// Copyright 2011 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. // This file implements a typechecker test harness. The packages specified // in tests are typechecked. Error messages reported by the typechecker are // compared against the error messages expected in the test files. // // Expected errors are indicated in the test files by putting a comment // of the form /* ERROR "rx" */ immediately following an offending token. // The harness will verify that an error matching the regular expression // rx is reported at that source position. Consecutive comments may be // used to indicate multiple errors for the same token position. // // For instance, the following test file indicates that a "not declared" // error should be reported for the undeclared variable x: // // package p // func f() { // _ = x /* ERROR "not declared" */ + 1 // } // TODO(gri) Also collect strict mode errors of the form /* STRICT ... */ // and test against strict mode. package types_test import ( "flag" "fmt" "go/ast" "go/importer" "go/internal/typeparams" "go/parser" "go/scanner" "go/token" "internal/testenv" "os" "path/filepath" "regexp" "strings" "testing" . "go/types" ) var ( haltOnError = flag.Bool("halt", false, "halt on error") verifyErrors = flag.Bool("verify", false, "verify errors (rather than list them) in TestManual") goVersion = flag.String("lang", "", "Go language version (e.g. \"go1.12\") for TestManual") ) var fset = token.NewFileSet() // Positioned errors are of the form filename:line:column: message . var posMsgRx = regexp.MustCompile(`^(.*:[0-9]+:[0-9]+): *(.*)`) // splitError splits an error's error message into a position string // and the actual error message. If there's no position information, // pos is the empty string, and msg is the entire error message. // func splitError(err error) (pos, msg string) { msg = err.Error() if m := posMsgRx.FindStringSubmatch(msg); len(m) == 3 { pos = m[1] msg = m[2] } return } func parseFiles(t *testing.T, filenames []string, srcs [][]byte, mode parser.Mode) ([]*ast.File, []error) { var files []*ast.File var errlist []error for i, filename := range filenames { file, err := parser.ParseFile(fset, filename, srcs[i], mode) if file == nil { t.Fatalf("%s: %s", filename, err) } files = append(files, file) if err != nil { if list, _ := err.(scanner.ErrorList); len(list) > 0 { for _, err := range list { errlist = append(errlist, err) } } else { errlist = append(errlist, err) } } } return files, errlist } // ERROR comments must start with text `ERROR "rx"` or `ERROR rx` where // rx is a regular expression that matches the expected error message. // Space around "rx" or rx is ignored. Use the form `ERROR HERE "rx"` // for error messages that are located immediately after rather than // at a token's position. // var errRx = regexp.MustCompile(`^ *ERROR *(HERE)? *"?([^"]*)"?`) // errMap collects the regular expressions of ERROR comments found // in files and returns them as a map of error positions to error messages. // // srcs must be a slice of the same length as files, containing the original // source for the parsed AST. func errMap(t *testing.T, files []*ast.File, srcs [][]byte) map[string][]string { // map of position strings to lists of error message patterns errmap := make(map[string][]string) for i, file := range files { tok := fset.File(file.Package) src := srcs[i] var s scanner.Scanner s.Init(tok, src, nil, scanner.ScanComments) var prev token.Pos // position of last non-comment, non-semicolon token var here token.Pos // position immediately after the token at position prev scanFile: for { pos, tok, lit := s.Scan() switch tok { case token.EOF: break scanFile case token.COMMENT: if lit[1] == '*' { lit = lit[:len(lit)-2] // strip trailing */ } if s := errRx.FindStringSubmatch(lit[2:]); len(s) == 3 { pos := prev if s[1] == "HERE" { pos = here } p := fset.Position(pos).String() errmap[p] = append(errmap[p], strings.TrimSpace(s[2])) } case token.SEMICOLON: // ignore automatically inserted semicolon if lit == "\n" { continue scanFile } fallthrough default: prev = pos var l int // token length if tok.IsLiteral() { l = len(lit) } else { l = len(tok.String()) } here = prev + token.Pos(l) } } } return errmap } func eliminate(t *testing.T, errmap map[string][]string, errlist []error) { for _, err := range errlist { pos, gotMsg := splitError(err) list := errmap[pos] index := -1 // list index of matching message, if any // we expect one of the messages in list to match the error at pos for i, wantRx := range list { rx, err := regexp.Compile(wantRx) if err != nil { t.Errorf("%s: %v", pos, err) continue } if rx.MatchString(gotMsg) { index = i break } } if index >= 0 { // eliminate from list if n := len(list) - 1; n > 0 { // not the last entry - swap in last element and shorten list by 1 list[index] = list[n] errmap[pos] = list[:n] } else { // last entry - remove list from map delete(errmap, pos) } } else { t.Errorf("%s: no error expected: %q", pos, gotMsg) } } } // goVersionRx matches a Go version string using '_', e.g. "go1_12". var goVersionRx = regexp.MustCompile(`^go[1-9][0-9]*_(0|[1-9][0-9]*)$`) // asGoVersion returns a regular Go language version string // if s is a Go version string using '_' rather than '.' to // separate the major and minor version numbers (e.g. "go1_12"). // Otherwise it returns the empty string. func asGoVersion(s string) string { if goVersionRx.MatchString(s) { return strings.Replace(s, "_", ".", 1) } return "" } func checkFiles(t *testing.T, sizes Sizes, goVersion string, filenames []string, srcs [][]byte, manual bool, imp Importer) { if len(filenames) == 0 { t.Fatal("no source files") } if strings.HasSuffix(filenames[0], ".go2") && !typeparams.Enabled { t.Skip("type params are not enabled") } if strings.HasSuffix(filenames[0], ".go1") && typeparams.Enabled { t.Skip("type params are enabled") } mode := parser.AllErrors if !strings.HasSuffix(filenames[0], ".go2") { mode |= typeparams.DisallowParsing } // parse files and collect parser errors files, errlist := parseFiles(t, filenames, srcs, mode) pkgName := "" if len(files) > 0 { pkgName = files[0].Name.Name } // if no Go version is given, consider the package name if goVersion == "" { goVersion = asGoVersion(pkgName) } listErrors := manual && !*verifyErrors if listErrors && len(errlist) > 0 { t.Errorf("--- %s:", pkgName) for _, err := range errlist { t.Error(err) } } // typecheck and collect typechecker errors var conf Config conf.Sizes = sizes SetGoVersion(&conf, goVersion) // special case for importC.src if len(filenames) == 1 { if strings.HasSuffix(filenames[0], "importC.src") { conf.FakeImportC = true } } conf.Importer = imp if imp == nil { conf.Importer = importer.Default() } conf.Error = func(err error) { if *haltOnError { defer panic(err) } if listErrors { t.Error(err) return } // Ignore secondary error messages starting with "\t"; // they are clarifying messages for a primary error. if !strings.Contains(err.Error(), ": \t") { errlist = append(errlist, err) } } conf.Check(pkgName, fset, files, nil) if listErrors { return } for _, err := range errlist { err, ok := err.(Error) if !ok { continue } code := readCode(err) if code == 0 { t.Errorf("missing error code: %v", err) } } // match and eliminate errors; // we are expecting the following errors errmap := errMap(t, files, srcs) eliminate(t, errmap, errlist) // there should be no expected errors left if len(errmap) > 0 { t.Errorf("--- %s: %d source positions with expected (but not reported) errors:", pkgName, len(errmap)) for pos, list := range errmap { for _, rx := range list { t.Errorf("%s: %q", pos, rx) } } } } // TestManual is for manual testing of input files, provided as a list // of arguments after the test arguments (and a separating "--"). For // instance, to check the files foo.go and bar.go, use: // // go test -run Manual -- foo.go bar.go // // Provide the -verify flag to verify errors against ERROR comments in // the input files rather than having a list of errors reported. // The accepted Go language version can be controlled with the -lang flag. func TestManual(t *testing.T) { filenames := flag.Args() if len(filenames) == 0 { return } testenv.MustHaveGoBuild(t) DefPredeclaredTestFuncs() testPkg(t, filenames, *goVersion, true) } func TestLongConstants(t *testing.T) { format := "package longconst\n\nconst _ = %s\nconst _ = %s // ERROR excessively long constant" src := fmt.Sprintf(format, strings.Repeat("1", 9999), strings.Repeat("1", 10001)) checkFiles(t, nil, "", []string{"longconst.go"}, [][]byte{[]byte(src)}, false, nil) } // TestIndexRepresentability tests that constant index operands must // be representable as int even if they already have a type that can // represent larger values. func TestIndexRepresentability(t *testing.T) { const src = "package index\n\nvar s []byte\nvar _ = s[int64 /* ERROR \"int64\\(1\\) << 40 \\(.*\\) overflows int\" */ (1) << 40]" checkFiles(t, &StdSizes{4, 4}, "", []string{"index.go"}, [][]byte{[]byte(src)}, false, nil) } func TestIssue46453(t *testing.T) { if typeparams.Enabled { t.Skip("type params are enabled") } const src = "package p\ntype _ comparable // ERROR \"undeclared name: comparable\"" checkFiles(t, nil, "", []string{"issue46453.go"}, [][]byte{[]byte(src)}, false, nil) } func TestIssue47243_TypedRHS(t *testing.T) { // The RHS of the shift expression below overflows uint on 32bit platforms, // but this is OK as it is explicitly typed. const src = "package issue47243\n\nvar a uint64; var _ = a << uint64(4294967296)" // uint64(1<<32) checkFiles(t, &StdSizes{4, 4}, "", []string{"p.go"}, [][]byte{[]byte(src)}, false, nil) } func TestCheck(t *testing.T) { DefPredeclaredTestFuncs(); testDir(t, "check") } func TestExamples(t *testing.T) { testDir(t, "examples") } func TestFixedbugs(t *testing.T) { testDir(t, "fixedbugs") } func testDir(t *testing.T, dir string) { testenv.MustHaveGoBuild(t) dir = filepath.Join("testdata", dir) fis, err := os.ReadDir(dir) if err != nil { t.Error(err) return } for _, fi := range fis { path := filepath.Join(dir, fi.Name()) // if fi is a directory, its files make up a single package var filenames []string if fi.IsDir() { fis, err := os.ReadDir(path) if err != nil { t.Error(err) continue } for _, fi := range fis { filenames = append(filenames, filepath.Join(path, fi.Name())) } } else { filenames = []string{path} } t.Run(filepath.Base(path), func(t *testing.T) { testPkg(t, filenames, "", false) }) } } // TODO(rFindley) reconcile the different test setup in go/types with types2. func testPkg(t *testing.T, filenames []string, goVersion string, manual bool) { srcs := make([][]byte, len(filenames)) for i, filename := range filenames { src, err := os.ReadFile(filename) if err != nil { t.Fatalf("could not read %s: %v", filename, err) } srcs[i] = src } checkFiles(t, nil, goVersion, filenames, srcs, manual, nil) }