// 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. package cache import ( "context" "fmt" "go/ast" "go/parser" "go/scanner" "go/token" "os" "path/filepath" "strings" "sync" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/memoize" "golang.org/x/tools/internal/span" ) // Limits the number of parallel parser calls per process. var parseLimit = make(chan bool, 20) type parseKey struct { file source.FileIdentity mode source.ParseMode } type parseGoHandle struct { handle *memoize.Handle file source.FileHandle mode source.ParseMode } type parseGoData struct { memoize.NoCopy ast *ast.File err error } func (c *cache) ParseGo(fh source.FileHandle, mode source.ParseMode) source.ParseGoHandle { key := parseKey{ file: fh.Identity(), mode: mode, } h := c.store.Bind(key, func(ctx context.Context) interface{} { data := &parseGoData{} data.ast, data.err = parseGo(ctx, c, fh, mode) return data }) return &parseGoHandle{ handle: h, } } func (h *parseGoHandle) File() source.FileHandle { return h.file } func (h *parseGoHandle) Mode() source.ParseMode { return h.mode } func (h *parseGoHandle) Parse(ctx context.Context) (*ast.File, error) { v := h.handle.Get(ctx) if v == nil { return nil, ctx.Err() } data := v.(*parseGoData) return data.ast, data.err } func parseGo(ctx context.Context, c *cache, fh source.FileHandle, mode source.ParseMode) (*ast.File, error) { buf, _, err := fh.Read(ctx) if err != nil { return nil, err } parseLimit <- true defer func() { <-parseLimit }() parserMode := parser.AllErrors | parser.ParseComments if mode == source.ParseHeader { parserMode = parser.ImportsOnly } ast, err := parser.ParseFile(c.fset, fh.Identity().URI.Filename(), buf, parserMode) if ast != nil { if mode == source.ParseExported { trimAST(ast) } // Fix any badly parsed parts of the AST. tok := c.fset.File(ast.Pos()) if err := fix(ctx, ast, tok, buf); err != nil { //TODO: we should do something with the error, but we have no access to a logger in here } } return ast, err } // parseFiles reads and parses the Go source files and returns the ASTs // of the ones that could be at least partially parsed, along with a list // parse errors encountered, and a fatal error that prevented parsing. // // Because files are scanned in parallel, the token.Pos // positions of the resulting ast.Files are not ordered. // func (imp *importer) parseFiles(filenames []string, ignoreFuncBodies bool) (map[string]*astFile, []error, error) { var ( wg sync.WaitGroup n = len(filenames) parsed = make([]*astFile, n) errors = make([]error, n) ) // TODO: change this function to return the handles for i, filename := range filenames { if err := imp.ctx.Err(); err != nil { return nil, nil, err } // get a file handle fh := imp.view.session.GetFile(span.FileURI(filename)) // now get a parser mode := source.ParseFull if ignoreFuncBodies { mode = source.ParseExported } ph := imp.view.session.cache.ParseGo(fh, mode) // now read and parse in parallel wg.Add(1) go func(i int, filename string) { defer wg.Done() // ParseFile may return a partial AST and an error. f, err := ph.Parse(imp.ctx) parsed[i], errors[i] = &astFile{ file: f, err: err, isTrimmed: ignoreFuncBodies, }, err }(i, filename) } wg.Wait() parsedByFilename := make(map[string]*astFile) for i, f := range parsed { if f.file != nil { parsedByFilename[filenames[i]] = f } } var o int for _, err := range errors { if err != nil { errors[o] = err o++ } } errors = errors[:o] return parsedByFilename, errors, nil } // sameFile returns true if x and y have the same basename and denote // the same file. // func sameFile(x, y string) bool { if x == y { // It could be the case that y doesn't exist. // For instance, it may be an overlay file that // hasn't been written to disk. To handle that case // let x == y through. (We added the exact absolute path // string to the CompiledGoFiles list, so the unwritten // overlay case implies x==y.) return true } if strings.EqualFold(filepath.Base(x), filepath.Base(y)) { // (optimisation) if xi, err := os.Stat(x); err == nil { if yi, err := os.Stat(y); err == nil { return os.SameFile(xi, yi) } } } return false } // trimAST clears any part of the AST not relevant to type checking // expressions at pos. func trimAST(file *ast.File) { ast.Inspect(file, func(n ast.Node) bool { if n == nil { return false } switch n := n.(type) { case *ast.FuncDecl: n.Body = nil case *ast.BlockStmt: n.List = nil case *ast.CaseClause: n.Body = nil case *ast.CommClause: n.Body = nil case *ast.CompositeLit: // Leave elts in place for [...]T // array literals, because they can // affect the expression's type. if !isEllipsisArray(n.Type) { n.Elts = nil } } return true }) } func isEllipsisArray(n ast.Expr) bool { at, ok := n.(*ast.ArrayType) if !ok { return false } _, ok = at.Len.(*ast.Ellipsis) return ok } // fix inspects and potentially modifies any *ast.BadStmts or *ast.BadExprs in the AST. // We attempt to modify the AST such that we can type-check it more effectively. func fix(ctx context.Context, file *ast.File, tok *token.File, src []byte) error { var parent ast.Node var err error ast.Inspect(file, func(n ast.Node) bool { if n == nil { return false } switch n := n.(type) { case *ast.BadStmt: if err := parseDeferOrGoStmt(n, parent, tok, src); err != nil { err = fmt.Errorf("unable to parse defer or go from *ast.BadStmt: %v", err) } return false default: parent = n return true } }) return err } // parseDeferOrGoStmt tries to parse an *ast.BadStmt into a defer or a go statement. // // go/parser packages a statement of the form "defer x." as an *ast.BadStmt because // it does not include a call expression. This means that go/types skips type-checking // this statement entirely, and we can't use the type information when completing. // Here, we try to generate a fake *ast.DeferStmt or *ast.GoStmt to put into the AST, // instead of the *ast.BadStmt. func parseDeferOrGoStmt(bad *ast.BadStmt, parent ast.Node, tok *token.File, src []byte) error { // Check if we have a bad statement containing either a "go" or "defer". s := &scanner.Scanner{} s.Init(tok, src, nil, 0) var pos token.Pos var tkn token.Token var lit string for { if tkn == token.EOF { return fmt.Errorf("reached the end of the file") } if pos >= bad.From { break } pos, tkn, lit = s.Scan() } var stmt ast.Stmt switch lit { case "defer": stmt = &ast.DeferStmt{ Defer: pos, } case "go": stmt = &ast.GoStmt{ Go: pos, } default: return fmt.Errorf("no defer or go statement found") } // The expression after the "defer" or "go" starts at this position. from, _, _ := s.Scan() var to, curr token.Pos FindTo: for { curr, tkn, lit = s.Scan() // TODO(rstambler): This still needs more handling to work correctly. // We encounter a specific issue with code that looks like this: // // defer x.<> // y := 1 // // In this scenario, we parse it as "defer x.y", which then fails to // type-check, and we don't get completions as expected. switch tkn { case token.COMMENT, token.EOF, token.SEMICOLON, token.DEFINE: break FindTo } // to is the end of expression that should become the Fun part of the call. to = curr } if !from.IsValid() || tok.Offset(from) >= len(src) { return fmt.Errorf("invalid from position") } if !to.IsValid() || tok.Offset(to)+1 >= len(src) { return fmt.Errorf("invalid to position") } exprstr := string(src[tok.Offset(from) : tok.Offset(to)+1]) expr, err := parser.ParseExpr(exprstr) if expr == nil { return fmt.Errorf("no expr in %s: %v", exprstr, err) } // parser.ParseExpr returns undefined positions. // Adjust them for the current file. offsetPositions(expr, from-1) // Package the expression into a fake *ast.CallExpr and re-insert into the function. call := &ast.CallExpr{ Fun: expr, Lparen: to, Rparen: to, } switch stmt := stmt.(type) { case *ast.DeferStmt: stmt.Call = call case *ast.GoStmt: stmt.Call = call } switch parent := parent.(type) { case *ast.BlockStmt: for i, s := range parent.List { if s == bad { parent.List[i] = stmt break } } } return nil } // offsetPositions applies an offset to the positions in an ast.Node. // TODO(rstambler): Add more cases here as they become necessary. func offsetPositions(expr ast.Expr, offset token.Pos) { ast.Inspect(expr, func(n ast.Node) bool { switch n := n.(type) { case *ast.Ident: n.NamePos += offset return false default: return true } }) }