// Copyright 2016 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 syntax import ( "bytes" "flag" "fmt" "internal/testenv" "os" "path/filepath" "regexp" "runtime" "strings" "sync" "testing" "time" ) var ( fast = flag.Bool("fast", false, "parse package files in parallel") verify = flag.Bool("verify", false, "verify idempotent printing") src_ = flag.String("src", "parser.go", "source file to parse") skip = flag.String("skip", "", "files matching this regular expression are skipped by TestStdLib") ) func TestParse(t *testing.T) { ParseFile(*src_, func(err error) { t.Error(err) }, nil, 0) } func TestVerify(t *testing.T) { ast, err := ParseFile(*src_, func(err error) { t.Error(err) }, nil, 0) if err != nil { return // error already reported } verifyPrint(t, *src_, ast) } func TestStdLib(t *testing.T) { if testing.Short() { t.Skip("skipping test in short mode") } var skipRx *regexp.Regexp if *skip != "" { var err error skipRx, err = regexp.Compile(*skip) if err != nil { t.Fatalf("invalid argument for -skip (%v)", err) } } var m1 runtime.MemStats runtime.ReadMemStats(&m1) start := time.Now() type parseResult struct { filename string lines uint } goroot := testenv.GOROOT(t) results := make(chan parseResult) go func() { defer close(results) for _, dir := range []string{ filepath.Join(goroot, "src"), filepath.Join(goroot, "misc"), } { if filepath.Base(dir) == "misc" { // cmd/distpack deletes GOROOT/misc, so skip that directory if it isn't present. // cmd/distpack also requires GOROOT/VERSION to exist, so use that to // suppress false-positive skips. if _, err := os.Stat(dir); os.IsNotExist(err) { if _, err := os.Stat(filepath.Join(testenv.GOROOT(t), "VERSION")); err == nil { fmt.Printf("%s not present; skipping\n", dir) continue } } } walkDirs(t, dir, func(filename string) { if skipRx != nil && skipRx.MatchString(filename) { // Always report skipped files since regexp // typos can lead to surprising results. fmt.Printf("skipping %s\n", filename) return } if debug { fmt.Printf("parsing %s\n", filename) } ast, err := ParseFile(filename, nil, nil, 0) if err != nil { t.Error(err) return } if *verify { verifyPrint(t, filename, ast) } results <- parseResult{filename, ast.EOF.Line()} }) } }() var count, lines uint for res := range results { count++ lines += res.lines if testing.Verbose() { fmt.Printf("%5d %s (%d lines)\n", count, res.filename, res.lines) } } dt := time.Since(start) var m2 runtime.MemStats runtime.ReadMemStats(&m2) dm := float64(m2.TotalAlloc-m1.TotalAlloc) / 1e6 fmt.Printf("parsed %d lines (%d files) in %v (%d lines/s)\n", lines, count, dt, int64(float64(lines)/dt.Seconds())) fmt.Printf("allocated %.3fMb (%.3fMb/s)\n", dm, dm/dt.Seconds()) } func walkDirs(t *testing.T, dir string, action func(string)) { entries, err := os.ReadDir(dir) if err != nil { t.Error(err) return } var files, dirs []string for _, entry := range entries { if entry.Type().IsRegular() { if strings.HasSuffix(entry.Name(), ".go") { path := filepath.Join(dir, entry.Name()) files = append(files, path) } } else if entry.IsDir() && entry.Name() != "testdata" { path := filepath.Join(dir, entry.Name()) if !strings.HasSuffix(path, string(filepath.Separator)+"test") { dirs = append(dirs, path) } } } if *fast { var wg sync.WaitGroup wg.Add(len(files)) for _, filename := range files { go func(filename string) { defer wg.Done() action(filename) }(filename) } wg.Wait() } else { for _, filename := range files { action(filename) } } for _, dir := range dirs { walkDirs(t, dir, action) } } func verifyPrint(t *testing.T, filename string, ast1 *File) { var buf1 bytes.Buffer _, err := Fprint(&buf1, ast1, LineForm) if err != nil { panic(err) } bytes1 := buf1.Bytes() ast2, err := Parse(NewFileBase(filename), &buf1, nil, nil, 0) if err != nil { panic(err) } var buf2 bytes.Buffer _, err = Fprint(&buf2, ast2, LineForm) if err != nil { panic(err) } bytes2 := buf2.Bytes() if bytes.Compare(bytes1, bytes2) != 0 { fmt.Printf("--- %s ---\n", filename) fmt.Printf("%s\n", bytes1) fmt.Println() fmt.Printf("--- %s ---\n", filename) fmt.Printf("%s\n", bytes2) fmt.Println() t.Error("printed syntax trees do not match") } } func TestIssue17697(t *testing.T) { _, err := Parse(nil, bytes.NewReader(nil), nil, nil, 0) // return with parser error, don't panic if err == nil { t.Errorf("no error reported") } } func TestParseFile(t *testing.T) { _, err := ParseFile("", nil, nil, 0) if err == nil { t.Error("missing io error") } var first error _, err = ParseFile("", func(err error) { if first == nil { first = err } }, nil, 0) if err == nil || first == nil { t.Error("missing io error") } if err != first { t.Errorf("got %v; want first error %v", err, first) } } // Make sure (PosMax + 1) doesn't overflow when converted to default // type int (when passed as argument to fmt.Sprintf) on 32bit platforms // (see test cases below). var tooLarge int = PosMax + 1 func TestLineDirectives(t *testing.T) { // valid line directives lead to a syntax error after them const valid = "syntax error: package statement must be first" const filename = "directives.go" for _, test := range []struct { src, msg string filename string line, col uint // 1-based; 0 means unknown }{ // ignored //line directives {"//\n", valid, filename, 2, 1}, // no directive {"//line\n", valid, filename, 2, 1}, // missing colon {"//line foo\n", valid, filename, 2, 1}, // missing colon {" //line foo:\n", valid, filename, 2, 1}, // not a line start {"// line foo:\n", valid, filename, 2, 1}, // space between // and line // invalid //line directives with one colon {"//line :\n", "invalid line number: ", filename, 1, 9}, {"//line :x\n", "invalid line number: x", filename, 1, 9}, {"//line foo :\n", "invalid line number: ", filename, 1, 13}, {"//line foo:x\n", "invalid line number: x", filename, 1, 12}, {"//line foo:0\n", "invalid line number: 0", filename, 1, 12}, {"//line foo:1 \n", "invalid line number: 1 ", filename, 1, 12}, {"//line foo:-12\n", "invalid line number: -12", filename, 1, 12}, {"//line C:foo:0\n", "invalid line number: 0", filename, 1, 14}, {fmt.Sprintf("//line foo:%d\n", tooLarge), fmt.Sprintf("invalid line number: %d", tooLarge), filename, 1, 12}, // invalid //line directives with two colons {"//line ::\n", "invalid line number: ", filename, 1, 10}, {"//line ::x\n", "invalid line number: x", filename, 1, 10}, {"//line foo::123abc\n", "invalid line number: 123abc", filename, 1, 13}, {"//line foo::0\n", "invalid line number: 0", filename, 1, 13}, {"//line foo:0:1\n", "invalid line number: 0", filename, 1, 12}, {"//line :123:0\n", "invalid column number: 0", filename, 1, 13}, {"//line foo:123:0\n", "invalid column number: 0", filename, 1, 16}, {fmt.Sprintf("//line foo:10:%d\n", tooLarge), fmt.Sprintf("invalid column number: %d", tooLarge), filename, 1, 15}, // effect of valid //line directives on lines {"//line foo:123\n foo", valid, "foo", 123, 0}, {"//line foo:123\n foo", valid, " foo", 123, 0}, {"//line foo:123\n//line bar:345\nfoo", valid, "bar", 345, 0}, {"//line C:foo:123\n", valid, "C:foo", 123, 0}, {"//line /src/a/a.go:123\n foo", valid, "/src/a/a.go", 123, 0}, {"//line :x:1\n", valid, ":x", 1, 0}, {"//line foo ::1\n", valid, "foo :", 1, 0}, {"//line foo:123abc:1\n", valid, "foo:123abc", 1, 0}, {"//line foo :123:1\n", valid, "foo ", 123, 1}, {"//line ::123\n", valid, ":", 123, 0}, // effect of valid //line directives on columns {"//line :x:1:10\n", valid, ":x", 1, 10}, {"//line foo ::1:2\n", valid, "foo :", 1, 2}, {"//line foo:123abc:1:1000\n", valid, "foo:123abc", 1, 1000}, {"//line foo :123:1000\n\n", valid, "foo ", 124, 1}, {"//line ::123:1234\n", valid, ":", 123, 1234}, // //line directives with omitted filenames lead to empty filenames {"//line :10\n", valid, "", 10, 0}, {"//line :10:20\n", valid, filename, 10, 20}, {"//line bar:1\n//line :10\n", valid, "", 10, 0}, {"//line bar:1\n//line :10:20\n", valid, "bar", 10, 20}, // ignored /*line directives {"/**/", valid, filename, 1, 5}, // no directive {"/*line*/", valid, filename, 1, 9}, // missing colon {"/*line foo*/", valid, filename, 1, 13}, // missing colon {" //line foo:*/", valid, filename, 1, 16}, // not a line start {"/* line foo:*/", valid, filename, 1, 16}, // space between // and line // invalid /*line directives with one colon {"/*line :*/", "invalid line number: ", filename, 1, 9}, {"/*line :x*/", "invalid line number: x", filename, 1, 9}, {"/*line foo :*/", "invalid line number: ", filename, 1, 13}, {"/*line foo:x*/", "invalid line number: x", filename, 1, 12}, {"/*line foo:0*/", "invalid line number: 0", filename, 1, 12}, {"/*line foo:1 */", "invalid line number: 1 ", filename, 1, 12}, {"/*line C:foo:0*/", "invalid line number: 0", filename, 1, 14}, {fmt.Sprintf("/*line foo:%d*/", tooLarge), fmt.Sprintf("invalid line number: %d", tooLarge), filename, 1, 12}, // invalid /*line directives with two colons {"/*line ::*/", "invalid line number: ", filename, 1, 10}, {"/*line ::x*/", "invalid line number: x", filename, 1, 10}, {"/*line foo::123abc*/", "invalid line number: 123abc", filename, 1, 13}, {"/*line foo::0*/", "invalid line number: 0", filename, 1, 13}, {"/*line foo:0:1*/", "invalid line number: 0", filename, 1, 12}, {"/*line :123:0*/", "invalid column number: 0", filename, 1, 13}, {"/*line foo:123:0*/", "invalid column number: 0", filename, 1, 16}, {fmt.Sprintf("/*line foo:10:%d*/", tooLarge), fmt.Sprintf("invalid column number: %d", tooLarge), filename, 1, 15}, // effect of valid /*line directives on lines {"/*line foo:123*/ foo", valid, "foo", 123, 0}, {"/*line foo:123*/\n//line bar:345\nfoo", valid, "bar", 345, 0}, {"/*line C:foo:123*/", valid, "C:foo", 123, 0}, {"/*line /src/a/a.go:123*/ foo", valid, "/src/a/a.go", 123, 0}, {"/*line :x:1*/", valid, ":x", 1, 0}, {"/*line foo ::1*/", valid, "foo :", 1, 0}, {"/*line foo:123abc:1*/", valid, "foo:123abc", 1, 0}, {"/*line foo :123:10*/", valid, "foo ", 123, 10}, {"/*line ::123*/", valid, ":", 123, 0}, // effect of valid /*line directives on columns {"/*line :x:1:10*/", valid, ":x", 1, 10}, {"/*line foo ::1:2*/", valid, "foo :", 1, 2}, {"/*line foo:123abc:1:1000*/", valid, "foo:123abc", 1, 1000}, {"/*line foo :123:1000*/\n", valid, "foo ", 124, 1}, {"/*line ::123:1234*/", valid, ":", 123, 1234}, // /*line directives with omitted filenames lead to the previously used filenames {"/*line :10*/", valid, "", 10, 0}, {"/*line :10:20*/", valid, filename, 10, 20}, {"//line bar:1\n/*line :10*/", valid, "", 10, 0}, {"//line bar:1\n/*line :10:20*/", valid, "bar", 10, 20}, } { base := NewFileBase(filename) _, err := Parse(base, strings.NewReader(test.src), nil, nil, 0) if err == nil { t.Errorf("%s: no error reported", test.src) continue } perr, ok := err.(Error) if !ok { t.Errorf("%s: got %v; want parser error", test.src, err) continue } if msg := perr.Msg; msg != test.msg { t.Errorf("%s: got msg = %q; want %q", test.src, msg, test.msg) } pos := perr.Pos if filename := pos.RelFilename(); filename != test.filename { t.Errorf("%s: got filename = %q; want %q", test.src, filename, test.filename) } if line := pos.RelLine(); line != test.line { t.Errorf("%s: got line = %d; want %d", test.src, line, test.line) } if col := pos.RelCol(); col != test.col { t.Errorf("%s: got col = %d; want %d", test.src, col, test.col) } } } // Test that typical uses of UnpackListExpr don't allocate. func TestUnpackListExprAllocs(t *testing.T) { var x Expr = NewName(Pos{}, "x") allocs := testing.AllocsPerRun(1000, func() { list := UnpackListExpr(x) if len(list) != 1 || list[0] != x { t.Fatalf("unexpected result") } }) if allocs > 0 { errorf := t.Errorf if testenv.OptimizationOff() { errorf = t.Logf // noopt builder disables inlining } errorf("UnpackListExpr allocated %v times", allocs) } }