Split (3)

train · 87.8k rows

file_path stringlengths 11 79	full_name stringlengths 2 100	traced_tactics list	end list	commit stringclasses 4 values	url stringclasses 4 values	start list
Mathlib/RingTheory/Derivation/Basic.lean	Derivation.mk_coe	[]	[ 93, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 92, 1 ]
Mathlib/LinearAlgebra/Projection.lean	LinearMap.isCompl_of_proj	[ { "state_after": "case disjoint\nR : Type u_1\ninst✝⁹ : Ring R\nE : Type u_2\ninst✝⁸ : AddCommGroup E\ninst✝⁷ : Module R E\nF : Type ?u.23402\ninst✝⁶ : AddCommGroup F\ninst✝⁵ : Module R F\nG : Type ?u.23918\ninst✝⁴ : AddCommGroup G\ninst✝³ : Module R G\np q : Submodule R E\nS : Type ?u.24881\ninst✝² : Semiring ...	[ 65, 50 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 55, 1 ]
Mathlib/Data/Fin/Basic.lean	Fin.predAbove_last	[]	[ 2349, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 2348, 1 ]
Mathlib/AlgebraicGeometry/ProjectiveSpectrum/Topology.lean	ProjectiveSpectrum.basicOpen_eq_union_of_projection	[ { "state_after": "R : Type u_2\nA : Type u_1\ninst✝³ : CommSemiring R\ninst✝² : CommRing A\ninst✝¹ : Algebra R A\n𝒜 : ℕ → Submodule R A\ninst✝ : GradedAlgebra 𝒜\nf : A\nz : ProjectiveSpectrum 𝒜\n⊢ ¬f ∈ z.asHomogeneousIdeal ↔ ∃ u, (u ∈ Set.range fun i => basicOpen 𝒜 (↑(GradedAlgebra.proj 𝒜 i) f)) ∧ z ∈ u", ...	[ 454, 42 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 441, 1 ]
Mathlib/Order/CompactlyGenerated.lean	CompleteLattice.isCompactElement_iff	[ { "state_after": "case mp\nι : Sort ?u.1219\nα✝ : Type ?u.1222\ninst✝¹ : CompleteLattice α✝\nf : ι → α✝\nα : Type u\ninst✝ : CompleteLattice α\nk : α\n⊢ IsCompactElement k → ∀ (ι : Type u) (s : ι → α), k ≤ iSup s → ∃ t, k ≤ Finset.sup t s\n\ncase mpr\nι : Sort ?u.1219\nα✝ : Type ?u.1222\ninst✝¹ : CompleteLattic...	[ 105, 95 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 83, 1 ]
Mathlib/Order/Filter/AtTopBot.lean	Filter.map_val_Ioi_atTop	[]	[ 1551, 53 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1548, 1 ]
Mathlib/Analysis/Calculus/FDeriv/Bilinear.lean	IsBoundedBilinearMap.hasFDerivWithinAt	[]	[ 94, 38 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 92, 1 ]
Mathlib/Algebra/Hom/Aut.lean	AddAut.inv_def	[]	[ 216, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 215, 1 ]
Mathlib/Computability/TuringMachine.lean	Turing.reaches₀_eq	[]	[ 806, 32 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 805, 1 ]
Mathlib/Data/Polynomial/RingDivision.lean	Polynomial.eq_zero_of_dvd_of_natDegree_lt	[ { "state_after": "R : Type u\nS : Type v\nT : Type w\na b : R\nn : ℕ\ninst✝¹ : Semiring R\ninst✝ : NoZeroDivisors R\np✝ q✝ p q : R[X]\nh₁ : p ∣ q\nh₂ : natDegree q < natDegree p\nhc : ¬q = 0\n⊢ False", "state_before": "R : Type u\nS : Type v\nT : Type w\na b : R\nn : ℕ\ninst✝¹ : Semiring R\ninst✝ : NoZeroDi...	[ 188, 62 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 185, 1 ]
Mathlib/GroupTheory/Submonoid/Pointwise.lean	Submonoid.pointwise_smul_le_iff₀	[]	[ 334, 26 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 333, 1 ]
Mathlib/Algebra/Group/Units.lean	Units.mul_eq_one_iff_inv_eq	[ { "state_after": "no goals", "state_before": "α : Type u\ninst✝ : Monoid α\na✝ b c u : αˣ\na : α\n⊢ ↑u * a = 1 ↔ ↑u⁻¹ = a", "tactic": "rw [← inv_mul_eq_one, inv_inv]" } ]	[ 395, 99 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 395, 1 ]
Mathlib/Analysis/NormedSpace/LinearIsometry.lean	SemilinearIsometryClass.nnnorm_map	[]	[ 97, 28 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 96, 1 ]
Mathlib/LinearAlgebra/AffineSpace/Combination.lean	Finset.sum_centroidWeights_eq_one_of_card_eq_add_one	[]	[ 834, 79 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 832, 1 ]
Mathlib/RingTheory/Subring/Basic.lean	Subring.mem_top	[]	[ 550, 17 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 549, 1 ]
Mathlib/Topology/UniformSpace/Basic.lean	comp3_mem_uniformity	[]	[ 571, 98 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 568, 1 ]
Mathlib/Data/Real/ENNReal.lean	ENNReal.mul_div_cancel'	[ { "state_after": "no goals", "state_before": "α : Type ?u.253194\nβ : Type ?u.253197\na b c d : ℝ≥0∞\nr p q : ℝ≥0\nh0 : a ≠ 0\nhI : a ≠ ⊤\n⊢ a * (b / a) = b", "tactic": "rw [mul_comm, ENNReal.div_mul_cancel h0 hI]" } ]	[ 1396, 46 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1395, 11 ]
Mathlib/ModelTheory/Satisfiability.lean	FirstOrder.Language.completeTheory.isComplete	[]	[ 513, 44 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 512, 1 ]
Mathlib/SetTheory/Ordinal/Exponential.lean	Ordinal.log_mono_right	[ { "state_after": "no goals", "state_before": "b x y : Ordinal\nxy : x ≤ y\nhx : x = 0\n⊢ log b x ≤ log b y", "tactic": "simp only [hx, log_zero_right, Ordinal.zero_le]" }, { "state_after": "no goals", "state_before": "b x y : Ordinal\nxy : x ≤ y\nhx : ¬x = 0\nhb : ¬1 < b\n⊢ log b x ≤ log b y...	[ 364, 67 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 358, 1 ]
Mathlib/Data/MvPolynomial/Division.lean	MvPolynomial.divMonomial_add_modMonomial_single	[]	[ 205, 34 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 203, 1 ]
Mathlib/Order/Hom/Lattice.lean	LatticeHom.coe_comp_sup_hom'	[]	[ 1120, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1118, 1 ]
Mathlib/Data/Finset/Basic.lean	Finset.mem_union_left	[]	[ 1350, 26 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1349, 1 ]
Mathlib/Logic/Lemmas.lean	ite_ite_distrib_left	[]	[ 67, 25 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 66, 1 ]
Mathlib/Analysis/Complex/Basic.lean	Complex.dist_eq_re_im	[ { "state_after": "E : Type ?u.10318\ninst✝¹ : NormedAddCommGroup E\ninst✝ : NormedSpace ℂ E\nz w : ℂ\n⊢ dist z w = Real.sqrt ((z.re - w.re) * (z.re - w.re) + (z.im - w.im) * (z.im - w.im))", "state_before": "E : Type ?u.10318\ninst✝¹ : NormedAddCommGroup E\ninst✝ : NormedSpace ℂ E\nz w : ℂ\n⊢ dist z w = Rea...	[ 97, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 95, 1 ]
Mathlib/LinearAlgebra/Pi.lean	LinearMap.pi_ext'	[ { "state_after": "R : Type u\nK : Type u'\nM : Type v\nV : Type v'\nM₂ : Type w\nV₂ : Type w'\nM₃ : Type y\nV₃ : Type y'\nM₄ : Type z\nι : Type x\nι' : Type x'\ninst✝¹⁰ : Semiring R\ninst✝⁹ : AddCommMonoid M₂\ninst✝⁸ : Module R M₂\ninst✝⁷ : AddCommMonoid M₃\ninst✝⁶ : Module R M₃\nφ : ι → Type i\ninst✝⁵ : (i : ι...	[ 192, 38 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 190, 1 ]
Mathlib/LinearAlgebra/QuadraticForm/Basic.lean	BilinForm.nondegenerate_of_anisotropic	[]	[ 1060, 47 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1059, 1 ]
Mathlib/Algebra/Associated.lean	IsSquare.not_irreducible	[]	[ 305, 96 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 305, 1 ]
Mathlib/Algebra/Quaternion.lean	Quaternion.rank_eq_four	[]	[ 1086, 37 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1085, 1 ]
Mathlib/Logic/Basic.lean	heq_of_cast_eq	[]	[ 552, 38 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 551, 1 ]
Mathlib/Algebra/BigOperators/Ring.lean	Finset.sum_range_succ_mul_sum_range_succ	[ { "state_after": "no goals", "state_before": "α : Type u\nβ : Type v\nγ : Type w\ns s₁ s₂ : Finset α\na : α\nb : β\nf✝ g✝ : α → β\ninst✝ : NonUnitalNonAssocSemiring β\nn k : ℕ\nf g : ℕ → β\n⊢ (∑ i in range (n + 1), f i) * ∑ i in range (k + 1), g i =\n (∑ i in range n, f i) * ∑ i in range k, g i + f n * ∑...	[ 277, 58 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 272, 1 ]
Mathlib/RingTheory/Algebraic.lean	Algebra.isAlgebraic_of_larger_base	[]	[ 250, 75 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 249, 1 ]
Mathlib/Algebra/DirectSum/Ring.lean	DirectSum.of_zero_one	[]	[ 428, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 427, 1 ]
Mathlib/Data/Polynomial/Derivative.lean	Polynomial.iterate_derivative_zero	[ { "state_after": "case zero\nR : Type u\nS : Type v\nT : Type w\nι : Type y\nA : Type z\na b : R\nn : ℕ\ninst✝ : Semiring R\n⊢ (↑derivative^[Nat.zero]) 0 = 0\n\ncase succ\nR : Type u\nS : Type v\nT : Type w\nι : Type y\nA : Type z\na b : R\nn : ℕ\ninst✝ : Semiring R\nk : ℕ\nih : (↑derivative^[k]) 0 = 0\n⊢ (↑der...	[ 87, 14 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 84, 1 ]
Mathlib/Algebra/Star/Pointwise.lean	Set.star_subset_star	[]	[ 107, 53 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 106, 1 ]
Mathlib/Analysis/SpecialFunctions/Trigonometric/Deriv.lean	fderivWithin_cosh	[]	[ 1092, 45 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1090, 1 ]
Mathlib/Topology/UniformSpace/Basic.lean	uniformContinuous_toAdd	[]	[ 1460, 23 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1459, 1 ]
Mathlib/LinearAlgebra/Dual.lean	Subspace.dualRestrict_leftInverse	[ { "state_after": "K : Type u\nV : Type v\ninst✝² : Field K\ninst✝¹ : AddCommGroup V\ninst✝ : Module K V\nW✝ W : Subspace K V\nx : Module.Dual K { x // x ∈ W }\n⊢ ↑1 x = x", "state_before": "K : Type u\nV : Type v\ninst✝² : Field K\ninst✝¹ : AddCommGroup V\ninst✝ : Module K V\nW✝ W : Subspace K V\nx : Module...	[ 1039, 8 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1035, 1 ]
Mathlib/RingTheory/FractionalIdeal.lean	FractionalIdeal.le_div_iff_mul_le	[ { "state_after": "R : Type ?u.1213100\ninst✝⁶ : CommRing R\nS : Submonoid R\nP : Type ?u.1213307\ninst✝⁵ : CommRing P\ninst✝⁴ : Algebra R P\nloc : IsLocalization S P\nR₁ : Type u_1\ninst✝³ : CommRing R₁\nK : Type u_2\ninst✝² : Field K\ninst✝¹ : Algebra R₁ K\nfrac : IsFractionRing R₁ K\ninst✝ : IsDomain R₁\nI✝ J...	[ 1150, 36 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1145, 1 ]
Mathlib/Topology/Sets/Compacts.lean	TopologicalSpace.PositiveCompacts.nonempty	[]	[ 341, 43 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 340, 11 ]
Mathlib/Data/Real/Basic.lean	Real.lt_cauchy	[ { "state_after": "x y : ℝ\nf g : CauSeq ℚ abs\n⊢ (match { cauchy := Quotient.mk equiv f }, { cauchy := Quotient.mk equiv g } with\n \| { cauchy := x }, { cauchy := y } => Quotient.liftOn₂ x y (fun x x_1 => x < x_1) Real.definition.proof_1✝) ↔\n f < g", "state_before": "x y : ℝ\nf g : CauSeq ℚ abs\n⊢ Re...	[ 320, 38 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 319, 1 ]
Mathlib/Algebra/ContinuedFractions/Computation/Translations.lean	GeneralizedContinuedFraction.of_terminatedAt_n_iff_succ_nth_intFractPair_stream_eq_none	[ { "state_after": "no goals", "state_before": "K : Type u_1\ninst✝¹ : LinearOrderedField K\ninst✝ : FloorRing K\nv : K\nn : ℕ\n⊢ TerminatedAt (of v) n ↔ IntFractPair.stream v (n + 1) = none", "tactic": "rw [of_terminatedAt_iff_intFractPair_seq1_terminatedAt, Stream'.Seq.TerminatedAt,\n IntFractPair.get?...	[ 215, 48 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 212, 1 ]
Mathlib/Data/Real/Irrational.lean	Irrational.div_int	[ { "state_after": "q : ℚ\nx y : ℝ\nh : Irrational x\nm : ℤ\nhm : m ≠ 0\n⊢ Irrational (x / ↑↑m)", "state_before": "q : ℚ\nx y : ℝ\nh : Irrational x\nm : ℤ\nhm : m ≠ 0\n⊢ Irrational (x / ↑m)", "tactic": "rw [← cast_coe_int]" }, { "state_after": "q : ℚ\nx y : ℝ\nh : Irrational x\nm : ℤ\nhm : m ≠ 0\n...	[ 442, 25 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 439, 1 ]
Mathlib/Topology/Basic.lean	eventually_eventuallyEq_nhds	[]	[ 988, 29 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 986, 1 ]
Mathlib/Data/Matrix/Kronecker.lean	Matrix.kroneckerMap_diagonal_diagonal	[ { "state_after": "case a.mk.h.mk\nR : Type ?u.5462\nα : Type u_1\nα' : Type ?u.5468\nβ : Type u_2\nβ' : Type ?u.5474\nγ : Type u_3\nγ' : Type ?u.5480\nl : Type ?u.5483\nm : Type u_4\nn : Type u_5\np : Type ?u.5492\nq : Type ?u.5495\nr : Type ?u.5498\nl' : Type ?u.5501\nm' : Type ?u.5504\nn' : Type ?u.5507\np' :...	[ 132, 83 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 128, 1 ]
Mathlib/Data/Finite/Defs.lean	finite_iff_exists_equiv_fin	[]	[ 66, 45 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 65, 1 ]
Mathlib/Topology/Order/Hom/Esakia.lean	PseudoEpimorphism.coe_comp	[]	[ 184, 38 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 183, 1 ]
Mathlib/Data/Set/Basic.lean	Set.mem_symmDiff	[]	[ 2093, 10 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 2092, 1 ]
Mathlib/Data/Pi/Algebra.lean	Pi.const_pow	[]	[ 135, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 134, 1 ]
Mathlib/Data/Finset/LocallyFinite.lean	Finset.Icc_subset_Icc_right	[]	[ 195, 26 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 194, 1 ]
Mathlib/Data/Real/EReal.lean	EReal.coe_ennreal_eq_coe_ennreal_iff	[]	[ 512, 31 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 511, 1 ]
Mathlib/FieldTheory/PerfectClosure.lean	PerfectClosure.eq_iff	[ { "state_after": "no goals", "state_before": "K : Type u\ninst✝³ : CommRing K\ninst✝² : IsDomain K\np : ℕ\ninst✝¹ : Fact (Nat.Prime p)\ninst✝ : CharP K p\nx y : ℕ × K\nx✝ : ∃ z, (↑(frobenius K p)^[y.fst + z]) x.snd = (↑(frobenius K p)^[x.fst + z]) y.snd\nz : ℕ\nH : (↑(frobenius K p)^[y.fst + z]) x.snd = (↑(...	[ 485, 23 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 481, 1 ]
Mathlib/RingTheory/Ideal/QuotientOperations.lean	DoubleQuot.quotQuotEquivCommₐ_toRingEquiv	[]	[ 791, 29 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 785, 1 ]
Mathlib/GroupTheory/Perm/Support.lean	Equiv.Perm.ofSubtype_swap_eq	[ { "state_after": "case pos\nα : Type u_1\ninst✝¹ : DecidableEq α\np : α → Prop\ninst✝ : DecidablePred p\nx y : Subtype p\nz : α\nhz : p z\n⊢ ↑(↑ofSubtype (swap x y)) z = ↑(swap ↑x ↑y) z\n\ncase neg\nα : Type u_1\ninst✝¹ : DecidableEq α\np : α → Prop\ninst✝ : DecidablePred p\nx y : Subtype p\nz : α\nhz : ¬p z\n⊢...	[ 232, 27 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 214, 1 ]
Mathlib/RingTheory/Polynomial/Cyclotomic/Basic.lean	Polynomial.cyclotomic_zero	[ { "state_after": "no goals", "state_before": "R : Type u_1\ninst✝ : Ring R\n⊢ cyclotomic 0 R = 1", "tactic": "simp only [cyclotomic, dif_pos]" } ]	[ 308, 34 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 307, 1 ]
Mathlib/Analysis/NormedSpace/AffineIsometry.lean	AffineIsometry.toAffineMap_injective	[ { "state_after": "case mk.mk\n𝕜 : Type u_5\nV : Type u_1\nV₁ : Type ?u.25742\nV₂ : Type u_2\nV₃ : Type ?u.25748\nV₄ : Type ?u.25751\nP₁ : Type ?u.25754\nP : Type u_3\nP₂ : Type u_4\nP₃ : Type ?u.25763\nP₄ : Type ?u.25766\ninst✝²⁰ : NormedField 𝕜\ninst✝¹⁹ : SeminormedAddCommGroup V\ninst✝¹⁸ : SeminormedAddComm...	[ 88, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 86, 1 ]
Mathlib/GroupTheory/FreeAbelianGroup.lean	FreeAbelianGroup.lift_neg'	[]	[ 188, 74 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 187, 1 ]
Mathlib/Topology/Algebra/Order/Floor.lean	tendsto_floor_atBot	[]	[ 42, 68 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 41, 1 ]
Mathlib/Order/SuccPred/Basic.lean	Pred.rec_iff	[]	[ 1428, 47 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1426, 1 ]
Mathlib/GroupTheory/PGroup.lean	IsPGroup.bot_lt_center	[ { "state_after": "p : ℕ\nG : Type u_1\ninst✝⁴ : Group G\nhG : IsPGroup p G\nhp : Fact (Nat.Prime p)\nα : Type ?u.345348\ninst✝³ : MulAction G α\ninst✝² : Fintype α\ninst✝¹ : Nontrivial G\ninst✝ : Finite G\nthis : Nontrivial { x // x ∈ Subgroup.center G }\n⊢ ⊥ < Subgroup.center G", "state_before": "p : ℕ\nG ...	[ 264, 96 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 260, 1 ]
Mathlib/RingTheory/PowerSeries/Basic.lean	PowerSeries.constantCoeff_one	[]	[ 1557, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1556, 1 ]
Mathlib/FieldTheory/IntermediateField.lean	IntermediateField.toSubalgebra_eq_iff	[ { "state_after": "K : Type u_2\nL : Type u_1\nL' : Type ?u.277529\ninst✝⁴ : Field K\ninst✝³ : Field L\ninst✝² : Field L'\ninst✝¹ : Algebra K L\ninst✝ : Algebra K L'\nS F E : IntermediateField K L\n⊢ (∀ (x : L), x ∈ F.toSubalgebra ↔ x ∈ E.toSubalgebra) ↔ ∀ (x : L), x ∈ ↑F ↔ x ∈ ↑E", "state_before": "K : Type...	[ 699, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 697, 1 ]
Mathlib/Order/Ideal.lean	Order.Ideal.mem_compl_of_ge	[]	[ 145, 18 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 144, 1 ]
Mathlib/FieldTheory/IntermediateField.lean	IntermediateField.list_prod_mem	[]	[ 207, 16 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 206, 11 ]
Mathlib/CategoryTheory/EqToHom.lean	CategoryTheory.Functor.hcongr_hom	[ { "state_after": "no goals", "state_before": "C : Type u₁\ninst✝² : Category C\nD : Type u₂\ninst✝¹ : Category D\nE : Type u₃\ninst✝ : Category E\nF✝ G✝ : C ⥤ D\nX✝ Y✝ Z : C\nf✝ : X✝ ⟶ Y✝\ng : Y✝ ⟶ Z\nF G : C ⥤ D\nh : F = G\nX Y : C\nf : X ⟶ Y\n⊢ HEq (F.map f) (G.map f)", "tactic": "rw [h]" } ]	[ 260, 9 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 259, 1 ]
Mathlib/Logic/Equiv/Defs.lean	Equiv.forall_congr_left	[]	[ 916, 41 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 915, 11 ]
Mathlib/Topology/Algebra/InfiniteSum/Basic.lean	HasSum.map	[]	[ 263, 34 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 258, 11 ]
Mathlib/Analysis/SpecialFunctions/ExpDeriv.lean	ContDiffAt.exp	[]	[ 265, 41 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 264, 1 ]
Mathlib/Algebra/Group/Conj.lean	conj_zpow	[ { "state_after": "case ofNat\nα : Type u\nβ : Type v\ninst✝ : Group α\na b : α\na✝ : ℕ\n⊢ (a * b * a⁻¹) ^ Int.ofNat a✝ = a * b ^ Int.ofNat a✝ * a⁻¹\n\ncase negSucc\nα : Type u\nβ : Type v\ninst✝ : Group α\na b : α\na✝ : ℕ\n⊢ (a * b * a⁻¹) ^ Int.negSucc a✝ = a * b ^ Int.negSucc a✝ * a⁻¹", "state_before": "α ...	[ 123, 19 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 118, 1 ]
Mathlib/Algebra/BigOperators/Finprod.lean	finprod_dmem	[]	[ 1286, 67 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1284, 1 ]
Mathlib/Data/Nat/EvenOddRec.lean	Nat.evenOddRec_zero	[]	[ 37, 21 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 35, 1 ]
Mathlib/Algebra/IndicatorFunction.lean	Set.mulIndicator_const_preimage_eq_union	[ { "state_after": "α : Type u_1\nβ : Type ?u.26992\nι : Type ?u.26995\nM : Type u_2\nN : Type ?u.27001\ninst✝³ : One M\ninst✝² : One N\ns✝ t : Set α\nf g : α → M\na✝ : α\nU : Set α\ns : Set M\na : M\ninst✝¹ : Decidable (a ∈ s)\ninst✝ : Decidable (1 ∈ s)\n⊢ Set.ite U (if a ∈ s then univ else ∅) (if 1 ∈ s then uni...	[ 312, 44 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 308, 1 ]
Mathlib/ModelTheory/Definability.lean	Set.empty_definable_iff	[ { "state_after": "M : Type w\nA : Set M\nL : Language\ninst✝ : Structure L M\nα : Type u₁\nβ : Type ?u.1235\nB : Set M\ns : Set (α → M)\n⊢ (∃ φ, s = setOf (Formula.Realize φ)) ↔\n ∃ b, s = setOf (Formula.Realize (↑(LEquiv.onFormula (LEquiv.addEmptyConstants L ↑∅)).symm b))", "state_before": "M : Type w\n...	[ 65, 22 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 62, 1 ]
Mathlib/ModelTheory/Substructures.lean	FirstOrder.Language.Substructure.closure_withConstants_eq	[ { "state_after": "L : Language\nM : Type w\nN : Type ?u.683008\nP : Type ?u.683011\ninst✝² : Structure L M\ninst✝¹ : Structure L N\ninst✝ : Structure L P\nS : Substructure L M\nA s : Set M\nh : A ⊆ ↑S\n⊢ withConstants (LowerAdjoint.toFun (closure L) (A ∪ s)) (_ : A ⊆ ↑(LowerAdjoint.toFun (closure L) (A ∪ s))) ≤...	[ 784, 39 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 777, 1 ]
Mathlib/SetTheory/Game/PGame.lean	PGame.wf_subsequent	[]	[ 260, 23 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 259, 1 ]
Mathlib/Data/Set/Intervals/Basic.lean	Set.Ioo_inter_Ioo	[ { "state_after": "α : Type u_1\nβ : Type ?u.187524\ninst✝¹ : LinearOrder α\ninst✝ : LinearOrder β\nf : α → β\na a₁ a₂ b b₁ b₂ c d : α\n⊢ Ioi a₁ ∩ Iio b₁ ∩ (Ioi a₂ ∩ Iio b₂) = Ioi a₁ ∩ Ioi a₂ ∩ (Iio b₁ ∩ Iio b₂)", "state_before": "α : Type u_1\nβ : Type ?u.187524\ninst✝¹ : LinearOrder α\ninst✝ : LinearOrder ...	[ 1792, 81 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1791, 1 ]
Mathlib/RingTheory/DedekindDomain/Ideal.lean	FractionalIdeal.mul_inv_cancel_of_le_one	[ { "state_after": "case pos\nR : Type ?u.278737\nA : Type u_1\nK : Type u_2\ninst✝⁵ : CommRing R\ninst✝⁴ : CommRing A\ninst✝³ : Field K\ninst✝² : IsDomain A\ninst✝¹ : Algebra A K\ninst✝ : IsFractionRing A K\nh : IsDedekindDomain A\nI : Ideal A\nhI0 : I ≠ ⊥\nhI : (↑I * (↑I)⁻¹)⁻¹ ≤ 1\nhI1 : I = ⊤\n⊢ ↑I * (↑I)⁻¹ = ...	[ 485, 14 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 462, 1 ]
Mathlib/Data/Polynomial/Degree/Definitions.lean	Polynomial.degree_pow_le	[ { "state_after": "R : Type u\nS : Type v\na b c d : R\nn m : ℕ\ninst✝ : Semiring R\np✝ q : R[X]\nι : Type ?u.598995\np : R[X]\n⊢ degree 1 ≤ 0", "state_before": "R : Type u\nS : Type v\na b c d : R\nn m : ℕ\ninst✝ : Semiring R\np✝ q : R[X]\nι : Type ?u.598995\np : R[X]\n⊢ degree (p ^ 0) ≤ 0 • degree p", ...	[ 791, 79 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 785, 1 ]
Mathlib/Analysis/Complex/UnitDisc/Basic.lean	Complex.UnitDisc.conj_zero	[]	[ 223, 33 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 222, 1 ]
Mathlib/SetTheory/Cardinal/Ordinal.lean	Cardinal.aleph'_succ	[ { "state_after": "o : Ordinal\n⊢ alephIdx (aleph' (succ o)) ≤ alephIdx (succ (aleph' o))", "state_before": "o : Ordinal\n⊢ aleph' (succ o) = succ (aleph' o)", "tactic": "apply (succ_le_of_lt <\| aleph'_lt.2 <\| lt_succ o).antisymm' (Cardinal.alephIdx_le.1 <\| _)" }, { "state_after": "o : Ordinal\n⊢...	[ 206, 16 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 203, 1 ]
Std/Data/List/Lemmas.lean	List.diff_subset	[]	[ 1533, 83 ]	e68aa8f5fe47aad78987df45f99094afbcb5e936	https://github.com/leanprover/std4	[ 1533, 1 ]
Mathlib/Deprecated/Subgroup.lean	Group.normalClosure.isSubgroup	[]	[ 713, 41 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 712, 1 ]
Mathlib/Data/Polynomial/FieldDivision.lean	Polynomial.div_def	[]	[ 195, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 194, 1 ]
Mathlib/GroupTheory/Nilpotent.lean	mem_lowerCentralSeries_succ_iff	[]	[ 301, 13 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 298, 1 ]
Mathlib/Data/Complex/Exponential.lean	Complex.sum_div_factorial_le	[ { "state_after": "α : Type u_1\ninst✝ : LinearOrderedField α\nn j : ℕ\nhn : 0 < n\nm : ℕ\nhm : m < j ∧ n ≤ m\n⊢ n ≤ m", "state_before": "α : Type u_1\ninst✝ : LinearOrderedField α\nn j : ℕ\nhn : 0 < n\nm : ℕ\nhm : m ∈ filter (fun k => n ≤ k) (range j)\n⊢ n ≤ m", "tactic": "simp at hm" }, { "stat...	[ 1608, 83 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1573, 1 ]
Mathlib/Analysis/Convex/Hull.lean	mem_convexHull_iff	[ { "state_after": "no goals", "state_before": "𝕜 : Type u_2\nE : Type u_1\nF : Type ?u.6513\ninst✝⁴ : OrderedSemiring 𝕜\ninst✝³ : AddCommMonoid E\ninst✝² : AddCommMonoid F\ninst✝¹ : Module 𝕜 E\ninst✝ : Module 𝕜 F\ns t : Set E\nx y : E\n⊢ x ∈ ↑(convexHull 𝕜).toOrderHom s ↔ ∀ (t : Set E), s ⊆ t → Convex �...	[ 72, 45 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 71, 1 ]
Mathlib/Algebra/Module/LocalizedModule.lean	IsLocalizedModule.mk'_cancel_right	[ { "state_after": "R : Type u_1\ninst✝⁷ : CommRing R\nS : Submonoid R\nM : Type u_3\nM' : Type u_2\nM'' : Type ?u.844419\ninst✝⁶ : AddCommMonoid M\ninst✝⁵ : AddCommMonoid M'\ninst✝⁴ : AddCommMonoid M''\ninst✝³ : Module R M\ninst✝² : Module R M'\ninst✝¹ : Module R M''\nf : M →ₗ[R] M'\ng : M →ₗ[R] M''\ninst✝ : IsL...	[ 969, 46 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 967, 1 ]
Mathlib/Analysis/InnerProductSpace/Basic.lean	Continuous.inner	[]	[ 2283, 80 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 2282, 1 ]
Mathlib/MeasureTheory/Integral/Lebesgue.lean	MeasureTheory.lintegral_withDensity_eq_lintegral_mul₀'	[ { "state_after": "α : Type u_1\nβ : Type ?u.1801681\nγ : Type ?u.1801684\nδ : Type ?u.1801687\nm m0 : MeasurableSpace α\nμ : Measure α\nf : α → ℝ≥0∞\nhf : AEMeasurable f\ng : α → ℝ≥0∞\nhg : AEMeasurable g\nf' : α → ℝ≥0∞ := AEMeasurable.mk f hf\n⊢ (∫⁻ (a : α), g a ∂Measure.withDensity μ f) = ∫⁻ (a : α), (f * g) ...	[ 1817, 35 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1788, 1 ]
Mathlib/Control/LawfulFix.lean	Part.Fix.le_f_of_mem_approx	[ { "state_after": "α : Type u_2\nβ : α → Type u_1\nf : ((a : α) → Part (β a)) →o (a : α) → Part (β a)\ni : ℕ\n⊢ ↑(approxChain f) i ≤ ↑f (↑(approxChain f) i)", "state_before": "α : Type u_2\nβ : α → Type u_1\nf : ((a : α) → Part (β a)) →o (a : α) → Part (β a)\nx : (a : α) → Part (β a)\n⊢ ∀ (x_1 : ℕ), x = ↑(ap...	[ 126, 21 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 123, 1 ]
Mathlib/Analysis/SpecialFunctions/Trigonometric/Complex.lean	Complex.tan_add'	[]	[ 124, 21 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 121, 1 ]
Mathlib/LinearAlgebra/AffineSpace/Combination.lean	eq_affineCombination_of_mem_affineSpan_of_fintype	[ { "state_after": "no goals", "state_before": "k : Type u_3\nV : Type u_4\nP : Type u_2\ninst✝⁴ : Ring k\ninst✝³ : AddCommGroup V\ninst✝² : Module k V\ninst✝¹ : AffineSpace V P\nι : Type u_1\ninst✝ : Fintype ι\np1 : P\np : ι → P\nh : p1 ∈ affineSpan k (Set.range p)\n⊢ ∃ w x, p1 = ↑(Finset.affineCombination k...	[ 1136, 40 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1128, 1 ]
Mathlib/LinearAlgebra/Coevaluation.lean	coevaluation_apply_one	[ { "state_after": "K : Type u\ninst✝³ : Field K\nV : Type v\ninst✝² : AddCommGroup V\ninst✝¹ : Module K V\ninst✝ : FiniteDimensional K V\n⊢ ↑(↑(Basis.constr (Basis.singleton Unit K) K) fun x =>\n ∑ x : ↑(Basis.ofVectorSpaceIndex K V),\n ↑(Basis.ofVectorSpace K V) x ⊗ₜ[K] Basis.coord (Basis.of...	[ 58, 85 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 51, 1 ]
Mathlib/Order/Compare.lean	lt_iff_lt_of_cmp_eq_cmp	[ { "state_after": "no goals", "state_before": "α : Type u_1\nβ✝ : Type ?u.20071\ninst✝¹ : LinearOrder α\nx y : α\nβ : Type u_2\ninst✝ : LinearOrder β\nx' y' : β\nh : cmp x y = cmp x' y'\n⊢ x < y ↔ x' < y'", "tactic": "rw [← cmp_eq_lt_iff, ← cmp_eq_lt_iff, h]" } ]	[ 255, 43 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 254, 1 ]
Mathlib/Order/Disjoint.lean	disjoint_top	[]	[ 110, 72 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 109, 1 ]
Mathlib/Data/Set/Intervals/Basic.lean	Set.Iio_inj	[]	[ 1128, 23 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 1127, 1 ]
Mathlib/Data/Finsupp/Defs.lean	Finsupp.embDomain_injective	[ { "state_after": "no goals", "state_before": "α : Type u_1\nβ : Type u_2\nγ : Type ?u.227043\nι : Type ?u.227046\nM : Type u_3\nM' : Type ?u.227052\nN : Type ?u.227055\nP : Type ?u.227058\nG : Type ?u.227061\nH : Type ?u.227064\nR : Type ?u.227067\nS : Type ?u.227070\ninst✝¹ : Zero M\ninst✝ : Zero N\nf : α ...	[ 872, 94 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 871, 1 ]
Mathlib/Data/Multiset/FinsetOps.lean	Multiset.inter_le_ndinter	[]	[ 273, 71 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 272, 1 ]
Mathlib/Algebra/Associated.lean	Associates.mk_mul_mk	[]	[ 819, 6 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 818, 1 ]
Mathlib/Algebra/Order/ToIntervalMod.lean	toIcoMod_zsmul_add'	[ { "state_after": "no goals", "state_before": "α : Type u_1\ninst✝ : LinearOrderedAddCommGroup α\nhα : Archimedean α\np : α\nhp : 0 < p\na✝ b✝ c : α\nn : ℤ\na b : α\nm : ℤ\n⊢ toIcoMod hp (m • p + a) b = m • p + toIcoMod hp a b", "tactic": "rw [add_comm, toIcoMod_add_zsmul', add_comm]" } ]	[ 436, 47 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 434, 1 ]
Mathlib/Data/TypeVec.lean	TypeVec.dropFun_toSubtype	[ { "state_after": "case a.h\nn : ℕ\nα : TypeVec (n + 1)\np : α ⟹ repeat (n + 1) Prop\ni : Fin2 n\nx✝ : drop (fun i => { x // ofRepeat (p i x) }) i\n⊢ dropFun (toSubtype p) i x✝ = toSubtype (fun i x => p (Fin2.fs i) x) i x✝", "state_before": "n : ℕ\nα : TypeVec (n + 1)\np : α ⟹ repeat (n + 1) Prop\n⊢ dropFun ...	[ 709, 44 ]	5a919533f110b7d76410134a237ee374f24eaaad	https://github.com/leanprover-community/mathlib4	[ 706, 1 ]

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