name string | module string | deps list |
|---|---|---|
CategoryTheory.Bicategory.Adjunction.mk.injEq | Mathlib.CategoryTheory.Bicategory.Adjunction.Basic | [
"CategoryTheory.CategoryStruct.toQuiver",
"Quiver.Hom",
"Eq.propIntro",
"CategoryTheory.Bicategory.Adjunction.mk.inj",
"CategoryTheory.Bicategory.rightUnitor",
"CategoryTheory.Bicategory.Adjunction.mk",
"Lean.injEq_helper",
"CategoryTheory.CategoryStruct.id",
"CategoryTheory.Bicategory.toCategoryStr... |
Mathlib.Tactic.ITauto.Proof.em | Mathlib.Tactic.ITauto | [
"Mathlib.Tactic.ITauto.Proof",
"Mathlib.Tactic.ITauto.Proof.em",
"Bool",
"Lean.Name"
] |
Finset.isPWO_sup | Mathlib.Order.WellFoundedSet | [
"Set.IsPWO",
"Lattice.toSemilatticeSup",
"CompleteBooleanAlgebra.toCompleteDistribLattice",
"Finset",
"Preorder.toLE",
"Membership.mem",
"CompleteLattice.toConditionallyCompleteLattice",
"LE.le",
"Finset.partiallyWellOrderedOn_sup",
"Iff",
"Finset.instSetLike",
"CompleteDistribLattice.toFrame"... |
Lean.NameMapExtension.find? | Batteries.Lean.NameMapAttribute | [
"Lean.NameMap",
"Lean.PersistentEnvExtensionState",
"Lean.NameMapExtension",
"Lean.NameMap.find?",
"Lean.instInhabitedThunk_batteries",
"Lean.Name.anonymous",
"Thunk.get",
"List",
"Lean.NameMap.instInhabited",
"Lean.EnvExtension.asyncMode",
"Lean.SimplePersistentEnvExtension.getState",
"Lean.N... |
_private.Lean.Meta.Tactic.Grind.Arith.Cutsat.EqCnstr.0.Lean.Meta.Grind.Arith.Cutsat.SupportedTermKind.natAbs.sizeOf_spec | Lean.Meta.Tactic.Grind.Arith.Cutsat.EqCnstr | [
"_private.Lean.Meta.Tactic.Grind.Arith.Cutsat.EqCnstr.0.Lean.Meta.Grind.Arith.Cutsat.SupportedTermKind._sizeOf_inst",
"instOfNatNat",
"_private.Lean.Meta.Tactic.Grind.Arith.Cutsat.EqCnstr.0.Lean.Meta.Grind.Arith.Cutsat.SupportedTermKind",
"Nat",
"_private.Lean.Meta.Tactic.Grind.Arith.Cutsat.EqCnstr.0.Lean.M... |
Std.Iter.foldM_filterM | Init.Data.Iterators.Lemmas.Combinators.FilterMap | [
"Pure.pure",
"LawfulMonadLiftT",
"congrArg",
"Monad.toApplicative",
"Std.Iter.foldM",
"MonadLiftT.monadLift",
"Std.Iterators.Types.FilterMap.instIteratorLoop",
"ULift",
"Std.IteratorLoop",
"Option.some",
"WeaklyLawfulMonadAttach",
"Std.Internal.instLawfulMonadLiftFunctionMonadLiftOfLawfulMonad... |
_private.Init.Data.String.Lemmas.Pattern.String.ForwardSearcher.0.String.Slice.Pattern.Model.ForwardSliceSearcher.prefixFunctionRecurrence._unary._proof_5 | Init.Data.String.Lemmas.Pattern.String.ForwardSearcher | [
"_private.Init.Data.String.Lemmas.Pattern.String.ForwardSearcher.0.String.Slice.Pattern.Model.ForwardSliceSearcher.prefixFunctionRecurrence._proof_4",
"HSub.hSub",
"_private.Init.Data.String.Lemmas.Pattern.String.ForwardSearcher.0.String.Slice.Pattern.Model.ForwardSliceSearcher.prefixFunctionRecurrence._unary._... |
CategoryTheory.ComonObj.comul | Mathlib.CategoryTheory.Monoidal.Comon_ | [
"CategoryTheory.CategoryStruct.toQuiver",
"Quiver.Hom",
"CategoryTheory.MonoidalCategory",
"CategoryTheory.ComonObj",
"CategoryTheory.MonoidalCategoryStruct.tensorObj",
"CategoryTheory.MonoidalCategory.toMonoidalCategoryStruct",
"CategoryTheory.Category.toCategoryStruct",
"CategoryTheory.Category"
] |
PointedCone.mem_closure | Mathlib.Analysis.Convex.Cone.Closure | [
"IsOrderedRing.toPosMulMono",
"IsOrderedRing.toZeroLEOneClass",
"IsOrderedRing",
"Nonneg.semiring",
"DistribMulAction.toDistribSMul",
"Iff.rfl",
"AddMonoid.toAddZeroClass",
"PartialOrder.toPreorder",
"NonUnitalNonAssocSemiring.toMulZeroClass",
"Preorder.toLE",
"Membership.mem",
"AddZeroClass.t... |
Continuous.fourier_inversion | Mathlib.Analysis.Fourier.Inversion | [
"InnerProductSpace.toNormedSpace",
"Real",
"Continuous",
"CompleteSpace",
"measureSpaceOfInnerProductSpace",
"NormedSpace",
"Real.instRCLike",
"NormedSpace.toModule",
"MeasureTheory.MeasureSpace.toMeasurableSpace",
"Complex.instNormedField",
"PseudoMetricSpace.toUniformSpace",
"MeasureTheory.I... |
SeparationQuotient.instRing._proof_12 | Mathlib.Topology.Algebra.SeparationQuotient.Basic | [
"NegZeroClass.toNeg",
"Ring.toNonAssocRing",
"SeparationQuotient.mk_neg",
"SubtractionMonoid.toSubNegZeroMonoid",
"SeparationQuotient.instNeg",
"SubNegZeroMonoid.toNegZeroClass",
"SubtractionCommMonoid.toSubtractionMonoid",
"NonAssocRing.toNonUnitalNonAssocRing",
"SeparationQuotient.instRing._proof_... |
Prod.instBornology._proof_1 | Mathlib.Topology.Bornology.Constructions | [
"Filter.coprod_mono",
"Bornology.le_cofinite",
"PartialOrder.toPreorder",
"Preorder.toLE",
"Filter.coprod_cofinite",
"Eq.rec",
"LE.le",
"Bornology.cobounded",
"Filter.cofinite",
"Prod",
"Filter.coprod",
"Eq",
"Bornology",
"Filter",
"Filter.instPartialOrder"
] |
_private.Mathlib.Combinatorics.SimpleGraph.Triangle.Removal.0.Mathlib.Meta.Positivity.evalTriangleRemovalBound.match_4 | Mathlib.Combinatorics.SimpleGraph.Triangle.Removal | [
"Mathlib.Meta.Positivity.Strictness",
"Lean.Expr.const",
"Nat.hasNotBit",
"Lean.Expr.sort",
"Lean.Level",
"List.cons",
"Lean.Literal.natVal",
"Qq.Quoted",
"Lean.Level.zero",
"Mathlib.Meta.Positivity.Strictness.positive",
"Qq.Quoted.unsafeMk",
"Lean.Name.mkStr2",
"Lean.Expr.app",
"_private.... |
Lean.Compiler.LCNF.instTraverseFVarArg | Lean.Compiler.LCNF.FVarUtil | [
"Lean.Compiler.LCNF.TraverseFVar",
"Lean.Compiler.LCNF.Arg",
"Lean.Compiler.LCNF.Purity",
"MonadLiftT",
"Lean.Compiler.LCNF.CompilerM",
"Lean.Compiler.LCNF.Arg.forFVarM",
"Monad",
"Lean.Compiler.LCNF.TraverseFVar.mk",
"Lean.Compiler.LCNF.Arg.mapFVarM"
] |
Nat.mem_divisors_self | Mathlib.NumberTheory.Divisors | [
"Iff.mpr",
"Dvd.dvd",
"Finset",
"Nat.mem_divisors",
"Nat.instMonoid",
"Membership.mem",
"Ne",
"instOfNatNat",
"Nat.divisors",
"And",
"Nat.instDvd",
"Finset.instSetLike",
"Nat",
"And.intro",
"dvd_rfl",
"OfNat.ofNat",
"SetLike.instMembership"
] |
CochainComplex.mappingCone.δ_descCochain._proof_2 | Mathlib.Algebra.Homology.HomotopyCategory.MappingCone | [
"Int",
"_private.Mathlib.Algebra.Homology.HomotopyCategory.MappingCone.0.CochainComplex.mappingCone.δ_descCochain._proof_1",
"instHAdd",
"instOfNat",
"HAdd.hAdd",
"Int.instAdd",
"OfNat.ofNat",
"Eq"
] |
AlgebraicGeometry.Scheme.Cover.Over | Mathlib.AlgebraicGeometry.Cover.Over | [
"CategoryTheory.MorphismProperty",
"AlgebraicGeometry.Scheme",
"AlgebraicGeometry.Scheme.Over",
"AlgebraicGeometry.Scheme.Cover.Over.mk",
"AlgebraicGeometry.Scheme.Cover",
"AlgebraicGeometry.Scheme.IsJointlySurjectivePreserving",
"CategoryTheory.MorphismProperty.IsStableUnderBaseChange",
"CategoryTheo... |
ValuativeRel.ValueGroupWithZero.exact | Mathlib.RingTheory.Valuation.ValuativeRel.Basic | [
"CommRing",
"NonUnitalCommRing.toNonUnitalNonAssocCommRing",
"HMul.hMul",
"CommRing.toNonUnitalCommRing",
"CommSemiring.toSemiring",
"Membership.mem",
"Subtype",
"NonUnitalNonAssocRing.toNonUnitalNonAssocSemiring",
"ValuativeRel.vle",
"Prod.mk",
"NonAssocSemiring.toMulZeroOneClass",
"MulZeroOn... |
Ordering.swap.eq_3 | Std.Data.DTreeMap.Internal.Model | [
"Ordering.gt",
"Ordering",
"Ordering.swap",
"Ordering.lt",
"Eq.refl",
"Eq"
] |
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