coe_eq_coe]
|
/-
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.Algebra.Group.Prod
import Mathlib.Algebra.Group.Units.Equiv
import Mathlib.Algebra.GroupPower.IterateHom
import Mathlib.Logic... | Mathlib/GroupTheory/Perm/Basic.lean | 414 | 418 | theorem subtypePerm_pow (f : Perm α) (n : ℕ) (hf) :
(f.subtypePerm hf : Perm { x // p x }) ^ n = (f ^ n).subtypePerm (pow_aux hf) := by |
induction' n with n ih
· simp
· simp_rw [pow_succ', ih, subtypePerm_mul]
|
/-
Copyright (c) 2020 Anne Baanen. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Anne Baanen, Devon Tuma
-/
import Mathlib.Algebra.GroupWithZero.NonZeroDivisors
import Mathlib.Algebra.Polynomial.AlgebraMap
import Mathlib.RingTheory.Coprime.Basic
import Mathlib.Tactic.... | Mathlib/RingTheory/Polynomial/ScaleRoots.lean | 78 | 86 | theorem degree_scaleRoots (p : R[X]) {s : R} : degree (scaleRoots p s) = degree p := by |
haveI := Classical.propDecidable
by_cases hp : p = 0
· rw [hp, zero_scaleRoots]
refine le_antisymm (Finset.sup_mono (support_scaleRoots_le p s)) (degree_le_degree ?_)
rw [coeff_scaleRoots_natDegree]
intro h
have := leadingCoeff_eq_zero.mp h
contradiction
|
/-
Copyright (c) 2017 Johannes Hölzl. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Johannes Hölzl, Scott Morrison
-/
import Mathlib.Algebra.Group.Indicator
import Mathlib.Algebra.Group.Submonoid.Basic
import Mathlib.Data.Set.Finite
#align_import data.finsupp.defs fr... | Mathlib/Data/Finsupp/Defs.lean | 1,373 | 1,377 | theorem erase_eq_sub_single [AddGroup G] (f : α →₀ G) (a : α) : f.erase a = f - single a (f a) := by |
ext a'
rcases eq_or_ne a a' with (rfl | h)
· simp
· simp [erase_ne h.symm, single_eq_of_ne h]
|
/-
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.Data.List.Basic
#align_import data.list.forall2 from "leanprover-community/mathlib"@"5a3e819569b0f12cbec59d740a2613018e7b8eec"
/-!
# ... | Mathlib/Data/List/Forall2.lean | 332 | 348 | theorem sublistForall₂_iff {l₁ : List α} {l₂ : List β} :
SublistForall₂ R l₁ l₂ ↔ ∃ l, Forall₂ R l₁ l ∧ l <+ l₂ := by |
constructor <;> intro h
· induction' h with _ a b l1 l2 rab _ ih b l1 l2 _ ih
· exact ⟨nil, Forall₂.nil, nil_sublist _⟩
· obtain ⟨l, hl1, hl2⟩ := ih
exact ⟨b :: l, Forall₂.cons rab hl1, hl2.cons_cons b⟩
· obtain ⟨l, hl1, hl2⟩ := ih
exact ⟨l, hl1, hl2.trans (Sublist.cons _ (Sublist.refl _))⟩... |
/-
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.BoxIntegral.DivergenceTheorem
import Mathlib.Analysis.BoxIntegral.Integrability
import Mathlib.Analysis.Calculus.Deriv.Basic
import Mathlib.... | Mathlib/MeasureTheory/Integral/DivergenceTheorem.lean | 441 | 480 | theorem integral_divergence_prod_Icc_of_hasFDerivWithinAt_off_countable_of_le (f g : ℝ × ℝ → E)
(f' g' : ℝ × ℝ → ℝ × ℝ →L[ℝ] E) (a b : ℝ × ℝ) (hle : a ≤ b) (s : Set (ℝ × ℝ)) (hs : s.Countable)
(Hcf : ContinuousOn f (Icc a b)) (Hcg : ContinuousOn g (Icc a b))
(Hdf : ∀ x ∈ Ioo a.1 b.1 ×ˢ Ioo a.2 b.2 \ s, HasF... |
refine integral_divergence_of_hasFDerivWithinAt_off_countable_of_equiv e ?_ ?_ ![f, g]
![f', g'] s hs a b hle ?_ (fun x hx => ?_) _ ?_ Hi
· exact fun x y => (OrderIso.finTwoArrowIso ℝ).symm.le_iff_le
· exact (volume_preserving_finTwoArrow ℝ).symm _
· exact Fin.forall_fin_two.2 ⟨Hcf, Hcg... |
/-
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.MonoidAlgebra.Support
import Mathlib.Algebra.Polynomial.Basic
import Mathlib.Algebra.Regular.Basic
... | Mathlib/Algebra/Polynomial/Coeff.lean | 187 | 190 | theorem coeff_mul_C (p : R[X]) (n : ℕ) (a : R) : coeff (p * C a) n = coeff p n * a := by |
rcases p with ⟨p⟩
simp_rw [← monomial_zero_left, ← ofFinsupp_single, ← ofFinsupp_mul, coeff]
exact AddMonoidAlgebra.mul_single_zero_apply p a n
|
/-
Copyright (c) 2018 Kenny Lau. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Kenny Lau
-/
import Mathlib.Algebra.Group.Subgroup.Basic
import Mathlib.Data.Fintype.Basic
import Mathlib.Data.List.Sublists
import Mathlib.Data.List.InsertNth
#align_import group_theory.f... | Mathlib/GroupTheory/FreeGroup/Basic.lean | 1,313 | 1,315 | theorem reduce_toWord : ∀ x : FreeGroup α, reduce (toWord x) = toWord x := by |
rintro ⟨L⟩
exact reduce.idem
|
/-
Copyright (c) 2023 David Loeffler. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: David Loeffler
-/
import Mathlib.Analysis.SpecialFunctions.Integrals
import Mathlib.MeasureTheory.Integral.PeakFunction
#align_import analysis.special_functions.trigonometric.euler_si... | Mathlib/Analysis/SpecialFunctions/Trigonometric/EulerSineProd.lean | 39 | 46 | theorem antideriv_cos_comp_const_mul (hz : z ≠ 0) (x : ℝ) :
HasDerivAt (fun y : ℝ => Complex.sin (2 * z * y) / (2 * z)) (Complex.cos (2 * z * x)) x := by |
have a : HasDerivAt (fun y : ℂ => y * (2 * z)) _ x := hasDerivAt_mul_const _
have b : HasDerivAt (fun y : ℂ => Complex.sin (y * (2 * z))) _ x :=
HasDerivAt.comp (x : ℂ) (Complex.hasDerivAt_sin (x * (2 * z))) a
have c := b.comp_ofReal.div_const (2 * z)
field_simp at c; simp only [fun y => mul_comm y (2 * z)... |
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