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zipfit
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leandojo_benchmark_4_corpus

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12
84
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4.45k
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listlengths
0
625
.lake/packages/lean4/src/lean/Lean/ParserCompiler/Attribute.lean
[ ".lake/packages/lean4/src/lean/Lean/Attributes.lean", ".lake/packages/lean4/src/lean/Lean/ToExpr.lean", ".lake/packages/lean4/src/lean/Lean/Compiler/InitAttr.lean" ]
[ { "full_name": "Lean.ParserCompiler.CombinatorAttribute", "code": "structure CombinatorAttribute where\n impl : AttributeImpl\n ext : SimplePersistentEnvExtension (Name Γ— Name) (NameMap Name)\n deriving Inhabited", "start": [ 14, 1 ], "end": [ 17, 21 ], "kind"...
.lake/packages/lean4/src/lean/Lean/Parser/StrInterpolation.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Basic.lean" ]
[ { "full_name": "Lean.Parser.isQuotableCharForStrInterpolant", "code": "def isQuotableCharForStrInterpolant (c : Char) : Bool :=\n c == '{' || isQuotableCharDefault c", "start": [ 10, 1 ], "end": [ 11, 38 ], "kind": "commanddeclaration" }, { "full_name": "...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Basic.lean
[ ".lake/packages/lean4/src/lean/Lean/KeyedDeclsAttribute.lean" ]
[ { "full_name": "Lean.PrettyPrinter.runForNodeKind", "code": "unsafe def runForNodeKind {Ξ±} (attr : KeyedDeclsAttribute Ξ±) (k : SyntaxNodeKind) (interp : ParserDescr β†’ CoreM Ξ±) : CoreM Ξ± := do\n match attr.getValues (← getEnv) k with\n | p::_ => pure p\n | _ =>\n let info ← getConstInfo k\n if info....
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Parenthesizer.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Parser/StrInterpolation.lean", ".lake/packages/lean4/src/lean/Lean/ParserCompiler/Attribute.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Extension.lean" ]
[ { "full_name": "Lean.PrettyPrinter.Parenthesizer.Context", "code": "structure Context where\n cat : Name := Name.anonymous", "start": [ 84, 1 ], "end": [ 86, 31 ], "kind": "commanddeclaration" }, { "full_name": "Lean.PrettyPrinter.Parenthesizer.State", ...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Formatter.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Basic.lean", ".lake/packages/lean4/src/lean/Lean/ParserCompiler/Attribute.lean", ".lake/packages/lean4/src/lean/Lean/KeyedDeclsAttribute.lean", ".lake/packages/lean4/src/lean/Lean/CoreM.lean", ".lake/packages/lean4/src/lean/Lean/Parser/StrInterpolation.lean"...
[ { "full_name": "Lean.PrettyPrinter.Formatter.Context", "code": "structure Context where\n options : Options\n table : Parser.TokenTable", "start": [ 27, 1 ], "end": [ 29, 30 ], "kind": "commanddeclaration" }, { "full_name": "Lean.PrettyPrinter.Formatte...
.lake/packages/lean4/src/lean/Lean/Meta/NatInstTesters.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.isInstOfNatNat", "code": "def isInstOfNatNat (e : Expr) : MetaM Bool := do\n let_expr instOfNatNat _ ← e | return false\n return true", "start": [ 14, 1 ], "end": [ 16, 14 ], "kind": "commanddeclaration" }, { "full_name": "Lean....
.lake/packages/lean4/src/lean/Lean/Parser/Extra.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Formatter.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Parenthesizer.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Extension.lean" ]
[ { "full_name": "Lean.Parser.optional", "code": "@[run_builtin_parser_attribute_hooks] def optional (p : Parser) : Parser :=\n optionalNoAntiquot (withAntiquotSpliceAndSuffix `optional p (symbol \"?\"))", "start": [ 25, 1 ], "end": [ 35, 76 ], "kind": "commanddecl...
.lake/packages/lean4/src/lean/Lean/Meta/GlobalInstances.lean
[ ".lake/packages/lean4/src/lean/Lean/ScopedEnvExtension.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.addGlobalInstance", "code": "def addGlobalInstance (declName : Name) (attrKind : AttributeKind) : MetaM Unit := do\n globalInstanceExtension.add declName attrKind", "start": [ 18, 1 ], "end": [ 19, 48 ], "kind": "commanddeclaration" },...
.lake/packages/lean4/src/lean/Lean/Meta/Offset.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/NatInstTesters.lean", ".lake/packages/lean4/src/lean/Lean/Meta/InferType.lean", ".lake/packages/lean4/src/lean/Lean/Data/LBool.lean" ]
[ { "full_name": "Lean.Meta.withInstantiatedMVars", "code": "private abbrev withInstantiatedMVars (e : Expr) (k : Expr β†’ OptionT MetaM Ξ±) : OptionT MetaM Ξ± := do\n let eNew ← instantiateMVars e\n if eNew.getAppFn.isMVar then\n failure\n else\n k eNew", "start": [ 13, 1 ], "end...
.lake/packages/lean4/src/lean/Lean/Meta/LitValues.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.getRawNatValue?", "code": "def getRawNatValue? (e : Expr) : Option Nat :=\n match e.consumeMData with\n | .lit (.natVal n) => some n\n | _ => none", "start": [ 22, 1 ], "end": [ 26, 14 ], "kind": "commanddeclaration" }, { "full...
.lake/packages/lean4/src/lean/Lean/Parser/Level.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Extra.lean" ]
[ { "full_name": "Lean.Parser.levelParser", "code": "@[inline] def levelParser (rbp : Nat := 0) : Parser :=\n categoryParser `level rbp", "start": [ 15, 1 ], "end": [ 16, 28 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Parser.Level.paren", "c...
.lake/packages/lean4/src/lean/Lean/Parser/Attr.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Extra.lean" ]
[ { "full_name": "Lean.Parser.priorityParser", "code": "@[inline] def priorityParser (rbp : Nat := 0) : Parser :=\n categoryParser `prio rbp", "start": [ 20, 1 ], "end": [ 21, 27 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Parser.attrParser", ...
.lake/packages/lean4/src/lean/Lean/Meta/GetUnfoldableConst.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/GlobalInstances.lean" ]
[ { "full_name": "Lean.Meta.canUnfoldDefault", "code": "private def canUnfoldDefault (cfg : Config) (info : ConstantInfo) : CoreM Bool := do\n match cfg.transparency with\n | .all => return true\n | .default => return !(← isIrreducible info.name)\n | m =>\n if (← isReducible info.name) then\n retu...
.lake/packages/lean4/src/lean/Lean/Meta/FunInfo.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/InferType.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.checkFunInfoCache", "code": "@[inline] private def checkFunInfoCache (fn : Expr) (maxArgs? : Option Nat) (k : MetaM FunInfo) : MetaM FunInfo := do\n let t ← getTransparency\n match (← get).cache.funInfo.find? ⟨t, fn, maxArgs?⟩ with\n | some finfo => pure finfo\n | none =>...
.lake/packages/lean4/src/lean/Lean/Meta/CtorRecognizer.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/LitValues.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Offset.lean" ]
[ { "full_name": "Lean.Meta.getConstructorVal?", "code": "private def getConstructorVal? (env : Environment) (ctorName : Name) : Option ConstructorVal :=\n match env.find? ctorName with\n | some (.ctorInfo v) => v\n | _ => none", "start": [ 12, 1 ], "end": [ 1...
.lake/packages/lean4/src/lean/Lean/Meta/Match/MatchPatternAttr.lean
[ ".lake/packages/lean4/src/lean/Lean/Attributes.lean" ]
[ { "full_name": "Lean.hasMatchPatternAttribute", "code": "@[export lean_has_match_pattern_attribute]\ndef hasMatchPatternAttribute (env : Environment) (n : Name) : Bool :=\n matchPatternAttr.hasTag env n", "start": [ 14, 1 ], "end": [ 16, 32 ], "kind": "commanddec...
.lake/packages/lean4/src/lean/Lean/Meta/Match/MatcherInfo.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.Match.DiscrInfo", "code": "structure DiscrInfo where\n \n hName? : Option Name := none\n deriving Inhabited", "start": [ 12, 1 ], "end": [ 15, 21 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.Match.MatcherInfo", ...
.lake/packages/lean4/src/lean/Lean/Util/Recognizers.lean
[ ".lake/packages/lean4/src/lean/Lean/Environment.lean" ]
[ { "full_name": "Lean.Expr.const?", "code": "@[inline] def const? (e : Expr) : Option (Name Γ— List Level) :=\n match e with\n | Expr.const n us => some (n, us)\n | _ => none", "start": [ 12, 1 ], "end": [ 15, 14 ], "kind": "commanddeclaration" }, { "full...
.lake/packages/lean4/src/lean/Lean/Structure.lean
[ ".lake/packages/lean4/src/lean/Lean/ProjFns.lean", ".lake/packages/lean4/src/lean/Lean/Environment.lean" ]
[ { "full_name": "Lean.StructureFieldInfo", "code": "structure StructureFieldInfo where\n fieldName : Name\n projFn : Name\n \n subobject? : Option Name\n binderInfo : BinderInfo\n autoParam? : Option Expr := none\n deriving Inhabited, Repr", "start": [ 14, 1 ], "end": [ ...
.lake/packages/lean4/src/lean/Lean/Parser/Term.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Attr.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Level.lean" ]
[ { "full_name": "Lean.Parser.Command.commentBody", "code": "def commentBody : Parser :=\n{ fn := rawFn (finishCommentBlock (pushMissingOnError := true) 1) (trailingWs := true) }", "start": [ 14, 1 ], "end": [ 15, 89 ], "kind": "commanddeclaration" }, { "ful...
.lake/packages/lean4/src/lean/Lean/Util/CollectMVars.lean
[ ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.CollectMVars.State", "code": "structure State where\n visitedExpr : ExprSet := {}\n result : Array MVarId := #[]", "start": [ 13, 1 ], "end": [ 15, 37 ], "kind": "commanddeclaration" }, { "full_name": "Lean.CollectMVars.V...
.lake/packages/lean4/src/lean/Lean/Meta/Transform.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.TransformStep", "code": "inductive TransformStep where\n \n | done (e : Expr)\n \n | visit (e : Expr)\n \n | continue (e? : Option Expr := none)\n deriving Inhabited, Repr", "start": [ 11, 1 ], "end": [ 24, 27 ], "kind": "commanddeclara...
.lake/packages/lean4/src/lean/Lean/Meta/WHNF.lean
[ ".lake/packages/lean4/src/lean/Lean/Structure.lean", ".lake/packages/lean4/src/lean/Lean/Util/Recognizers.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Match/MatcherInfo.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Match/MatchPatternAttr.lean", ".lake/packages/lean4/src/lean/Lean/Meta/CtorRecognizer.le...
[ { "full_name": "Lean.Meta.getStructuralRecArgPos?", "code": "@[extern \"lean_get_structural_rec_arg_pos\"]\nopaque getStructuralRecArgPos? (declName : Name) : CoreM (Option Nat)", "start": [ 22, 1 ], "end": [ 28, 70 ], "kind": "commanddeclaration" }, { "fu...
.lake/packages/lean4/src/lean/Lean/Meta/DiscrTreeTypes.lean
[ ".lake/packages/lean4/src/lean/Lean/ToExpr.lean", ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.Meta.DiscrTree.Key", "code": "inductive Key where\n | const : Name β†’ Nat β†’ Key\n | fvar : FVarId β†’ Nat β†’ Key\n | lit : Literal β†’ Key\n | star : Key\n | other : Key\n | arrow : Key\n | proj : Name β†’ Nat β†’ Nat β†’ Key\n deriving Inhabited, BEq, Repr", "start": [ 15, ...
.lake/packages/lean4/src/lean/Lean/Parser/Do.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Term.lean" ]
[ { "full_name": "Lean.Parser.doElemParser", "code": "@[inline] def doElemParser (rbp : Nat := 0) : Parser :=\n categoryParser `doElem rbp", "start": [ 15, 1 ], "end": [ 16, 29 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Parser.Term.leftArrow", ...
.lake/packages/lean4/src/lean/Lean/Meta/CollectMVars.lean
[ ".lake/packages/lean4/src/lean/Lean/Util/CollectMVars.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.collectMVars", "code": "partial def collectMVars (e : Expr) : StateRefT CollectMVars.State MetaM Unit := do\n let e ← instantiateMVars e\n let s ← get\n let resultSavedSize := s.result.size\n let s := e.collectMVars s\n set s\n for mvarId in s.result[resultSavedSize:] do\n ...
.lake/packages/lean4/src/lean/Lean/Meta/DiscrTree.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/DiscrTreeTypes.lean", ".lake/packages/lean4/src/lean/Lean/Meta/WHNF.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Transform.lean" ]
[ { "full_name": "Lean.Meta.DiscrTree.Key.ctorIdx", "code": "def Key.ctorIdx : Key β†’ Nat\n | .star => 0\n | .other => 1\n | .lit .. => 2\n | .fvar .. => 3\n | .const .. => 4\n | .arrow => 5\n | .proj .. => 6", "start": [ 52, 1 ], "end": [ 59, 19 ], ...
.lake/packages/lean4/src/lean/Lean/Parser/Command.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Term.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Do.lean" ]
[ { "full_name": "Lean.Parser.Term.quot", "code": "@[builtin_term_parser] def Term.quot := leading_parser\n \"`(\" >> withoutPosition (incQuotDepth termParser) >> \")\"", "start": [ 13, 1 ], "end": [ 15, 59 ], "kind": "commanddeclaration" }, { "full_name": ...
.lake/packages/lean4/src/lean/Lean/Meta/Check.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/InferType.lean" ]
[ { "full_name": "Lean.Meta.ensureType", "code": "private def ensureType (e : Expr) : MetaM Unit := do\n discard <| getLevel e", "start": [ 16, 1 ], "end": [ 17, 24 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.throwLetTypeMismatchMessage", ...
.lake/packages/lean4/src/lean/Init/Data/Array/InsertionSort.lean
[ ".lake/packages/lean4/src/lean/Init/Data/Array/Basic.lean" ]
[ { "full_name": "Array.insertionSort", "code": "@[inline] def Array.insertionSort (a : Array Ξ±) (lt : Ξ± β†’ Ξ± β†’ Bool) : Array Ξ± :=\n traverse a 0 a.size\nwhere\n @[specialize] traverse (a : Array Ξ±) (i : Nat) (fuel : Nat) : Array Ξ± :=\n match fuel with\n | 0 => a\n | fuel+1 =>\n if h : i <...
.lake/packages/lean4/src/lean/Lean/Meta/AbstractMVars.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.AbstractMVars.State", "code": "structure State where\n ngen : NameGenerator\n lctx : LocalContext\n mctx : MetavarContext\n nextParamIdx : Nat := 0\n paramNames : Array Name := #[]\n fvars : Array Expr := #[]\n lmap : H...
.lake/packages/lean4/src/lean/Lean/Meta/Instances.lean
[ ".lake/packages/lean4/src/lean/Lean/ScopedEnvExtension.lean", ".lake/packages/lean4/src/lean/Lean/Meta/DiscrTree.lean", ".lake/packages/lean4/src/lean/Lean/Meta/GlobalInstances.lean", ".lake/packages/lean4/src/lean/Lean/Meta/CollectMVars.lean" ]
[ { "full_name": "Lean.Meta.InstanceKey", "code": "abbrev InstanceKey := DiscrTree.Key", "start": [ 41, 1 ], "end": [ 41, 36 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.InstanceEntry", "code": "structure InstanceEntry where\n keys ...
.lake/packages/lean4/src/lean/Lean/Elab/Util.lean
[ ".lake/packages/lean4/src/lean/Lean/KeyedDeclsAttribute.lean", ".lake/packages/lean4/src/lean/Lean/Elab/Exception.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Command.lean" ]
[ { "full_name": "Lean.Syntax.prettyPrint", "code": "def Syntax.prettyPrint (stx : Syntax) : Format :=\n match stx.unsetTrailing.reprint with | some str => format str.toFormat\n | none => format stx", "start": [ 13, 1 ], "end": [ 16, 27 ], "kind": "commanddecl...
.lake/packages/lean4/src/lean/Lean/Meta/DecLevel.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/InferType.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.DecLevelContext", "code": "structure DecLevelContext where\n \n canAssignMVars : Bool := true", "start": [ 12, 1 ], "end": [ 17, 32 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.decAux?", "code": "private part...
.lake/packages/lean4/src/lean/Lean/Meta/SynthInstance.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Instances.lean", ".lake/packages/lean4/src/lean/Lean/Meta/AbstractMVars.lean", ".lake/packages/lean4/src/lean/Init/Data/Array/InsertionSort.lean", ".lake/packages/lean4/src/lean/Lean/Util/Profile.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/p...
[ { "full_name": "Lean.Meta.SynthInstance.getMaxHeartbeats", "code": "def getMaxHeartbeats (opts : Options) : Nat :=\n synthInstance.maxHeartbeats.get opts * 1000", "start": [ 36, 1 ], "end": [ 37, 46 ], "kind": "commanddeclaration" }, { "full_name": "Lean....
.lake/packages/lean4/src/lean/Init/System/Promise.lean
[ ".lake/packages/lean4/src/lean/Init/System/IO.lean" ]
[ { "full_name": "IO.PromisePointed", "code": "private opaque PromisePointed : NonemptyType.{0}", "start": [ 13, 1 ], "end": [ 13, 49 ], "kind": "commanddeclaration" }, { "full_name": "IO.PromiseImpl", "code": "private structure PromiseImpl (Ξ± : Type) : ...
.lake/packages/lean4/src/lean/Lean/Linter/Basic.lean
[ ".lake/packages/lean4/src/lean/Lean/Data/Options.lean" ]
[ { "full_name": "Lean.Linter.getLinterAll", "code": "def getLinterAll (o : Options) (defValue := linter.all.defValue) : Bool := o.get linter.all.name defValue", "start": [ 16, 1 ], "end": [ 16, 106 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Lin...
.lake/packages/lean4/src/lean/Lean/Elab/Attributes.lean
[ ".lake/packages/lean4/src/lean/Lean/Elab/Util.lean" ]
[ { "full_name": "Lean.Elab.Attribute", "code": "structure Attribute where\n kind : AttributeKind := AttributeKind.global\n name : Name\n stx : Syntax := Syntax.missing\n deriving Inhabited", "start": [ 10, 1 ], "end": [ 14, 21 ], "kind": "commanddeclaration...
.lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean
[ ".lake/packages/lean4/src/lean/Lean/Structure.lean", ".lake/packages/lean4/src/lean/Lean/Util/Recognizers.lean", ".lake/packages/lean4/src/lean/Lean/Meta/SynthInstance.lean", ".lake/packages/lean4/src/lean/Lean/Meta/DecLevel.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Check.lean" ]
[ { "full_name": "Lean.Meta.mkId", "code": "def mkId (e : Expr) : MetaM Expr := do\n let type ← inferType e\n let u ← getLevel type\n return mkApp2 (mkConst ``id [u]) type e", "start": [ 15, 1 ], "end": [ 19, 42 ], "kind": "commanddeclaration" }, { "fu...
.lake/packages/lean4/src/lean/Lean/Elab/AutoBound.lean
[ ".lake/packages/lean4/src/lean/Lean/Data/Options.lean" ]
[ { "full_name": "Lean.Elab.isValidAutoBoundSuffix", "code": "private def isValidAutoBoundSuffix (s : String) : Bool :=\n s.toSubstring.drop 1 |>.all fun c => c.isDigit || isSubScriptAlnum c || c == '_' || c == '\\''", "start": [ 24, 1 ], "end": [ 25, 96 ], "kind":...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Attributes.lean
[ ".lake/packages/lean4/src/lean/Lean/Attributes.lean" ]
[ { "full_name": "Lean.hasPPUsingAnonymousConstructorAttribute", "code": "def hasPPUsingAnonymousConstructorAttribute (env : Environment) (declName : Name) : Bool :=\n ppUsingAnonymousConstructorAttr.hasTag env declName", "start": [ 23, 1 ], "end": [ 27, 54 ], "kin...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Options.lean
[ ".lake/packages/lean4/src/lean/Lean/Data/Options.lean" ]
[ { "full_name": "Lean.getPPMaxSteps", "code": "def getPPMaxSteps (o : Options) : Nat := o.get pp.maxSteps.name pp.maxSteps.defValue", "start": [ 223, 1 ], "end": [ 223, 85 ], "kind": "commanddeclaration" }, { "full_name": "Lean.getPPAll", "code": "def g...
.lake/packages/lean4/src/lean/Lean/SubExpr.lean
[ ".lake/packages/lean4/src/lean/Lean/Data/Json.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Data/RBMap.lean" ]
[ { "full_name": "Lean.SubExpr.Pos", "code": "def SubExpr.Pos := Nat", "start": [ 13, 1 ], "end": [ 22, 23 ], "kind": "commanddeclaration" }, { "full_name": "Lean.SubExpr.Pos.maxChildren", "code": "def maxChildren := 4", "start": [ 26, 1 ...
.lake/packages/lean4/src/lean/Lean/Parser/Tactic/Doc.lean
[ ".lake/packages/lean4/src/lean/Lean/Elab/InfoTree/Main.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Attr.lean", ".lake/packages/lean4/src/lean/Lean/DocString/Extension.lean", ".lake/packages/lean4/src/lean/Lean/Attributes.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Extension.lean" ]
[ { "full_name": "Lean.Parser.Tactic.Doc.isTactic", "code": "def isTactic (env : Environment) (kind : Name) : Bool := Id.run do\n let some tactics := (Lean.Parser.parserExtension.getState env).categories.find? `tactic\n | return false\n for (tac, _) in tactics.kinds do\n if kind == tac then return tru...
.lake/packages/lean4/src/lean/Lean/Language/Basic.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Types.lean", ".lake/packages/lean4/src/lean/Lean/Message.lean", ".lake/packages/lean4/src/lean/Init/System/Promise.lean" ]
[ { "full_name": "Lean.Language.Snapshot.Diagnostics", "code": "structure Snapshot.Diagnostics where\n private mk ::\n \n msgLog : MessageLog\n \n interactiveDiagsRef? : Option (IO.Ref (Option Dynamic))\nderiving Inhabited", "start": [ 20, 1 ], "end": [ 37, 19 ], ...
.lake/packages/lean4/src/lean/Lean/Linter/Deprecated.lean
[ ".lake/packages/lean4/src/lean/Lean/Attributes.lean", ".lake/packages/lean4/src/lean/Lean/Linter/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Elab/InfoTree/Main.lean" ]
[ { "full_name": "Lean.Linter.DeprecationEntry", "code": "structure DeprecationEntry where\n newName? : Option Name := none\n text? : Option String := none\n since? : Option String := none\n deriving Inhabited", "start": [ 18, 1 ], "end": [ 22, 21 ], "kind": "co...
.lake/packages/lean4/src/lean/Lean/Elab/PreDefinition/WF/TerminationHint.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Term.lean" ]
[ { "full_name": "Lean.Elab.WF.TerminationBy", "code": "structure TerminationBy where\n ref : Syntax\n vars : TSyntaxArray [`ident, ``Lean.Parser.Term.hole]\n body : Term\n \n synthetic : Bool := false\n deriving Inhabited", "start": [ 15, 1 ], "end": [ 27, ...
.lake/packages/lean4/src/lean/Lean/Elab/DeclModifiers.lean
[ ".lake/packages/lean4/src/lean/Lean/Elab/Attributes.lean", ".lake/packages/lean4/src/lean/Lean/Structure.lean" ]
[ { "full_name": "Lean.Elab.checkNotAlreadyDeclared", "code": "def checkNotAlreadyDeclared {m} [Monad m] [MonadEnv m] [MonadError m] [MonadInfoTree m] (declName : Name) : m Unit := do\n let env ← getEnv\n let addInfo declName := do\n pushInfoLeaf <| .ofTermInfo {\n elaborator := .anonymous, lctx := ...
.lake/packages/lean4/src/lean/Lean/Meta/Coe.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/SynthInstance.lean", ".lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Transform.lean" ]
[ { "full_name": "Lean.Meta.isCoeDecl", "code": "def isCoeDecl (env : Environment) (declName : Name) : Bool :=\n coeDeclAttr.hasTag env declName", "start": [ 16, 1 ], "end": [ 21, 34 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.expandCoe", ...
.lake/packages/lean4/src/lean/Lean/Elab/Level.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Level.lean", ".lake/packages/lean4/src/lean/Lean/Elab/AutoBound.lean", ".lake/packages/lean4/src/lean/Lean/Elab/Exception.lean", ".lake/packages/lean4/src/lean/Lean/Log.lean" ]
[ { "full_name": "Lean.Elab.Level.Context", "code": "structure Context where\n options : Options\n ref : Syntax\n autoBoundImplicit : Bool", "start": [ 14, 1 ], "end": [ 17, 27 ], "kind": "commanddeclaration" }, { "full_name": "Lea...
.lake/packages/lean4/src/lean/Lean/Elab/Config.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Elab.Term.setElabConfig", "code": "def setElabConfig (cfg : Meta.Config) : Meta.Config :=\n { cfg with foApprox := true, ctxApprox := true, constApprox := false, quasiPatternApprox := false }", "start": [ 11, 1 ], "end": [ 58, 102 ], "kind": ...
.lake/packages/lean4/src/lean/Lean/Util/FindLevelMVar.lean
[ ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.FindLevelMVar.Visitor", "code": "abbrev Visitor := Option LMVarId β†’ Option LMVarId", "start": [ 13, 1 ], "end": [ 13, 50 ], "kind": "commanddeclaration" }, { "full_name": "Lean.FindLevelMVar.visit", "code": "partial def visit (p : ...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/FieldNotation.lean
[ ".lake/packages/lean4/src/lean/Lean/Structure.lean", ".lake/packages/lean4/src/lean/Lean/Meta/InferType.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Options.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Attributes.lean" ]
[ { "full_name": "Lean.PrettyPrinter.Delaborator.projInfo", "code": "private def projInfo (c : Name) : MetaM (Name Γ— Nat Γ— Bool) := do\n let .str _ field := c | failure\n let field := Name.mkSimple field\n let env ← getEnv\n let some info := env.getProjectionFnInfo? c | failure\n guard <| !info.fromClass...
.lake/packages/lean4/src/lean/Lean/Util/CollectLevelParams.lean
[ ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.CollectLevelParams.State", "code": "structure State where\n visitedLevel : LevelSet := {}\n visitedExpr : ExprSet := {}\n params : Array Name := #[]", "start": [ 13, 1 ], "end": [ 16, 35 ], "kind": "commanddeclaration" }, { ...
.lake/packages/lean4/src/lean/Lean/Util/ReplaceLevel.lean
[ ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.Level.replace", "code": "partial def replace (f? : Level β†’ Option Level) (u : Level) : Level :=\n match f? u with\n | some v => v\n | none => match u with\n | max v₁ vβ‚‚ => mkLevelMax' (replace f? v₁) (replace f? vβ‚‚)\n | imax v₁ vβ‚‚ => mkLevelIMax' (replace f? v₁) (replace f? ...
.lake/packages/lean4/src/lean/Lean/Util/FindMVar.lean
[ ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.FindMVar.Visitor", "code": "abbrev Visitor := Option MVarId β†’ Option MVarId", "start": [ 13, 1 ], "end": [ 13, 48 ], "kind": "commanddeclaration" }, { "full_name": "Lean.FindMVar.visit", "code": "partial def visit (p : MVarId β†’ Boo...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/SubExpr.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Data/RBMap.lean", ".lake/packages/lean4/src/lean/Lean/SubExpr.lean" ]
[ { "full_name": "Lean.PrettyPrinter.Delaborator.OptionsPerPos", "code": "abbrev OptionsPerPos := RBMap SubExpr.Pos Options compare", "start": [ 19, 1 ], "end": [ 19, 58 ], "kind": "commanddeclaration" }, { "full_name": "Lean.PrettyPrinter.Delaborator.SubExp...
.lake/packages/lean4/src/lean/Lean/Parser/Module.lean
[ ".lake/packages/lean4/src/lean/Lean/Message.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Command.lean" ]
[ { "full_name": "Lean.Parser.Module.prelude", "code": "def Β«preludeΒ» := leading_parser \"prelude\"", "start": [ 14, 1 ], "end": [ 14, 43 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Parser.Module.import", "code": "def Β«importΒ» := leading_p...
.lake/packages/lean4/src/lean/Lean/Parser/Tactic.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Term.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Tactic/Doc.lean" ]
[ { "full_name": "Lean.Parser.Tactic.unknown", "code": "@[builtin_tactic_parser] def Β«unknownΒ» := leading_parser\n withPosition (ident >> errorAtSavedPos \"unknown tactic\" true)", "start": [ 24, 1 ], "end": [ 25, 64 ], "kind": "commanddeclaration" }, { ...
.lake/packages/lean4/src/lean/Lean/Parser/Syntax.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Command.lean" ]
[ { "full_name": "Lean.Parser.precedenceParser", "code": "@[inline] def precedenceParser (rbp : Nat := 0) : Parser :=\n categoryParser `prec rbp", "start": [ 20, 1 ], "end": [ 21, 27 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Parser.syntaxParse...
.lake/packages/lean4/src/lean/Lean/Elab/Term.lean
[ ".lake/packages/lean4/src/lean/Lean/Elab/Config.lean", ".lake/packages/lean4/src/lean/Lean/ReservedNameAction.lean", ".lake/packages/lean4/src/lean/Lean/Elab/Level.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Coe.lean", ".lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean", ".lake/packages/lean4/sr...
[ { "full_name": "Lean.Elab.Term.SavedContext", "code": "structure SavedContext where\n declName? : Option Name\n options : Options\n openDecls : List OpenDecl\n macroStack : MacroStack\n errToSorry : Bool\n levelNames : List Name", "start": [ 22, 1 ], "end": [ 29, ...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/TopDownAnalyze.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/SubExpr.lean", ".lake/packages/lean4/src/lean/Lean/Elab/Config.lean", ".lake/packages/lean4/src/lean/Lean/Util/FindMVar.lean", ".lake/packages/lean4/src/lean/Lean/Util/ReplaceLevel.lean", ".lake/packages/lean4/src/lean/Lean/Util/CollectLevelParam...
[ { "full_name": "Lean.getPPAnalyze", "code": "def getPPAnalyze (o : Options) : Bool := o.get pp.analyze.name pp.analyze.defValue", "start": [ 108, 1 ], "end": [ 108, 110 ], "kind": "commanddeclaration" }, { "full_name": "Lean.getP...
.lake/packages/lean4/src/lean/Lean/Util/ForEachExprWhere.lean
[ ".lake/packages/lean4/src/lean/Lean/Util/MonadCache.lean", ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.ForEachExprWhere.cacheSize", "code": "abbrev cacheSize : USize := 8192 - 1", "start": [ 20, 1 ], "end": [ 20, 37 ], "kind": "commanddeclaration" }, { "full_name": "Lean.ForEachExprWhere.State", "code": "structure State where\n \n ...
.lake/packages/lean4/src/lean/Lean/Parser.lean
[ ".lake/packages/lean4/src/lean/Lean/Parser/Level.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Term.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Tactic/Doc.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Syntax.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Tactic.lean", ".lake/packages/lean...
[ { "full_name": "Lean.PrettyPrinter.Parenthesizer.mkAntiquot.parenthesizer", "code": "@[export lean_mk_antiquot_parenthesizer]\ndef mkAntiquot.parenthesizer (name : String) (kind : SyntaxNodeKind) (anonymous := true) (isPseudoKind := true) : Parenthesizer :=\n Parser.mkAntiquot.parenthesizer name kind anony...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Basic.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/SubExpr.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/TopDownAnalyze.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Options.lean", ".lake/packages/lean4/src/lean/Lean/Elab/Term.lean" ]
[ { "full_name": "Lean.PrettyPrinter.Delaborator.Context", "code": "structure Context where\n optionsPerPos : OptionsPerPos\n currNamespace : Name\n openDecls : List OpenDecl\n inPattern : Bool := false subExpr : SubExpr\n \n depth : Nat := 0", "start": [ 38, ...
.lake/packages/lean4/src/lean/Lean/Meta/CoeAttr.lean
[ ".lake/packages/lean4/src/lean/Lean/Attributes.lean", ".lake/packages/lean4/src/lean/Lean/ScopedEnvExtension.lean", ".lake/packages/lean4/src/lean/Lean/Meta/FunInfo.lean" ]
[ { "full_name": "Lean.Meta.CoeFnType", "code": "inductive CoeFnType\n \n | coe\n \n | coeFun\n \n | coeSort\n deriving Inhabited, Repr, DecidableEq", "start": [ 26, 1 ], "end": [ 34, 40 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.Coe...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Util.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/PPGoal.lean", ".lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Util/ForEachExprWhere.lean" ]
[ { "full_name": "Lean.MVarId.getTag", "code": "def _root_.Lean.MVarId.getTag (mvarId : MVarId) : MetaM Name :=\n return (← mvarId.getDecl).userName", "start": [ 14, 1 ], "end": [ 16, 37 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.getMVarTa...
.lake/packages/lean4/src/lean/Init/Data/Array/Mem.lean
[ ".lake/packages/lean4/src/lean/Init/Data/Nat/Linear.lean", ".lake/packages/lean4/src/lean/Init/Data/Array/Basic.lean", ".lake/packages/lean4/src/lean/Init/Data/List/BasicAux.lean" ]
[ { "full_name": "Array.Mem", "code": "structure Mem (a : α) (as : Array α) : Prop where\n val : a ∈ as.data", "start": [ 13, 1 ], "end": [ 17, 20 ], "kind": "commanddeclaration" }, { "full_name": "Array.sizeOf_lt_of_mem", "code": "theorem sizeOf_lt_of_...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Builtins.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/SubExpr.lean", ".lake/packages/lean4/src/lean/Lean/Meta/CoeAttr.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Parser.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/...
[ { "full_name": "Lean.PrettyPrinter.Delaborator.withTypeAscription", "code": "def withTypeAscription (d : Delab) (cond : Bool := true) : DelabM Term := do\n let stx ← d\n if cond then\n let stx ← annotateCurPos stx\n let typeStx ← withType delab\n `(($stx : $typeStx))\n else\n return stx", ...
.lake/packages/lean4/src/lean/Lean/Meta/ReduceEval.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Offset.lean" ]
[ { "full_name": "Lean.Meta.ReduceEval", "code": "class ReduceEval (Ξ± : Type) where\n reduceEval : Expr β†’ MetaM Ξ±", "start": [ 13, 1 ], "end": [ 14, 30 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.reduceEval", "code": "def reduceEval [Re...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Clear.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/Util.lean" ]
[ { "full_name": "Lean.MVarId.clear", "code": "def _root_.Lean.MVarId.clear (mvarId : MVarId) (fvarId : FVarId) : MetaM MVarId :=\n mvarId.withContext do\n mvarId.checkNotAssigned `clear\n let lctx ← getLCtx\n unless lctx.contains fvarId do\n throwTacticEx `clear mvarId m!\"unknown variable '{m...
.lake/packages/lean4/src/lean/Init/Data/Array/DecidableEq.lean
[ ".lake/packages/lean4/src/lean/Init/Data/Array/Basic.lean", ".lake/packages/lean4/src/lean/Init/ByCases.lean" ]
[ { "full_name": "Array.eq_of_isEqvAux", "code": "theorem eq_of_isEqvAux [DecidableEq Ξ±] (a b : Array Ξ±) (hsz : a.size = b.size) (i : Nat) (hi : i ≀ a.size) (heqv : Array.isEqvAux a b hsz (fun x y => x = y) i) (j : Nat) (low : i ≀ j) (high : j < a.size) : a[j] = b[j]'(hsz β–Έ high)", "start": [ 12, ...
.lake/packages/lean4/src/lean/Init/Data/Array/Lemmas.lean
[ ".lake/packages/lean4/src/lean/Init/TacticsExtra.lean", ".lake/packages/lean4/src/lean/Init/Data/Fin/Basic.lean", ".lake/packages/lean4/src/lean/Init/Data/Nat/MinMax.lean", ".lake/packages/lean4/src/lean/Init/Data/List/Lemmas.lean", ".lake/packages/lean4/src/lean/Init/Data/Array/Mem.lean", ".lake/packages...
[ { "full_name": "Array.singleton_def", "code": "@[simp] theorem singleton_def (v : Ξ±) : singleton v = #[v]", "start": [ 24, 1 ], "end": [ 24, 66 ], "kind": "commanddeclaration" }, { "full_name": "Array.toArray_data", "code": "@[simp] theorem toArray_dat...
.lake/packages/lean4/src/lean/Lean/Data/JsonRpc.lean
[ ".lake/packages/lean4/src/lean/Init/System/IO.lean", ".lake/packages/lean4/src/lean/Lean/Data/Json.lean", ".lake/packages/lean4/src/lean/Lean/Data/RBTree.lean" ]
[ { "full_name": "Lean.JsonRpc.RequestID", "code": "inductive RequestID where\n | str (s : String)\n | num (n : JsonNumber)\n | null\n deriving Inhabited, BEq, Ord", "start": [ 19, 1 ], "end": [ 25, 31 ], "kind": "commanddeclaration" }, { "full_name": "L...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/SubExpr.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Basic.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/TopDownAnalyze.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delaborator/Builtins.lea...
[]
.lake/packages/lean4/src/lean/Lean/ParserCompiler.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/WHNF.lean", ".lake/packages/lean4/src/lean/Lean/ParserCompiler/Attribute.lean", ".lake/packages/lean4/src/lean/Lean/KeyedDeclsAttribute.lean", ".lake/packages/lean4/src/lean/Lean/Meta/ReduceEval.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Extension.lean" ]
[ { "full_name": "Lean.ParserCompiler.Context", "code": "structure Context (Ξ± : Type) where\n varName : Name\n categoryAttr : KeyedDeclsAttribute Ξ±\n combinatorAttr : CombinatorAttribute", "start": [ 20, 1 ], "end": [ 23, 39 ], "kind": "commanddeclaration" }, ...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/FVarSubst.lean
[ ".lake/packages/lean4/src/lean/Lean/LocalContext.lean", ".lake/packages/lean4/src/lean/Lean/Data/AssocList.lean", ".lake/packages/lean4/src/lean/Lean/Util/ReplaceExpr.lean", ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.Meta.FVarSubst", "code": "structure FVarSubst where\n map : AssocList FVarId Expr := {}\n deriving Inhabited", "start": [ 13, 1 ], "end": [ 21, 21 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.FVarSubst.empty", "co...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Intro.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/Util.lean" ]
[ { "full_name": "Lean.Meta.introNImp", "code": "@[inline] private partial def introNImp {Οƒ} (mvarId : MVarId) (n : Nat) (mkName : LocalContext β†’ Name β†’ Bool β†’ Οƒ β†’ MetaM (Name Γ— Οƒ)) (s : Οƒ)\n : MetaM (Array FVarId Γ— MVarId) := mvarId.withContext do\n mvarId.checkNotAssigned `introN\n let mvarType ← mvarI...
.lake/packages/lean4/src/lean/Lean/Util/ForEachExpr.lean
[ ".lake/packages/lean4/src/lean/Lean/Util/MonadCache.lean", ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.ForEachExpr.visit", "code": "def visit (g : Expr β†’ m Bool) (e : Expr) : MonadCacheT Expr Unit m Unit :=\n checkCache e fun _ => do\n if (← g e) then\n match e with\n | Expr.forallE _ d b _ => do visit g d; visit g b\n | Expr.lam _ d b _ => do visit g d; visit ...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Revert.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/Clear.lean" ]
[ { "full_name": "Lean.MVarId.revert", "code": "def _root_.Lean.MVarId.revert (mvarId : MVarId) (fvarIds : Array FVarId) (preserveOrder : Bool := false)\n (clearAuxDeclsInsteadOfRevert := false) : MetaM (Array FVarId Γ— MVarId) := do\n if fvarIds.isEmpty then\n pure (#[], mvarId)\n else mvarId.withCont...
.lake/packages/lean4/src/lean/Init/Data/Array.lean
[ ".lake/packages/lean4/src/lean/Init/Data/Array/InsertionSort.lean", ".lake/packages/lean4/src/lean/Init/Data/Array/BasicAux.lean", ".lake/packages/lean4/src/lean/Init/Data/Array/Basic.lean", ".lake/packages/lean4/src/lean/Init/Data/Array/BinSearch.lean", ".lake/packages/lean4/src/lean/Init/Data/Array/QSort....
[]
.lake/packages/lean4/src/lean/Lean/Data/Lsp/Basic.lean
[ ".lake/packages/lean4/src/lean/Lean/Data/Json.lean", ".lake/packages/lean4/src/lean/Lean/Data/JsonRpc.lean" ]
[ { "full_name": "Lean.Lsp.CancelParams", "code": "structure CancelParams where\n id : JsonRpc.RequestID\n deriving Inhabited, BEq, ToJson, FromJson", "start": [ 22, 1 ], "end": [ 24, 44 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Lsp.DocumentU...
.lake/packages/lean4/src/lean/Lean/HeadIndex.lean
[ ".lake/packages/lean4/src/lean/Lean/Expr.lean" ]
[ { "full_name": "Lean.HeadIndex", "code": "inductive HeadIndex where\n | fvar (fvarId : FVarId)\n | mvar (mvarId : MVarId)\n | const (constName : Name)\n | proj (structName : Name) (idx : Nat)\n | lit (litVal : Literal)\n | sort\n | lam\n | forallE\n deriving Inhabited, BEq, Repr", "start": [ ...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/AuxLemma.lean
[ ".lake/packages/lean4/src/lean/Lean/AddDecl.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Meta.AuxLemmas", "code": "structure AuxLemmas where\n idx : Nat := 1\n lemmas : PHashMap Expr (Name Γ— List Name) := {}\n deriving Inhabited", "start": [ 12, 1 ], "end": [ 15, 21 ], "kind": "commanddeclaration" }, { "full_name": "...
.lake/packages/lean4/src/lean/Lean/DocString.lean
[ ".lake/packages/lean4/src/lean/Lean/DocString/Extension.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Tactic/Doc.lean" ]
[ { "full_name": "Lean.findDocString?", "code": "def findDocString? (env : Environment) (declName : Name) (includeBuiltin := true) : IO (Option String) := do\n let declName := alternativeOfTactic env declName |>.getD declName\n let exts := getTacticExtensionString env declName\n return (← findSimpleDocStri...
.lake/packages/lean4/src/lean/Lean/PrettyPrinter.lean
[ ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Formatter.lean", ".lake/packages/lean4/src/lean/Lean/ParserCompiler.lean", ".lake/packages/lean4/src/lean/Lean/Parser/Module.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Parenthesizer.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter/Delab...
[ { "full_name": "Lean.PPContext.runCoreM", "code": "def PPContext.runCoreM {Ξ± : Type} (ppCtx : PPContext) (x : CoreM Ξ±) : IO Ξ± :=\n Prod.fst <$> x.toIO { options := ppCtx.opts, currNamespace := ppCtx.currNamespace\n openDecls := ppCtx.openDecls\n fileName := \"<...
.lake/packages/lean4/src/lean/Lean/Meta/Eqns.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Match/MatcherInfo.lean", ".lake/packages/lean4/src/lean/Lean/ReservedNameAction.lean", ".lake/packages/lean4/src/lean/Lean/AddDecl.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean" ]
[ { "full_name": "Lean.Meta.markAsRecursive", "code": "def markAsRecursive (declName : Name) : CoreM Unit :=\n modifyEnv (recExt.tag Β· declName)", "start": [ 21, 1 ], "end": [ 25, 36 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta.isRecursiveDe...
.lake/packages/lean4/src/lean/Lean/Meta/MatchUtil.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Util/Recognizers.lean", ".lake/packages/lean4/src/lean/Lean/Meta/CtorRecognizer.lean" ]
[ { "full_name": "Lean.Meta.testHelper", "code": "@[inline] def testHelper (e : Expr) (p : Expr β†’ MetaM Bool) : MetaM Bool := do\n if (← p e) then\n return true\n else\n p (← whnf e)", "start": [ 13, 1 ], "end": [ 17, 17 ], "kind": "commanddeclaration" }, ...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Assert.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/Revert.lean", ".lake/packages/lean4/src/lean/Lean/Util/ForEachExpr.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/Intro.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/FVarSubst.lean" ]
[ { "full_name": "Lean.MVarId.assert", "code": "def _root_.Lean.MVarId.assert (mvarId : MVarId) (name : Name) (type : Expr) (val : Expr) : MetaM MVarId :=\n mvarId.withContext do\n mvarId.checkNotAssigned `assert\n let tag ← mvarId.getTag\n let target ← mvarId.getType\n let newType := Lean.mkF...
.lake/packages/lean4/src/lean/Lean/Util/OccursCheck.lean
[ ".lake/packages/lean4/src/lean/Lean/MetavarContext.lean" ]
[ { "full_name": "Lean.occursCheck", "code": "partial def occursCheck [Monad m] [MonadMCtx m] (mvarId : MVarId) (e : Expr) : m Bool := do\n if !e.hasExprMVar then\n return true\n else\n match (← visit e |>.run |>.run {}) with\n | (.ok .., _) => return true\n | (.error .., _) => return false\n...
.lake/packages/lean4/src/lean/Lean/Elab/Tactic/Basic.lean
[ ".lake/packages/lean4/src/lean/Lean/Elab/Term.lean" ]
[ { "full_name": "Lean.Elab.admitGoal", "code": "def admitGoal (mvarId : MVarId) : MetaM Unit :=\n mvarId.withContext do\n let mvarType ← inferType (mkMVar mvarId)\n mvarId.assign (← mkSorry mvarType (synthetic := true))", "start": [ 12, 1 ], "end": [ 16, 59 ], ...
.lake/packages/lean4/src/lean/Lean/Elab/Quotation/Util.lean
[ ".lake/packages/lean4/src/lean/Lean/Elab/Term.lean" ]
[ { "full_name": "Lean.Elab.Term.Quotation.getAntiquotationIds", "code": "def getAntiquotationIds (stx : Syntax) : TermElabM (Array Ident) := do\n let mut ids := #[]\n for stx in stx.topDown (firstChoiceOnly := true) do\n if (isAntiquot stx || isTokenAntiquot stx) && !isEscapedAntiquot stx then\n le...
.lake/packages/lean4/src/lean/Lean/Data/Lsp/Utf16.lean
[ ".lake/packages/lean4/src/lean/Lean/Data/Lsp/Basic.lean", ".lake/packages/lean4/src/lean/Init/Data/Array.lean", ".lake/packages/lean4/src/lean/Lean/DeclarationRange.lean", ".lake/packages/lean4/src/lean/Lean/Data/Position.lean", ".lake/packages/lean4/src/lean/Init/Data/String.lean" ]
[ { "full_name": "Char.utf16Size", "code": "def utf16Size (c : Char) : UInt32 :=\n if c.val ≀ 0xFFFF then 1 else 2", "start": [ 19, 1 ], "end": [ 20, 34 ], "kind": "commanddeclaration" }, { "full_name": "String.csize16", "code": "private def csize16 (c ...
.lake/packages/lean4/src/lean/Lean/Compiler/Specialize.lean
[ ".lake/packages/lean4/src/lean/Lean/Attributes.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean" ]
[ { "full_name": "Lean.Compiler.SpecializeAttributeKind", "code": "inductive SpecializeAttributeKind where\n | specialize | nospecialize\n deriving Inhabited, BEq", "start": [ 12, 1 ], "end": [ 14, 26 ], "kind": "commanddeclaration" }, { "full_name": "Lean...
.lake/packages/lean4/src/lean/Lean/Compiler/LCNF/Types.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/InferType.lean" ]
[ { "full_name": "Lean.Compiler.LCNF.erasedExpr", "code": "def erasedExpr := mkConst ``lcErased", "start": [ 15, 1 ], "end": [ 15, 37 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Expr.isErased", "code": "def _root_.Lean.Expr.isErased (e : Expr...
.lake/packages/lean4/src/lean/Lean/Meta/KExprMap.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/packages/lean4/src/lean/Lean/HeadIndex.lean" ]
[ { "full_name": "Lean.Meta.KExprMap", "code": "structure KExprMap (Ξ± : Type) where\n map : PHashMap HeadIndex (AssocList Expr Ξ±) := {}\n deriving Inhabited", "start": [ 12, 1 ], "end": [ 20, 21 ], "kind": "commanddeclaration" }, { "full_name": "Lean.Meta....
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Simp/SimpCongrTheorems.lean
[ ".lake/packages/lean4/src/lean/Lean/Util/CollectMVars.lean", ".lake/packages/lean4/src/lean/Lean/ScopedEnvExtension.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Basic.lean", ".lake/packages/lean4/src/lean/Lean/Util/Recognizers.lean" ]
[ { "full_name": "Lean.Meta.SimpCongrTheorem", "code": "structure SimpCongrTheorem where\n theoremName : Name\n funName : Name\n hypothesesPos : Array Nat\n priority : Nat\nderiving Inhabited, Repr", "start": [ 14, 1 ], "end": [ 25, 25 ], "kind": "c...
.lake/packages/lean4/src/lean/Lean/Meta/CongrTheorems.lean
[ ".lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean", ".lake/packages/lean4/src/lean/Lean/Class.lean" ]
[ { "full_name": "Lean.Meta.CongrArgKind", "code": "inductive CongrArgKind where\n \n | fixed\n \n | fixedNoParam\n \n | eq\n \n | cast\n \n | heq\n \n | subsingletonInst\n deriving Inhabited, Repr", "start": [ 12, 1 ], "end": [ 35, 27 ], "kind": "comma...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Simp/SimpTheorems.lean
[ ".lake/packages/lean4/src/lean/Lean/Util/Recognizers.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Eqns.lean", ".lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean", ".lake/packages/lean4/src/lean/Lean/PrettyPrinter.lean", ".lake/packages/lean4/src/lean/Lean/ScopedEnvExtension.lean", ".lake/packages...
[ { "full_name": "Lean.Meta.Origin", "code": "inductive Origin where\n \n | decl (declName : Name) (post := true) (inv := false)\n \n | fvar (fvarId : FVarId)\n \n | stx (id : Name) (ref : Syntax)\n \n | other (name : Name)\n deriving Inhabited, Repr", "start": [ 17, 1 ], "end...
.lake/packages/lean4/src/lean/Lean/Meta/Tactic/Replace.lean
[ ".lake/packages/lean4/src/lean/Lean/Util/ForEachExpr.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/Intro.lean", ".lake/packages/lean4/src/lean/Lean/Meta/Tactic/Assert.lean", ".lake/packages/lean4/src/lean/Lean/Elab/InfoTree/Main.lean", ".lake/packages/lean4/src/lean/Lean/Meta/AppBuilder.lean", "....
[ { "full_name": "Lean.MVarId.replaceTargetEq", "code": "def _root_.Lean.MVarId.replaceTargetEq (mvarId : MVarId) (targetNew : Expr) (eqProof : Expr) : MetaM MVarId :=\n mvarId.withContext do\n mvarId.checkNotAssigned `replaceTarget\n let tag ← mvarId.getTag\n let mvarNew ← mkFreshExprSyntheti...