// Copyright 2019 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. // The code in this file is based largely on the code in // cmd/guru/implements.go. The guru implementation supports // looking up "implementers" of methods also, but that // code has been cut out here for now for simplicity. package source import ( "context" "fmt" "go/types" "sort" "golang.org/x/tools/go/types/typeutil" "golang.org/x/tools/internal/lsp/protocol" ) func (i *IdentifierInfo) Implementation(ctx context.Context) ([]protocol.Location, error) { res, err := i.implementations(ctx) if err != nil { return nil, err } var objs []types.Object pkgs := map[types.Object]Package{} if res.toMethod != nil { // If we looked up a method, results are in toMethod. for _, s := range res.toMethod { // Determine package of receiver. recv := s.Recv() if p, ok := recv.(*types.Pointer); ok { recv = p.Elem() } if n, ok := recv.(*types.Named); ok { pkg := res.pkgs[n] pkgs[s.Obj()] = pkg } // Add object to objs. objs = append(objs, s.Obj()) } } else { // Otherwise, the results are in to. for _, t := range res.to { // We'll provide implementations that are named types and pointers to named types. if p, ok := t.(*types.Pointer); ok { t = p.Elem() } if n, ok := t.(*types.Named); ok { pkg := res.pkgs[n] objs = append(objs, n.Obj()) pkgs[n.Obj()] = pkg } } } var locations []protocol.Location for _, obj := range objs { pkg := pkgs[obj] if pkgs[obj] == nil || len(pkg.CompiledGoFiles()) == 0 { continue } file, _, _, err := i.Snapshot.View().FindPosInPackage(pkgs[obj], obj.Pos()) if err != nil { return nil, err } ident, err := findIdentifier(ctx, i.Snapshot, pkg, file, obj.Pos()) if err != nil { return nil, err } decRange, err := ident.Declaration.Range() if err != nil { return nil, err } locations = append(locations, protocol.Location{ URI: protocol.NewURI(ident.Declaration.URI()), Range: decRange, }) } return locations, nil } func (i *IdentifierInfo) implementations(ctx context.Context) (implementsResult, error) { var T types.Type var method *types.Func if i.Type.Object == nil { // This isn't a type. Is it a method? obj, ok := i.Declaration.obj.(*types.Func) if !ok { return implementsResult{}, fmt.Errorf("no type info object for identifier %q", i.Name) } recv := obj.Type().(*types.Signature).Recv() if recv == nil { return implementsResult{}, fmt.Errorf("this function is not a method") } method = obj T = recv.Type() } else { T = i.Type.Object.Type() } // Find all named types, even local types (which can have // methods due to promotion) and the built-in "error". // We ignore aliases 'type M = N' to avoid duplicate // reporting of the Named type N. var allNamed []*types.Named pkgs := map[*types.Named]Package{} for _, pkg := range i.Snapshot.KnownPackages(ctx) { info := pkg.GetTypesInfo() for _, obj := range info.Defs { if obj, ok := obj.(*types.TypeName); ok && !obj.IsAlias() { if named, ok := obj.Type().(*types.Named); ok { allNamed = append(allNamed, named) pkgs[named] = pkg } } } } allNamed = append(allNamed, types.Universe.Lookup("error").Type().(*types.Named)) var msets typeutil.MethodSetCache // TODO(matloob): We only use the to and toMethod result for now. Figure out if we want to // surface the from and fromPtr results to users. // Test each named type. var to, from, fromPtr []types.Type for _, U := range allNamed { if isInterface(T) { if msets.MethodSet(T).Len() == 0 { continue // empty interface } if isInterface(U) { if msets.MethodSet(U).Len() == 0 { continue // empty interface } // T interface, U interface if !types.Identical(T, U) { if types.AssignableTo(U, T) { to = append(to, U) } if types.AssignableTo(T, U) { from = append(from, U) } } } else { // T interface, U concrete if types.AssignableTo(U, T) { to = append(to, U) } else if pU := types.NewPointer(U); types.AssignableTo(pU, T) { to = append(to, pU) } } } else if isInterface(U) { if msets.MethodSet(U).Len() == 0 { continue // empty interface } // T concrete, U interface if types.AssignableTo(T, U) { from = append(from, U) } else if pT := types.NewPointer(T); types.AssignableTo(pT, U) { fromPtr = append(fromPtr, U) } } } // Sort types (arbitrarily) to ensure test determinism. sort.Sort(typesByString(to)) sort.Sort(typesByString(from)) sort.Sort(typesByString(fromPtr)) var toMethod []*types.Selection // contain nils if method != nil { for _, t := range to { toMethod = append(toMethod, types.NewMethodSet(t).Lookup(method.Pkg(), method.Name())) } } return implementsResult{pkgs, to, from, fromPtr, toMethod}, nil } // implementsResult contains the results of an implements query. type implementsResult struct { pkgs map[*types.Named]Package to []types.Type // named or ptr-to-named types assignable to interface T from []types.Type // named interfaces assignable from T fromPtr []types.Type // named interfaces assignable only from *T toMethod []*types.Selection } type typesByString []types.Type func (p typesByString) Len() int { return len(p) } func (p typesByString) Less(i, j int) bool { return p[i].String() < p[j].String() } func (p typesByString) Swap(i, j int) { p[i], p[j] = p[j], p[i] }