package cache import ( "context" "fmt" "golang.org/x/tools/go/packages" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/span" ) func (v *view) loadParseTypecheck(ctx context.Context, f *goFile) ([]packages.Error, error) { v.mcache.mu.Lock() defer v.mcache.mu.Unlock() // If the AST for this file is trimmed, and we are explicitly type-checking it, // don't ignore function bodies. if f.astIsTrimmed() { f.invalidateAST() } // Save the metadata's current missing imports, if any. var originalMissingImports map[packagePath]struct{} if f.meta != nil { originalMissingImports = f.meta.missingImports } // Check if we need to run go/packages.Load for this file's package. if errs, err := v.checkMetadata(ctx, f); err != nil { return errs, err } // If `go list` failed to get data for the file in question (this should never happen). if f.meta == nil { return nil, fmt.Errorf("loadParseTypecheck: no metadata found for %v", f.filename()) } // If we have already seen these missing imports before, and we still have type information, // there is no need to continue. if sameSet(originalMissingImports, f.meta.missingImports) && f.pkg != nil { return nil, nil } imp := &importer{ view: v, seen: make(map[packageID]struct{}), ctx: ctx, fset: f.FileSet(), topLevelPkgID: f.meta.id, } // Start prefetching direct imports. for importID := range f.meta.children { go imp.getPkg(importID) } // Type-check package. pkg, err := imp.getPkg(f.meta.id) if err != nil { return nil, err } if pkg == nil || pkg.IsIllTyped() { return nil, fmt.Errorf("loadParseTypecheck: %s is ill typed", f.meta.pkgPath) } // If we still have not found the package for the file, something is wrong. if f.pkg == nil { return nil, fmt.Errorf("loadParseTypeCheck: no package found for %v", f.filename()) } return nil, nil } func sameSet(x, y map[packagePath]struct{}) bool { if len(x) != len(y) { return false } for k := range x { if _, ok := y[k]; !ok { return false } } return true } // checkMetadata determines if we should run go/packages.Load for this file. // If yes, update the metadata for the file and its package. func (v *view) checkMetadata(ctx context.Context, f *goFile) ([]packages.Error, error) { if !v.parseImports(ctx, f) { return nil, nil } pkgs, err := packages.Load(v.buildConfig(), fmt.Sprintf("file=%s", f.filename())) if len(pkgs) == 0 { if err == nil { err = fmt.Errorf("no packages found for %s", f.filename()) } // Return this error as a diagnostic to the user. return []packages.Error{ { Msg: err.Error(), Kind: packages.ListError, }, }, err } for _, pkg := range pkgs { // If the package comes back with errors from `go list`, // don't bother type-checking it. if len(pkg.Errors) > 0 { return pkg.Errors, fmt.Errorf("package %s has errors, skipping type-checking", pkg.PkgPath) } // Build the import graph for this package. v.link(ctx, packagePath(pkg.PkgPath), pkg, nil) } return nil, nil } // reparseImports reparses a file's package and import declarations to // determine if they have changed. func (v *view) parseImports(ctx context.Context, f *goFile) bool { if f.meta == nil || len(f.meta.missingImports) > 0 { return true } // Get file content in case we don't already have it. parsed, _ := v.session.cache.ParseGo(f.Handle(ctx), source.ParseHeader).Parse(ctx) if parsed == nil { return true } // If the package name has changed, re-run `go list`. if f.meta.name != parsed.Name.Name { return true } // If the package's imports have changed, re-run `go list`. if len(f.imports) != len(parsed.Imports) { return true } for i, importSpec := range f.imports { if importSpec.Path.Value != parsed.Imports[i].Path.Value { return true } } return false } func (v *view) link(ctx context.Context, pkgPath packagePath, pkg *packages.Package, parent *metadata) *metadata { id := packageID(pkg.ID) m, ok := v.mcache.packages[id] // If a file was added or deleted we need to invalidate the package cache // so relevant packages get parsed and type checked again. if ok && !filenamesIdentical(m.files, pkg.CompiledGoFiles) { v.invalidatePackage(id) } // If we haven't seen this package before. if !ok { m = &metadata{ pkgPath: pkgPath, id: id, typesSizes: pkg.TypesSizes, parents: make(map[packageID]bool), children: make(map[packageID]bool), } v.mcache.packages[id] = m v.mcache.ids[pkgPath] = id } // Reset any field that could have changed across calls to packages.Load. m.name = pkg.Name m.files = pkg.CompiledGoFiles for _, filename := range m.files { if f, _ := v.getFile(span.FileURI(filename)); f != nil { if gof, ok := f.(*goFile); ok { gof.meta = m } else { v.Session().Logger().Errorf(ctx, "not a Go file: %s", f.URI()) } } } // Connect the import graph. if parent != nil { m.parents[parent.id] = true parent.children[id] = true } m.missingImports = make(map[packagePath]struct{}) for importPath, importPkg := range pkg.Imports { if len(importPkg.Errors) > 0 { m.missingImports[pkgPath] = struct{}{} } if _, ok := m.children[packageID(importPkg.ID)]; !ok { v.link(ctx, packagePath(importPath), importPkg, m) } } // Clear out any imports that have been removed. for importID := range m.children { child, ok := v.mcache.packages[importID] if !ok { continue } importPath := string(child.pkgPath) if _, ok := pkg.Imports[importPath]; ok { continue } delete(m.children, importID) delete(child.parents, id) } return m } // filenamesIdentical reports whether two sets of file names are identical. func filenamesIdentical(oldFiles, newFiles []string) bool { if len(oldFiles) != len(newFiles) { return false } oldByName := make(map[string]struct{}, len(oldFiles)) for _, filename := range oldFiles { oldByName[filename] = struct{}{} } for _, newFilename := range newFiles { if _, found := oldByName[newFilename]; !found { return false } delete(oldByName, newFilename) } return len(oldByName) == 0 }