// UNREVIEWED // Copyright 2021 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package noder import ( "cmd/compile/internal/base" "cmd/compile/internal/syntax" "cmd/compile/internal/types2" "cmd/internal/src" ) type pkgReader2 struct { pkgDecoder ctxt *types2.Context imports map[string]*types2.Package posBases []*syntax.PosBase pkgs []*types2.Package typs []types2.Type } func readPackage2(ctxt *types2.Context, imports map[string]*types2.Package, input pkgDecoder) *types2.Package { pr := pkgReader2{ pkgDecoder: input, ctxt: ctxt, imports: imports, posBases: make([]*syntax.PosBase, input.numElems(relocPosBase)), pkgs: make([]*types2.Package, input.numElems(relocPkg)), typs: make([]types2.Type, input.numElems(relocType)), } r := pr.newReader(relocMeta, publicRootIdx, syncPublic) pkg := r.pkg() r.bool() // has init for i, n := 0, r.len(); i < n; i++ { // As if r.obj(), but avoiding the Scope.Lookup call, // to avoid eager loading of imports. r.sync(syncObject) assert(!r.bool()) r.p.objIdx(r.reloc(relocObj)) assert(r.len() == 0) } r.sync(syncEOF) pkg.MarkComplete() return pkg } type reader2 struct { decoder p *pkgReader2 dict *reader2Dict } type reader2Dict struct { bounds []typeInfo tparams []*types2.TypeParam derived []derivedInfo derivedTypes []types2.Type } type reader2TypeBound struct { derived bool boundIdx int } func (pr *pkgReader2) newReader(k reloc, idx int, marker syncMarker) *reader2 { return &reader2{ decoder: pr.newDecoder(k, idx, marker), p: pr, } } // @@@ Positions func (r *reader2) pos() syntax.Pos { r.sync(syncPos) if !r.bool() { return syntax.Pos{} } // TODO(mdempsky): Delta encoding. posBase := r.posBase() line := r.uint() col := r.uint() return syntax.MakePos(posBase, line, col) } func (r *reader2) posBase() *syntax.PosBase { return r.p.posBaseIdx(r.reloc(relocPosBase)) } func (pr *pkgReader2) posBaseIdx(idx int) *syntax.PosBase { if b := pr.posBases[idx]; b != nil { return b } r := pr.newReader(relocPosBase, idx, syncPosBase) var b *syntax.PosBase filename := r.string() if r.bool() { b = syntax.NewTrimmedFileBase(filename, true) } else { pos := r.pos() line := r.uint() col := r.uint() b = syntax.NewLineBase(pos, filename, true, line, col) } pr.posBases[idx] = b return b } // @@@ Packages func (r *reader2) pkg() *types2.Package { r.sync(syncPkg) return r.p.pkgIdx(r.reloc(relocPkg)) } func (pr *pkgReader2) pkgIdx(idx int) *types2.Package { // TODO(mdempsky): Consider using some non-nil pointer to indicate // the universe scope, so we don't need to keep re-reading it. if pkg := pr.pkgs[idx]; pkg != nil { return pkg } pkg := pr.newReader(relocPkg, idx, syncPkgDef).doPkg() pr.pkgs[idx] = pkg return pkg } func (r *reader2) doPkg() *types2.Package { path := r.string() if path == "builtin" { return nil // universe } if path == "" { path = r.p.pkgPath } if pkg := r.p.imports[path]; pkg != nil { return pkg } name := r.string() height := r.len() pkg := types2.NewPackageHeight(path, name, height) r.p.imports[path] = pkg // TODO(mdempsky): The list of imported packages is important for // go/types, but we could probably skip populating it for types2. imports := make([]*types2.Package, r.len()) for i := range imports { imports[i] = r.pkg() } pkg.SetImports(imports) return pkg } // @@@ Types func (r *reader2) typ() types2.Type { return r.p.typIdx(r.typInfo(), r.dict) } func (r *reader2) typInfo() typeInfo { r.sync(syncType) if r.bool() { return typeInfo{idx: r.len(), derived: true} } return typeInfo{idx: r.reloc(relocType), derived: false} } func (pr *pkgReader2) typIdx(info typeInfo, dict *reader2Dict) types2.Type { idx := info.idx var where *types2.Type if info.derived { where = &dict.derivedTypes[idx] idx = dict.derived[idx].idx } else { where = &pr.typs[idx] } if typ := *where; typ != nil { return typ } r := pr.newReader(relocType, idx, syncTypeIdx) r.dict = dict typ := r.doTyp() assert(typ != nil) // See comment in pkgReader.typIdx explaining how this happens. if prev := *where; prev != nil { return prev } *where = typ return typ } func (r *reader2) doTyp() (res types2.Type) { switch tag := codeType(r.code(syncType)); tag { default: base.FatalfAt(src.NoXPos, "unhandled type tag: %v", tag) panic("unreachable") case typeBasic: return types2.Typ[r.len()] case typeNamed: obj, targs := r.obj() name := obj.(*types2.TypeName) if len(targs) != 0 { t, _ := types2.Instantiate(r.p.ctxt, name.Type(), targs, false) return t } return name.Type() case typeTypeParam: return r.dict.tparams[r.len()] case typeArray: len := int64(r.uint64()) return types2.NewArray(r.typ(), len) case typeChan: dir := types2.ChanDir(r.len()) return types2.NewChan(dir, r.typ()) case typeMap: return types2.NewMap(r.typ(), r.typ()) case typePointer: return types2.NewPointer(r.typ()) case typeSignature: return r.signature(nil, nil, nil) case typeSlice: return types2.NewSlice(r.typ()) case typeStruct: return r.structType() case typeInterface: return r.interfaceType() case typeUnion: return r.unionType() } } func (r *reader2) structType() *types2.Struct { fields := make([]*types2.Var, r.len()) var tags []string for i := range fields { pos := r.pos() pkg, name := r.selector() ftyp := r.typ() tag := r.string() embedded := r.bool() fields[i] = types2.NewField(pos, pkg, name, ftyp, embedded) if tag != "" { for len(tags) < i { tags = append(tags, "") } tags = append(tags, tag) } } return types2.NewStruct(fields, tags) } func (r *reader2) unionType() *types2.Union { terms := make([]*types2.Term, r.len()) for i := range terms { terms[i] = types2.NewTerm(r.bool(), r.typ()) } return types2.NewUnion(terms) } func (r *reader2) interfaceType() *types2.Interface { methods := make([]*types2.Func, r.len()) embeddeds := make([]types2.Type, r.len()) for i := range methods { pos := r.pos() pkg, name := r.selector() mtyp := r.signature(nil, nil, nil) methods[i] = types2.NewFunc(pos, pkg, name, mtyp) } for i := range embeddeds { embeddeds[i] = r.typ() } return types2.NewInterfaceType(methods, embeddeds) } func (r *reader2) signature(recv *types2.Var, rtparams, tparams []*types2.TypeParam) *types2.Signature { r.sync(syncSignature) params := r.params() results := r.params() variadic := r.bool() return types2.NewSignatureType(recv, rtparams, tparams, params, results, variadic) } func (r *reader2) params() *types2.Tuple { r.sync(syncParams) params := make([]*types2.Var, r.len()) for i := range params { params[i] = r.param() } return types2.NewTuple(params...) } func (r *reader2) param() *types2.Var { r.sync(syncParam) pos := r.pos() pkg, name := r.localIdent() typ := r.typ() return types2.NewParam(pos, pkg, name, typ) } // @@@ Objects func (r *reader2) obj() (types2.Object, []types2.Type) { r.sync(syncObject) assert(!r.bool()) pkg, name := r.p.objIdx(r.reloc(relocObj)) obj := pkg.Scope().Lookup(name) targs := make([]types2.Type, r.len()) for i := range targs { targs[i] = r.typ() } return obj, targs } func (pr *pkgReader2) objIdx(idx int) (*types2.Package, string) { rname := pr.newReader(relocName, idx, syncObject1) objPkg, objName := rname.qualifiedIdent() assert(objName != "") tag := codeObj(rname.code(syncCodeObj)) if tag == objStub { assert(objPkg == nil || objPkg == types2.Unsafe) return objPkg, objName } dict := pr.objDictIdx(idx) r := pr.newReader(relocObj, idx, syncObject1) r.dict = dict objPkg.Scope().InsertLazy(objName, func() types2.Object { switch tag { default: panic("weird") case objAlias: pos := r.pos() typ := r.typ() return types2.NewTypeName(pos, objPkg, objName, typ) case objConst: pos := r.pos() typ := r.typ() val := r.value() return types2.NewConst(pos, objPkg, objName, typ, val) case objFunc: pos := r.pos() tparams := r.typeParamNames() sig := r.signature(nil, nil, tparams) return types2.NewFunc(pos, objPkg, objName, sig) case objType: pos := r.pos() return types2.NewTypeNameLazy(pos, objPkg, objName, func(named *types2.Named) (tparams []*types2.TypeParam, underlying types2.Type, methods []*types2.Func) { tparams = r.typeParamNames() // TODO(mdempsky): Rewrite receiver types to underlying is an // Interface? The go/types importer does this (I think because // unit tests expected that), but cmd/compile doesn't care // about it, so maybe we can avoid worrying about that here. underlying = r.typ().Underlying() methods = make([]*types2.Func, r.len()) for i := range methods { methods[i] = r.method() } return }) case objVar: pos := r.pos() typ := r.typ() return types2.NewVar(pos, objPkg, objName, typ) } }) return objPkg, objName } func (pr *pkgReader2) objDictIdx(idx int) *reader2Dict { r := pr.newReader(relocObjDict, idx, syncObject1) var dict reader2Dict if implicits := r.len(); implicits != 0 { base.Fatalf("unexpected object with %v implicit type parameter(s)", implicits) } dict.bounds = make([]typeInfo, r.len()) for i := range dict.bounds { dict.bounds[i] = r.typInfo() } dict.derived = make([]derivedInfo, r.len()) dict.derivedTypes = make([]types2.Type, len(dict.derived)) for i := range dict.derived { dict.derived[i] = derivedInfo{r.reloc(relocType), r.bool()} } // function references follow, but reader2 doesn't need those return &dict } func (r *reader2) typeParamNames() []*types2.TypeParam { r.sync(syncTypeParamNames) // Note: This code assumes it only processes objects without // implement type parameters. This is currently fine, because // reader2 is only used to read in exported declarations, which are // always package scoped. if len(r.dict.bounds) == 0 { return nil } // Careful: Type parameter lists may have cycles. To allow for this, // we construct the type parameter list in two passes: first we // create all the TypeNames and TypeParams, then we construct and // set the bound type. r.dict.tparams = make([]*types2.TypeParam, len(r.dict.bounds)) for i := range r.dict.bounds { pos := r.pos() pkg, name := r.localIdent() tname := types2.NewTypeName(pos, pkg, name, nil) r.dict.tparams[i] = types2.NewTypeParam(tname, nil) } for i, bound := range r.dict.bounds { r.dict.tparams[i].SetConstraint(r.p.typIdx(bound, r.dict)) } return r.dict.tparams } func (r *reader2) method() *types2.Func { r.sync(syncMethod) pos := r.pos() pkg, name := r.selector() rtparams := r.typeParamNames() sig := r.signature(r.param(), rtparams, nil) _ = r.pos() // TODO(mdempsky): Remove; this is a hacker for linker.go. return types2.NewFunc(pos, pkg, name, sig) } func (r *reader2) qualifiedIdent() (*types2.Package, string) { return r.ident(syncSym) } func (r *reader2) localIdent() (*types2.Package, string) { return r.ident(syncLocalIdent) } func (r *reader2) selector() (*types2.Package, string) { return r.ident(syncSelector) } func (r *reader2) ident(marker syncMarker) (*types2.Package, string) { r.sync(marker) return r.pkg(), r.string() }