/- Copyright (c) 2019 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Authors: Leonardo de Moura -/ prelude import Lean.CoreM import Lean.MonadEnv namespace Lean inductive AttributeApplicationTime where | afterTypeChecking | afterCompilation | beforeElaboration deriving Inhabited, BEq abbrev AttrM := CoreM instance : MonadLift ImportM AttrM where monadLift x := do liftM (m := IO) (x { env := (← getEnv), opts := (← getOptions) }) structure AttributeImplCore where /-- This is used as the target for go-to-definition queries for simple attributes -/ ref : Name := by exact decl_name% name : Name descr : String applicationTime := AttributeApplicationTime.afterTypeChecking deriving Inhabited /-- You can tag attributes with the 'local' or 'scoped' kind. For example: `attribute [local myattr, scoped yourattr, theirattr]`. This is used to indicate how an attribute should be scoped. - local means that the attribute should only be applied in the current scope and forgotten once the current section, namespace, or file is closed. - scoped means that the attribute should only be applied while the namespace is open. - global means that the attribute should always be applied. Note that the attribute handler (`AttributeImpl.add`) is responsible for interpreting the kind and making sure that these kinds are respected. -/ inductive AttributeKind | global | local | scoped deriving BEq, Inhabited instance : ToString AttributeKind where toString | .global => "global" | .local => "local" | .scoped => "scoped" structure AttributeImpl extends AttributeImplCore where /-- This is run when the attribute is applied to a declaration `decl`. `stx` is the syntax of the attribute including arguments. -/ add (decl : Name) (stx : Syntax) (kind : AttributeKind) : AttrM Unit erase (decl : Name) : AttrM Unit := throwError "attribute cannot be erased" deriving Inhabited builtin_initialize attributeMapRef : IO.Ref (Std.HashMap Name AttributeImpl) ← IO.mkRef {} /-- Low level attribute registration function. -/ def registerBuiltinAttribute (attr : AttributeImpl) : IO Unit := do let m ← attributeMapRef.get if m.contains attr.name then throw (IO.userError ("invalid builtin attribute declaration, '" ++ toString attr.name ++ "' has already been used")) unless (← initializing) do throw (IO.userError "failed to register attribute, attributes can only be registered during initialization") attributeMapRef.modify fun m => m.insert attr.name attr /-! Helper methods for decoding the parameters of builtin attributes that are defined before `Lean.Parser`. We have the following ones: ``` @[builtin_attr_parser] def simple := leading_parser ident >> optional (ppSpace >> (priorityParser <|> ident)) @[builtin_attr_parser] def «macro» := leading_parser "macro " >> ident @[builtin_attr_parser] def «export» := leading_parser "export " >> ident ``` Note that we need the parsers for `class`, `instance`, `export` and `macros` because they are keywords. -/ def Attribute.Builtin.ensureNoArgs (stx : Syntax) : AttrM Unit := do if stx.getKind == `Lean.Parser.Attr.simple && stx[1].isNone && stx[2].isNone then return () else if stx.getKind == `Lean.Parser.Attr.«class» then return () else match stx with | Syntax.missing => return () -- In the elaborator, we use `Syntax.missing` when creating attribute views for simple attributes such as `class and `inline | _ => throwErrorAt stx "unexpected attribute argument" def Attribute.Builtin.getIdent? (stx : Syntax) : AttrM (Option Syntax) := do if stx.getKind == `Lean.Parser.Attr.simple then if !stx[1].isNone && stx[1][0].isIdent then return some stx[1][0] else return none /- We handle `macro` here because it is handled by the generic `KeyedDeclsAttribute -/ else if stx.getKind == `Lean.Parser.Attr.«macro» || stx.getKind == `Lean.Parser.Attr.«export» then return some stx[1] else throwErrorAt stx "unexpected attribute argument" def Attribute.Builtin.getIdent (stx : Syntax) : AttrM Syntax := do match (← getIdent? stx) with | some id => return id | none => throwErrorAt stx "unexpected attribute argument, identifier expected" def Attribute.Builtin.getId? (stx : Syntax) : AttrM (Option Name) := do let ident? ← getIdent? stx return Syntax.getId <$> ident? def Attribute.Builtin.getId (stx : Syntax) : AttrM Name := do return (← getIdent stx).getId def getAttrParamOptPrio (optPrioStx : Syntax) : AttrM Nat := if optPrioStx.isNone then return eval_prio default else match optPrioStx[0].isNatLit? with | some prio => return prio | none => throwErrorAt optPrioStx "priority expected" def Attribute.Builtin.getPrio (stx : Syntax) : AttrM Nat := do if stx.getKind == `Lean.Parser.Attr.simple then getAttrParamOptPrio stx[1] else throwErrorAt stx "unexpected attribute argument, optional priority expected" /-- Tag attributes are simple and efficient. They are useful for marking declarations in the modules where they were defined. The startup cost for this kind of attribute is very small since `addImportedFn` is a constant function. They provide the predicate `tagAttr.hasTag env decl` which returns true iff declaration `decl` is tagged in the environment `env`. -/ structure TagAttribute where attr : AttributeImpl ext : PersistentEnvExtension Name Name NameSet deriving Inhabited def registerTagAttribute (name : Name) (descr : String) (validate : Name → AttrM Unit := fun _ => pure ()) (ref : Name := by exact decl_name%) (applicationTime := AttributeApplicationTime.afterTypeChecking) (asyncMode : EnvExtension.AsyncMode := .mainOnly) : IO TagAttribute := do let ext : PersistentEnvExtension Name Name NameSet ← registerPersistentEnvExtension { name := ref mkInitial := pure {} addImportedFn := fun _ _ => pure {} addEntryFn := fun (s : NameSet) n => s.insert n exportEntriesFn := fun es => let r : Array Name := es.foldl (fun a e => a.push e) #[] r.qsort Name.quickLt statsFn := fun s => "tag attribute" ++ Format.line ++ "number of local entries: " ++ format s.size asyncMode := asyncMode replay? := some fun _ newState newConsts s => newConsts.foldl (init := s) fun s c => if newState.contains c then s.insert c else s } let attrImpl : AttributeImpl := { ref, name, descr, applicationTime add := fun decl stx kind => do Attribute.Builtin.ensureNoArgs stx unless kind == AttributeKind.global do throwError "invalid attribute '{name}', must be global" let env ← getEnv unless (env.getModuleIdxFor? decl).isNone do throwError "invalid attribute '{name}', declaration {.ofConstName decl} is in an imported module" unless env.asyncMayContain decl do throwError "invalid attribute '{name}', declaration {.ofConstName decl} is not from the present async context {env.asyncPrefix?}" validate decl modifyEnv fun env => ext.addEntry env decl } registerBuiltinAttribute attrImpl return { attr := attrImpl, ext := ext } namespace TagAttribute /-- Sets the attribute (without running `validate`) -/ def setTag [Monad m] [MonadError m] [MonadEnv m] (attr : TagAttribute) (decl : Name) : m Unit := do let env ← getEnv unless (env.getModuleIdxFor? decl).isNone do throwError "invalid attribute '{attr.attr.name}', declaration {.ofConstName decl} is in an imported module" unless env.asyncMayContain decl do throwError "invalid attribute '{attr.attr.name}', declaration {.ofConstName decl} is not from the present async context {env.asyncPrefix?}" modifyEnv fun env => attr.ext.addEntry env decl def hasTag (attr : TagAttribute) (env : Environment) (decl : Name) : Bool := match env.getModuleIdxFor? decl with | some modIdx => (attr.ext.getModuleEntries env modIdx).binSearchContains decl Name.quickLt | none => if attr.ext.toEnvExtension.asyncMode matches .async then -- It seems that the env extension API doesn't quite allow querying attributes in a way -- that works for realizable constants, but without waiting on proofs to finish. -- Until then, we use the following overapproximation, to be refined later: (attr.ext.findStateAsync env decl).contains decl || (attr.ext.getState env (asyncMode := .local)).contains decl else (attr.ext.getState env).contains decl end TagAttribute /-- A `TagAttribute` variant where we can attach parameters to attributes. It is slightly more expensive and consumes a little bit more memory than `TagAttribute`. They provide the function `pAttr.getParam env decl` which returns `some p` iff declaration `decl` contains the attribute `pAttr` with parameter `p`. -/ structure ParametricAttribute (α : Type) where attr : AttributeImpl ext : PersistentEnvExtension (Name × α) (Name × α) (NameMap α) deriving Inhabited structure ParametricAttributeImpl (α : Type) extends AttributeImplCore where getParam : Name → Syntax → AttrM α afterSet : Name → α → AttrM Unit := fun _ _ _ => pure () afterImport : Array (Array (Name × α)) → ImportM Unit := fun _ => pure () def registerParametricAttribute (impl : ParametricAttributeImpl α) : IO (ParametricAttribute α) := do let ext : PersistentEnvExtension (Name × α) (Name × α) (NameMap α) ← registerPersistentEnvExtension { name := impl.ref mkInitial := pure {} addImportedFn := fun s => impl.afterImport s *> pure {} addEntryFn := fun (s : NameMap α) (p : Name × α) => s.insert p.1 p.2 exportEntriesFn := fun m => let r : Array (Name × α) := m.foldl (fun a n p => a.push (n, p)) #[] r.qsort (fun a b => Name.quickLt a.1 b.1) statsFn := fun s => "parametric attribute" ++ Format.line ++ "number of local entries: " ++ format s.size } let attrImpl : AttributeImpl := { impl.toAttributeImplCore with add := fun decl stx kind => do unless kind == AttributeKind.global do throwError "invalid attribute '{impl.name}', must be global" let env ← getEnv unless (env.getModuleIdxFor? decl).isNone do throwError "invalid attribute '{impl.name}', declaration is in an imported module" let val ← impl.getParam decl stx modifyEnv fun env => ext.addEntry env (decl, val) try impl.afterSet decl val catch _ => setEnv env } registerBuiltinAttribute attrImpl pure { attr := attrImpl, ext := ext } namespace ParametricAttribute def getParam? [Inhabited α] (attr : ParametricAttribute α) (env : Environment) (decl : Name) : Option α := match env.getModuleIdxFor? decl with | some modIdx => match (attr.ext.getModuleEntries env modIdx).binSearch (decl, default) (fun a b => Name.quickLt a.1 b.1) with | some (_, val) => some val | none => none | none => (attr.ext.getState env).find? decl def setParam (attr : ParametricAttribute α) (env : Environment) (decl : Name) (param : α) : Except String Environment := if (env.getModuleIdxFor? decl).isSome then Except.error ("invalid '" ++ toString attr.attr.name ++ "'.setParam, declaration is in an imported module") else if ((attr.ext.getState env).find? decl).isSome then Except.error ("invalid '" ++ toString attr.attr.name ++ "'.setParam, attribute has already been set") else Except.ok (attr.ext.addEntry env (decl, param)) end ParametricAttribute /-- Given a list `[a₁, ..., a_n]` of elements of type `α`, `EnumAttributes` provides an attribute `Attr_i` for associating a value `a_i` with an declaration. `α` is usually an enumeration type. Note that whenever we register an `EnumAttributes`, we create `n` attributes, but only one environment extension. -/ structure EnumAttributes (α : Type) where attrs : List AttributeImpl ext : PersistentEnvExtension (Name × α) (Name × α) (NameMap α) deriving Inhabited def registerEnumAttributes (attrDescrs : List (Name × String × α)) (validate : Name → α → AttrM Unit := fun _ _ => pure ()) (applicationTime := AttributeApplicationTime.afterTypeChecking) (ref : Name := by exact decl_name%) : IO (EnumAttributes α) := do let ext : PersistentEnvExtension (Name × α) (Name × α) (NameMap α) ← registerPersistentEnvExtension { name := ref mkInitial := pure {} addImportedFn := fun _ _ => pure {} addEntryFn := fun (s : NameMap α) (p : Name × α) => s.insert p.1 p.2 exportEntriesFn := fun m => let r : Array (Name × α) := m.foldl (fun a n p => a.push (n, p)) #[] r.qsort (fun a b => Name.quickLt a.1 b.1) statsFn := fun s => "enumeration attribute extension" ++ Format.line ++ "number of local entries: " ++ format s.size -- We assume (and check below) that, if used asynchronously, enum attributes are set only in the -- same context in which the tagged declaration was created asyncMode := .async replay? := some fun _ newState consts st => consts.foldl (init := st) fun st c => match newState.find? c with | some v => st.insert c v | _ => st } let attrs := attrDescrs.map fun (name, descr, val) => { ref := ref name := name descr := descr add := fun decl stx kind => do Attribute.Builtin.ensureNoArgs stx unless kind == AttributeKind.global do throwError "invalid attribute '{name}', must be global" let env ← getEnv unless (env.getModuleIdxFor? decl).isNone do throwError "invalid attribute '{name}', declaration is in an imported module" validate decl val modifyEnv fun env => ext.addEntry env (decl, val) applicationTime := applicationTime : AttributeImpl } attrs.forM registerBuiltinAttribute pure { ext := ext, attrs := attrs } namespace EnumAttributes def getValue [Inhabited α] (attr : EnumAttributes α) (env : Environment) (decl : Name) : Option α := match env.getModuleIdxFor? decl with | some modIdx => match (attr.ext.getModuleEntries env modIdx).binSearch (decl, default) (fun a b => Name.quickLt a.1 b.1) with | some (_, val) => some val | none => none | none => (attr.ext.findStateAsync env decl).find? decl def setValue (attrs : EnumAttributes α) (env : Environment) (decl : Name) (val : α) : Except String Environment := do if (env.getModuleIdxFor? decl).isSome then throw s!"invalid '{attrs.ext.name}'.setValue, declaration is in an imported module" if !env.asyncMayContain decl then throw s!"invalid '{attrs.ext.name}'.setValue, declaration is not from this async context" if ((attrs.ext.findStateAsync env decl).find? decl).isSome then throw s!"invalid '{attrs.ext.name}'.setValue, attribute has already been set" return attrs.ext.addEntry env (decl, val) end EnumAttributes /-! Attribute extension and builders. We use builders to implement attribute factories for parser categories. -/ abbrev AttributeImplBuilder := Name → List DataValue → Except String AttributeImpl abbrev AttributeImplBuilderTable := Std.HashMap Name AttributeImplBuilder builtin_initialize attributeImplBuilderTableRef : IO.Ref AttributeImplBuilderTable ← IO.mkRef {} def registerAttributeImplBuilder (builderId : Name) (builder : AttributeImplBuilder) : IO Unit := do let table ← attributeImplBuilderTableRef.get if table.contains builderId then throw (IO.userError ("attribute implementation builder '" ++ toString builderId ++ "' has already been declared")) attributeImplBuilderTableRef.modify fun table => table.insert builderId builder structure AttributeExtensionOLeanEntry where builderId : Name ref : Name args : List DataValue def mkAttributeImplOfEntry (e : AttributeExtensionOLeanEntry) : IO AttributeImpl := do let table ← attributeImplBuilderTableRef.get match table[e.builderId]? with | none => throw (IO.userError ("unknown attribute implementation builder '" ++ toString e.builderId ++ "'")) | some builder => IO.ofExcept <| builder e.ref e.args structure AttributeExtensionState where newEntries : List AttributeExtensionOLeanEntry := [] map : Std.HashMap Name AttributeImpl deriving Inhabited abbrev AttributeExtension := PersistentEnvExtension AttributeExtensionOLeanEntry (AttributeExtensionOLeanEntry × AttributeImpl) AttributeExtensionState private def AttributeExtension.mkInitial : IO AttributeExtensionState := do let map ← attributeMapRef.get pure { map := map } unsafe def mkAttributeImplOfConstantUnsafe (env : Environment) (opts : Options) (declName : Name) : Except String AttributeImpl := match env.find? declName with | none => throw ("Unknown constant `" ++ toString declName ++ "`") | some info => match info.type with | Expr.const `Lean.AttributeImpl _ => env.evalConst AttributeImpl opts declName | _ => throw ("unexpected attribute implementation type at '" ++ toString declName ++ "' (`AttributeImpl` expected") @[implemented_by mkAttributeImplOfConstantUnsafe] opaque mkAttributeImplOfConstant (env : Environment) (opts : Options) (declName : Name) : Except String AttributeImpl private def AttributeExtension.addImported (es : Array (Array AttributeExtensionOLeanEntry)) : ImportM AttributeExtensionState := do let map ← attributeMapRef.get let map ← es.foldlM (fun map entries => entries.foldlM (fun (map : Std.HashMap Name AttributeImpl) entry => do let attrImpl ← mkAttributeImplOfEntry entry return map.insert attrImpl.name attrImpl) map) map pure { map := map } private def addAttrEntry (s : AttributeExtensionState) (e : AttributeExtensionOLeanEntry × AttributeImpl) : AttributeExtensionState := { s with map := s.map.insert e.2.name e.2, newEntries := e.1 :: s.newEntries } builtin_initialize attributeExtension : AttributeExtension ← registerPersistentEnvExtension { mkInitial := AttributeExtension.mkInitial addImportedFn := AttributeExtension.addImported addEntryFn := addAttrEntry exportEntriesFn := fun s => s.newEntries.reverse.toArray statsFn := fun s => format "number of local entries: " ++ format s.newEntries.length } /-- Return true iff `n` is the name of a registered attribute. -/ @[export lean_is_attribute] def isBuiltinAttribute (n : Name) : IO Bool := do let m ← attributeMapRef.get; pure (m.contains n) /-- Return the name of all registered attributes. -/ def getBuiltinAttributeNames : IO (List Name) := return (← attributeMapRef.get).fold (init := []) fun r n _ => n::r def getBuiltinAttributeImpl (attrName : Name) : IO AttributeImpl := do let m ← attributeMapRef.get match m[attrName]? with | some attr => pure attr | none => throw (IO.userError ("unknown attribute '" ++ toString attrName ++ "'")) @[export lean_attribute_application_time] def getBuiltinAttributeApplicationTime (n : Name) : IO AttributeApplicationTime := do let attr ← getBuiltinAttributeImpl n pure attr.applicationTime def isAttribute (env : Environment) (attrName : Name) : Bool := (attributeExtension.getState env).map.contains attrName def getAttributeNames (env : Environment) : List Name := let m := (attributeExtension.getState env).map m.fold (fun r n _ => n::r) [] def getAttributeImpl (env : Environment) (attrName : Name) : Except String AttributeImpl := let m := (attributeExtension.getState env).map match m[attrName]? with | some attr => pure attr | none => throw ("unknown attribute '" ++ toString attrName ++ "'") def registerAttributeOfBuilder (env : Environment) (builderId ref : Name) (args : List DataValue) : IO Environment := do let entry := {builderId, ref, args} let attrImpl ← mkAttributeImplOfEntry entry if isAttribute env attrImpl.name then throw (IO.userError ("invalid builtin attribute declaration, '" ++ toString attrImpl.name ++ "' has already been used")) else return attributeExtension.addEntry env (entry, attrImpl) def Attribute.add (declName : Name) (attrName : Name) (stx : Syntax) (kind := AttributeKind.global) : AttrM Unit := do let attr ← ofExcept <| getAttributeImpl (← getEnv) attrName attr.add declName stx kind def Attribute.erase (declName : Name) (attrName : Name) : AttrM Unit := do let attr ← ofExcept <| getAttributeImpl (← getEnv) attrName attr.erase declName /-- `updateEnvAttributes` implementation -/ @[export lean_update_env_attributes] def updateEnvAttributesImpl (env : Environment) : IO Environment := do let map ← attributeMapRef.get let s := attributeExtension.getState env let s := map.fold (init := s) fun s attrName attrImpl => if s.map.contains attrName then s else { s with map := s.map.insert attrName attrImpl } return attributeExtension.setState env s /-- `getNumBuiltinAttributes` implementation -/ @[export lean_get_num_attributes] def getNumBuiltinAttributesImpl : IO Nat := return (← attributeMapRef.get).size end Lean