// Copyright 2018 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 source import ( "context" "fmt" "go/ast" "go/token" "go/types" "strconv" "golang.org/x/tools/go/ast/astutil" "golang.org/x/tools/internal/lsp/protocol" "golang.org/x/tools/internal/telemetry/trace" errors "golang.org/x/xerrors" ) // IdentifierInfo holds information about an identifier in Go source. type IdentifierInfo struct { Name string Snapshot Snapshot mappedRange Type struct { mappedRange Object types.Object } Declaration Declaration ident *ast.Ident // enclosing is an expression used to determine the link anchor for an identifier. enclosing types.Type pkg Package qf types.Qualifier } type Declaration struct { mappedRange node ast.Node obj types.Object } // Identifier returns identifier information for a position // in a file, accounting for a potentially incomplete selector. func Identifier(ctx context.Context, snapshot Snapshot, fh FileHandle, pos protocol.Position) (*IdentifierInfo, error) { ctx, done := trace.StartSpan(ctx, "source.Identifier") defer done() pkg, pgh, err := getParsedFile(ctx, snapshot, fh, NarrowestPackageHandle) if err != nil { return nil, fmt.Errorf("getting file for Identifier: %v", err) } file, _, m, _, err := pgh.Cached() if err != nil { return nil, err } spn, err := m.PointSpan(pos) if err != nil { return nil, err } rng, err := spn.Range(m.Converter) if err != nil { return nil, err } return findIdentifier(ctx, snapshot, pkg, file, rng.Start) } var ErrNoIdentFound = errors.New("no identifier found") func findIdentifier(ctx context.Context, s Snapshot, pkg Package, file *ast.File, pos token.Pos) (*IdentifierInfo, error) { // Handle import specs separately, as there is no formal position for a package declaration. if result, err := importSpec(s, pkg, file, pos); result != nil || err != nil { return result, err } path := pathEnclosingObjNode(file, pos) if path == nil { return nil, ErrNoIdentFound } view := s.View() ident, _ := path[0].(*ast.Ident) if ident == nil { return nil, ErrNoIdentFound } result := &IdentifierInfo{ Snapshot: s, qf: qualifier(file, pkg.GetTypes(), pkg.GetTypesInfo()), pkg: pkg, ident: ident, enclosing: searchForEnclosing(pkg, path), } var wasEmbeddedField bool for _, n := range path[1:] { if field, ok := n.(*ast.Field); ok { wasEmbeddedField = len(field.Names) == 0 break } } result.Name = result.ident.Name var err error if result.mappedRange, err = posToMappedRange(view, pkg, result.ident.Pos(), result.ident.End()); err != nil { return nil, err } result.Declaration.obj = pkg.GetTypesInfo().ObjectOf(result.ident) if result.Declaration.obj == nil { // If there was no types.Object for the declaration, there might be an implicit local variable // declaration in a type switch. if objs := typeSwitchImplicits(pkg, path); len(objs) > 0 { // There is no types.Object for the declaration of an implicit local variable, // but all of the types.Objects associated with the usages of this variable can be // used to connect it back to the declaration. // Preserve the first of these objects and treat it as if it were the declaring object. result.Declaration.obj = objs[0] } else { // Probably a type error. return nil, errors.Errorf("no object for ident %v", result.Name) } } // Handle builtins separately. if result.Declaration.obj.Parent() == types.Universe { astObj, err := view.LookupBuiltin(ctx, result.Name) if err != nil { return nil, err } decl, ok := astObj.Decl.(ast.Node) if !ok { return nil, errors.Errorf("no declaration for %s", result.Name) } result.Declaration.node = decl if result.Declaration.mappedRange, err = nameToMappedRange(view, pkg, decl.Pos(), result.Name); err != nil { return nil, err } return result, nil } if wasEmbeddedField { // The original position was on the embedded field declaration, so we // try to dig out the type and jump to that instead. if v, ok := result.Declaration.obj.(*types.Var); ok { if typObj := typeToObject(v.Type()); typObj != nil { result.Declaration.obj = typObj } } } if result.Declaration.mappedRange, err = objToMappedRange(view, pkg, result.Declaration.obj); err != nil { return nil, err } if result.Declaration.node, err = objToNode(s.View(), pkg, result.Declaration.obj); err != nil { return nil, err } typ := pkg.GetTypesInfo().TypeOf(result.ident) if typ == nil { return result, nil } result.Type.Object = typeToObject(typ) if result.Type.Object != nil { // Identifiers with the type "error" are a special case with no position. if hasErrorType(result.Type.Object) { return result, nil } if result.Type.mappedRange, err = objToMappedRange(view, pkg, result.Type.Object); err != nil { return nil, err } } return result, nil } func searchForEnclosing(pkg Package, path []ast.Node) types.Type { for _, n := range path { switch n := n.(type) { case *ast.SelectorExpr: if selection, ok := pkg.GetTypesInfo().Selections[n]; ok { return deref(selection.Recv()) } case *ast.CompositeLit: if t, ok := pkg.GetTypesInfo().Types[n]; ok { return t.Type } case *ast.TypeSpec: if _, ok := n.Type.(*ast.StructType); ok { if t, ok := pkg.GetTypesInfo().Defs[n.Name]; ok { return t.Type() } } } } return nil } func typeToObject(typ types.Type) types.Object { switch typ := typ.(type) { case *types.Named: return typ.Obj() case *types.Pointer: return typeToObject(typ.Elem()) default: return nil } } func hasErrorType(obj types.Object) bool { return types.IsInterface(obj.Type()) && obj.Pkg() == nil && obj.Name() == "error" } func objToNode(v View, pkg Package, obj types.Object) (ast.Decl, error) { declAST, _, err := findPosInPackage(v, pkg, obj.Pos()) if err != nil { return nil, err } path, _ := astutil.PathEnclosingInterval(declAST, obj.Pos(), obj.Pos()) if path == nil { return nil, errors.Errorf("no path for object %v", obj.Name()) } for _, node := range path { switch node := node.(type) { case *ast.GenDecl: // Type names, fields, and methods. switch obj.(type) { case *types.TypeName, *types.Var, *types.Const, *types.Func: return node, nil } case *ast.FuncDecl: // Function signatures. if _, ok := obj.(*types.Func); ok { return node, nil } } } return nil, nil // didn't find a node, but don't fail } // importSpec handles positions inside of an *ast.ImportSpec. func importSpec(s Snapshot, pkg Package, file *ast.File, pos token.Pos) (*IdentifierInfo, error) { var imp *ast.ImportSpec for _, spec := range file.Imports { if spec.Path.Pos() <= pos && pos < spec.Path.End() { imp = spec } } if imp == nil { return nil, nil } importPath, err := strconv.Unquote(imp.Path.Value) if err != nil { return nil, errors.Errorf("import path not quoted: %s (%v)", imp.Path.Value, err) } result := &IdentifierInfo{ Snapshot: s, Name: importPath, pkg: pkg, } if result.mappedRange, err = posToMappedRange(s.View(), pkg, imp.Path.Pos(), imp.Path.End()); err != nil { return nil, err } // Consider the "declaration" of an import spec to be the imported package. importedPkg, err := pkg.GetImport(importPath) if err != nil { return nil, err } if importedPkg.GetSyntax() == nil { return nil, errors.Errorf("no syntax for for %q", importPath) } // Heuristic: Jump to the longest (most "interesting") file of the package. var dest *ast.File for _, f := range importedPkg.GetSyntax() { if dest == nil || f.End()-f.Pos() > dest.End()-dest.Pos() { dest = f } } if dest == nil { return nil, errors.Errorf("package %q has no files", importPath) } if result.Declaration.mappedRange, err = posToMappedRange(s.View(), pkg, dest.Pos(), dest.End()); err != nil { return nil, err } result.Declaration.node = imp return result, nil } // typeSwitchImplicits returns all the implicit type switch objects // that correspond to the leaf *ast.Ident. func typeSwitchImplicits(pkg Package, path []ast.Node) []types.Object { ident, _ := path[0].(*ast.Ident) if ident == nil { return nil } var ( ts *ast.TypeSwitchStmt assign *ast.AssignStmt cc *ast.CaseClause obj = pkg.GetTypesInfo().ObjectOf(ident) ) // Walk our ancestors to determine if our leaf ident refers to a // type switch variable, e.g. the "a" from "switch a := b.(type)". Outer: for i := 1; i < len(path); i++ { switch n := path[i].(type) { case *ast.AssignStmt: // Check if ident is the "a" in "a := foo.(type)". The "a" in // this case has no types.Object, so check for ident equality. if len(n.Lhs) == 1 && n.Lhs[0] == ident { assign = n } case *ast.CaseClause: // Check if ident is a use of "a" within a case clause. Each // case clause implicitly maps "a" to a different types.Object, // so check if ident's object is the case clause's implicit // object. if obj != nil && pkg.GetTypesInfo().Implicits[n] == obj { cc = n } case *ast.TypeSwitchStmt: // Look for the type switch that owns our previously found // *ast.AssignStmt or *ast.CaseClause. if n.Assign == assign { ts = n break Outer } for _, stmt := range n.Body.List { if stmt == cc { ts = n break Outer } } } } if ts == nil { return nil } // Our leaf ident refers to a type switch variable. Fan out to the // type switch's implicit case clause objects. var objs []types.Object for _, cc := range ts.Body.List { if ccObj := pkg.GetTypesInfo().Implicits[cc]; ccObj != nil { objs = append(objs, ccObj) } } return objs }