170 lines
7 KiB
Text
170 lines
7 KiB
Text
/-
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Copyright (c) 2022 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Authors: Leonardo de Moura
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-/
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import Lean.Compiler.LCNF.InferType
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namespace Lean.Compiler.LCNF
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namespace Check
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open InferType
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structure Context where
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/-- Join points that are in scope. -/
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jps : FVarIdSet := {}
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/-- Variables and local functions in scope -/
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vars : FVarIdSet := {}
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structure State where
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/-- All free variables found -/
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all : FVarIdHashSet := {}
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abbrev CheckM := ReaderT Context $ StateRefT State InferTypeM
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def checkFVar (fvarId : FVarId) : CheckM Unit :=
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unless (← read).vars.contains fvarId do
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throwError "invalid out of scope free variable {fvarId.name}"
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def checkApp (f : Expr) (args : Array Expr) : CheckM Unit := do
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unless f.isConst || f.isFVar do
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throwError "unexpected function application, function must be a constant or free variable{indentExpr (mkAppN f args)}"
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if f.isFVar then
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checkFVar f.fvarId!
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let mut fType ← inferType f
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let mut j := 0
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for i in [:args.size] do
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let arg := args[i]!
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if fType.isAnyType then
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return ()
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fType := fType.headBeta
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let (d, b) ←
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match fType with
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| .forallE _ d b _ => pure (d, b)
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| _ =>
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fType := fType.instantiateRevRange j i args |>.headBeta
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match fType with
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| .forallE _ d b _ => j := i; pure (d, b)
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| _ =>
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if fType.isAnyType then return ()
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throwError "function expected at{indentExpr (mkAppN f args)}\narrow type expected{indentExpr fType}"
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let argType ← inferType arg
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let expectedType := d.instantiateRevRange j i args
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unless compatibleTypes argType expectedType do
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throwError "type mismatch at LCNF application{indentExpr (mkAppN f args)}\nargument {arg} has type{indentExpr argType}\nbut is expected to have type{indentExpr expectedType}"
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unless isTypeFormerType expectedType || expectedType.erased do
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unless arg.isFVar do
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throwError "invalid LCNF application{indentExpr (mkAppN f args)}\nargument{indentExpr arg}\nmust be a free variable"
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checkFVar arg.fvarId!
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fType := b
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def checkExpr (e : Expr) : CheckM Unit :=
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match e with
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| .lit _ => pure ()
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| .app .. => checkApp e.getAppFn e.getAppArgs
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| .proj _ _ (.fvar fvarId) => checkFVar fvarId
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| .mdata _ (.fvar fvarId) => checkFVar fvarId
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| .const _ _ => pure () -- TODO: check number of universe level parameters
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| .fvar fvarId => checkFVar fvarId
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| _ => throwError "unexpected expression at LCNF{indentExpr e}"
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def checkJpInScope (jp : FVarId) : CheckM Unit := do
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unless (← read).jps.contains jp do
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/-
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We cannot jump to join points defined out of the scope of a local function declaration.
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For example, the following is an invalid LCNF.
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```
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jp_1 := fun x => ... -- Some join point
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let f := fun y => -- Local function declaration.
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...
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jp_1 _x.n -- jump to a join point that is not in the scope of `f`.
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```
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-/
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throwError "invalid jump to out of scope join point"
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def checkLetDecl (letDecl : LetDecl) : CheckM Unit := do
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checkExpr letDecl.value
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let valueType ← inferType letDecl.value
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unless compatibleTypes letDecl.type valueType do
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throwError "type mismatch at `{letDecl.binderName}`, value has type{indentExpr valueType}\nbut is expected to have type{indentExpr letDecl.type}"
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def addFVarId (fvarId : FVarId) : CheckM Unit := do
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if (← get).all.contains fvarId then
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throwError "invalid LCNF, free variables are not unique `{fvarId.name}`"
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modify fun s => { s with all := s.all.insert fvarId }
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@[inline] def withFVarId (fvarId : FVarId) (x : CheckM α) : CheckM α := do
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addFVarId fvarId
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withReader (fun ctx => { ctx with vars := ctx.vars.insert fvarId }) x
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@[inline] def withJp (fvarId : FVarId) (x : CheckM α) : CheckM α := do
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addFVarId fvarId
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withReader (fun ctx => { ctx with jps := ctx.jps.insert fvarId }) x
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@[inline] def withParams (params : Array Param) (x : CheckM α) : CheckM α := do
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params.forM (addFVarId ·.fvarId)
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withReader (fun ctx => { ctx with vars := params.foldl (init := ctx.vars) fun vars p => vars.insert p.fvarId })
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x
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mutual
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partial def checkFunDeclCore (declName : Name) (type : Expr) (params : Array Param) (value : Code) : CheckM Unit := do
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let valueType ← withParams params do
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mkForallParams params (← check value)
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unless compatibleTypes type valueType do
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throwError "type mismatch at `{declName}`, value has type{indentExpr valueType}\nbut is expected to have type{indentExpr type}"
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partial def checkFunDecl (funDecl : FunDecl) : CheckM Unit :=
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checkFunDeclCore funDecl.binderName funDecl.type funDecl.params funDecl.value
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partial def checkCases (c : Cases) : CheckM Expr := do
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let mut ctorNames : NameSet := {}
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let mut hasDefault := false
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checkFVar c.discr
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let discrType ← inferFVarType c.discr
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let .const declName _ := discrType.headBeta.getAppFn | throwError "unexpected LCNF discriminant type {discrType}"
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unless c.typeName == declName do
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throwError "invalid LCNF `{c.typeName}.casesOn`, discriminant has type{indentExpr discrType}"
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for alt in c.alts do
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let type ←
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match alt with
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| .default k => hasDefault := true; check k
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| .alt ctorName params k =>
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if ctorNames.contains ctorName then
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throwError "invalid LCNF `cases`, alternative `{ctorName}` occurs more than once"
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ctorNames := ctorNames.insert ctorName
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let .ctorInfo val ← getConstInfo ctorName | throwError "invalid LCNF `cases`, `{ctorName}` is not a constructor name"
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unless val.induct == c.typeName do
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throwError "invalid LCNF `cases`, `{ctorName}` is not a constructor of `{c.typeName}`"
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unless params.size == val.numFields do
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throwError "invalid LCNF `cases`, `{ctorName}` has # {val.numFields} fields, but alternative has # {params.size} alternatives"
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-- TODO: check whether the ctor field types as parameter types match.
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withParams params do check k
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unless compatibleTypes type c.resultType do
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throwError "type mismatch at LCNF `cases` alternative\nhas type{indentExpr type}\nbut is expected to have type{indentExpr c.resultType}"
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return c.resultType
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partial def check (code : Code) : CheckM Expr := do
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match code with
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| .let decl k => checkLetDecl decl; withFVarId decl.fvarId do check k
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| .fun decl k =>
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-- Remark: local function declarations should not jump to out of scope join points
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withReader (fun ctx => { ctx with jps := {} }) do checkFunDecl decl
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withFVarId decl.fvarId do check k
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| .jp decl k => checkFunDecl decl; withJp decl.fvarId do check k
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| .cases c => checkCases c
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| .jmp fvarId args => checkJpInScope fvarId; checkApp (.fvar fvarId) args; code.inferType
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| .return fvarId => checkFVar fvarId; code.inferType
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| .unreach .. => code.inferType
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end
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def run (x : CheckM α) : CompilerM α :=
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x |>.run {} |>.run' {} |>.run {}
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end Check
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def Decl.check (decl : Decl) : CompilerM Unit := do
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Check.run do Check.checkFunDeclCore decl.name decl.type decl.params decl.value
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end Lean.Compiler.LCNF
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