// Copyright 2009 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 parser import ( "fmt" "go/ast" "go/token" "io/fs" "strings" "testing" ) var validFiles = []string{ "parser.go", "parser_test.go", "error_test.go", "short_test.go", } func TestParse(t *testing.T) { for _, filename := range validFiles { _, err := ParseFile(token.NewFileSet(), filename, nil, DeclarationErrors) if err != nil { t.Fatalf("ParseFile(%s): %v", filename, err) } } } func nameFilter(filename string) bool { switch filename { case "parser.go", "interface.go", "parser_test.go": return true case "parser.go.orig": return true // permit but should be ignored by ParseDir } return false } func dirFilter(f fs.FileInfo) bool { return nameFilter(f.Name()) } func TestParseFile(t *testing.T) { src := "package p\nvar _=s[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]" _, err := ParseFile(token.NewFileSet(), "", src, 0) if err == nil { t.Errorf("ParseFile(%s) succeeded unexpectedly", src) } } func TestParseExprFrom(t *testing.T) { src := "s[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]+\ns[::]" _, err := ParseExprFrom(token.NewFileSet(), "", src, 0) if err == nil { t.Errorf("ParseExprFrom(%s) succeeded unexpectedly", src) } } func TestParseDir(t *testing.T) { path := "." pkgs, err := ParseDir(token.NewFileSet(), path, dirFilter, 0) if err != nil { t.Fatalf("ParseDir(%s): %v", path, err) } if n := len(pkgs); n != 1 { t.Errorf("got %d packages; want 1", n) } pkg := pkgs["parser"] if pkg == nil { t.Errorf(`package "parser" not found`) return } if n := len(pkg.Files); n != 3 { t.Errorf("got %d package files; want 3", n) } for filename := range pkg.Files { if !nameFilter(filename) { t.Errorf("unexpected package file: %s", filename) } } } func TestIssue42951(t *testing.T) { path := "./testdata/issue42951" _, err := ParseDir(token.NewFileSet(), path, nil, 0) if err != nil { t.Errorf("ParseDir(%s): %v", path, err) } } func TestParseExpr(t *testing.T) { // just kicking the tires: // a valid arithmetic expression src := "a + b" x, err := ParseExpr(src) if err != nil { t.Errorf("ParseExpr(%q): %v", src, err) } // sanity check if _, ok := x.(*ast.BinaryExpr); !ok { t.Errorf("ParseExpr(%q): got %T, want *ast.BinaryExpr", src, x) } // a valid type expression src = "struct{x *int}" x, err = ParseExpr(src) if err != nil { t.Errorf("ParseExpr(%q): %v", src, err) } // sanity check if _, ok := x.(*ast.StructType); !ok { t.Errorf("ParseExpr(%q): got %T, want *ast.StructType", src, x) } // an invalid expression src = "a + *" x, err = ParseExpr(src) if err == nil { t.Errorf("ParseExpr(%q): got no error", src) } if x == nil { t.Errorf("ParseExpr(%q): got no (partial) result", src) } if _, ok := x.(*ast.BinaryExpr); !ok { t.Errorf("ParseExpr(%q): got %T, want *ast.BinaryExpr", src, x) } // a valid expression followed by extra tokens is invalid src = "a[i] := x" if _, err := ParseExpr(src); err == nil { t.Errorf("ParseExpr(%q): got no error", src) } // a semicolon is not permitted unless automatically inserted src = "a + b\n" if _, err := ParseExpr(src); err != nil { t.Errorf("ParseExpr(%q): got error %s", src, err) } src = "a + b;" if _, err := ParseExpr(src); err == nil { t.Errorf("ParseExpr(%q): got no error", src) } // various other stuff following a valid expression const validExpr = "a + b" const anything = "dh3*#D)#_" for _, c := range "!)]};," { src := validExpr + string(c) + anything if _, err := ParseExpr(src); err == nil { t.Errorf("ParseExpr(%q): got no error", src) } } // ParseExpr must not crash for _, src := range valids { ParseExpr(src) } } func TestColonEqualsScope(t *testing.T) { f, err := ParseFile(token.NewFileSet(), "", `package p; func f() { x, y, z := x, y, z }`, 0) if err != nil { t.Fatal(err) } // RHS refers to undefined globals; LHS does not. as := f.Decls[0].(*ast.FuncDecl).Body.List[0].(*ast.AssignStmt) for _, v := range as.Rhs { id := v.(*ast.Ident) if id.Obj != nil { t.Errorf("rhs %s has Obj, should not", id.Name) } } for _, v := range as.Lhs { id := v.(*ast.Ident) if id.Obj == nil { t.Errorf("lhs %s does not have Obj, should", id.Name) } } } func TestVarScope(t *testing.T) { f, err := ParseFile(token.NewFileSet(), "", `package p; func f() { var x, y, z = x, y, z }`, 0) if err != nil { t.Fatal(err) } // RHS refers to undefined globals; LHS does not. as := f.Decls[0].(*ast.FuncDecl).Body.List[0].(*ast.DeclStmt).Decl.(*ast.GenDecl).Specs[0].(*ast.ValueSpec) for _, v := range as.Values { id := v.(*ast.Ident) if id.Obj != nil { t.Errorf("rhs %s has Obj, should not", id.Name) } } for _, id := range as.Names { if id.Obj == nil { t.Errorf("lhs %s does not have Obj, should", id.Name) } } } func TestObjects(t *testing.T) { const src = ` package p import fmt "fmt" const pi = 3.14 type T struct{} var x int func f() { L: } ` f, err := ParseFile(token.NewFileSet(), "", src, 0) if err != nil { t.Fatal(err) } objects := map[string]ast.ObjKind{ "p": ast.Bad, // not in a scope "fmt": ast.Bad, // not resolved yet "pi": ast.Con, "T": ast.Typ, "x": ast.Var, "int": ast.Bad, // not resolved yet "f": ast.Fun, "L": ast.Lbl, } ast.Inspect(f, func(n ast.Node) bool { if ident, ok := n.(*ast.Ident); ok { obj := ident.Obj if obj == nil { if objects[ident.Name] != ast.Bad { t.Errorf("no object for %s", ident.Name) } return true } if obj.Name != ident.Name { t.Errorf("names don't match: obj.Name = %s, ident.Name = %s", obj.Name, ident.Name) } kind := objects[ident.Name] if obj.Kind != kind { t.Errorf("%s: obj.Kind = %s; want %s", ident.Name, obj.Kind, kind) } } return true }) } func TestUnresolved(t *testing.T) { f, err := ParseFile(token.NewFileSet(), "", ` package p // func f1a(int) func f2a(byte, int, float) func f3a(a, b int, c float) func f4a(...complex) func f5a(a s1a, b ...complex) // func f1b(*int) func f2b([]byte, (int), *float) func f3b(a, b *int, c []float) func f4b(...*complex) func f5b(a s1a, b ...[]complex) // type s1a struct { int } type s2a struct { byte; int; s1a } type s3a struct { a, b int; c float } // type s1b struct { *int } type s2b struct { byte; int; *float } type s3b struct { a, b *s3b; c []float } `, 0) if err != nil { t.Fatal(err) } want := "int " + // f1a "byte int float " + // f2a "int float " + // f3a "complex " + // f4a "complex " + // f5a // "int " + // f1b "byte int float " + // f2b "int float " + // f3b "complex " + // f4b "complex " + // f5b // "int " + // s1a "byte int " + // s2a "int float " + // s3a // "int " + // s1a "byte int float " + // s2a "float " // s3a // collect unresolved identifiers var buf strings.Builder for _, u := range f.Unresolved { buf.WriteString(u.Name) buf.WriteByte(' ') } got := buf.String() if got != want { t.Errorf("\ngot: %s\nwant: %s", got, want) } } func TestCommentGroups(t *testing.T) { f, err := ParseFile(token.NewFileSet(), "", ` package p /* 1a */ /* 1b */ /* 1c */ // 1d /* 2a */ // 2b const pi = 3.1415 /* 3a */ // 3b /* 3c */ const e = 2.7182 // Example from go.dev/issue/3139 func ExampleCount() { fmt.Println(strings.Count("cheese", "e")) fmt.Println(strings.Count("five", "")) // before & after each rune // Output: // 3 // 5 } `, ParseComments) if err != nil { t.Fatal(err) } expected := [][]string{ {"/* 1a */", "/* 1b */", "/* 1c */", "// 1d"}, {"/* 2a\n*/", "// 2b"}, {"/* 3a */", "// 3b", "/* 3c */"}, {"// Example from go.dev/issue/3139"}, {"// before & after each rune"}, {"// Output:", "// 3", "// 5"}, } if len(f.Comments) != len(expected) { t.Fatalf("got %d comment groups; expected %d", len(f.Comments), len(expected)) } for i, exp := range expected { got := f.Comments[i].List if len(got) != len(exp) { t.Errorf("got %d comments in group %d; expected %d", len(got), i, len(exp)) continue } for j, exp := range exp { got := got[j].Text if got != exp { t.Errorf("got %q in group %d; expected %q", got, i, exp) } } } } func getField(file *ast.File, fieldname string) *ast.Field { parts := strings.Split(fieldname, ".") for _, d := range file.Decls { if d, ok := d.(*ast.GenDecl); ok && d.Tok == token.TYPE { for _, s := range d.Specs { if s, ok := s.(*ast.TypeSpec); ok && s.Name.Name == parts[0] { if s, ok := s.Type.(*ast.StructType); ok { for _, f := range s.Fields.List { for _, name := range f.Names { if name.Name == parts[1] { return f } } } } } } } } return nil } // Don't use ast.CommentGroup.Text() - we want to see exact comment text. func commentText(c *ast.CommentGroup) string { var buf strings.Builder if c != nil { for _, c := range c.List { buf.WriteString(c.Text) } } return buf.String() } func checkFieldComments(t *testing.T, file *ast.File, fieldname, lead, line string) { f := getField(file, fieldname) if f == nil { t.Fatalf("field not found: %s", fieldname) } if got := commentText(f.Doc); got != lead { t.Errorf("got lead comment %q; expected %q", got, lead) } if got := commentText(f.Comment); got != line { t.Errorf("got line comment %q; expected %q", got, line) } } func TestLeadAndLineComments(t *testing.T) { f, err := ParseFile(token.NewFileSet(), "", ` package p type T struct { /* F1 lead comment */ // F1 int /* F1 */ // line comment // F2 lead // comment F2 int // F2 line comment // f3 lead comment f3 int // f3 line comment f4 int /* not a line comment */ ; f5 int ; // f5 line comment f6 int ; /* f6 line comment */ f7 int ; /*f7a*/ /*f7b*/ //f7c } `, ParseComments) if err != nil { t.Fatal(err) } checkFieldComments(t, f, "T.F1", "/* F1 lead comment *///", "/* F1 */// line comment") checkFieldComments(t, f, "T.F2", "// F2 lead// comment", "// F2 line comment") checkFieldComments(t, f, "T.f3", "// f3 lead comment", "// f3 line comment") checkFieldComments(t, f, "T.f4", "", "") checkFieldComments(t, f, "T.f5", "", "// f5 line comment") checkFieldComments(t, f, "T.f6", "", "/* f6 line comment */") checkFieldComments(t, f, "T.f7", "", "/*f7a*//*f7b*///f7c") ast.FileExports(f) checkFieldComments(t, f, "T.F1", "/* F1 lead comment *///", "/* F1 */// line comment") checkFieldComments(t, f, "T.F2", "// F2 lead// comment", "// F2 line comment") if getField(f, "T.f3") != nil { t.Error("not expected to find T.f3") } } // TestIssue9979 verifies that empty statements are contained within their enclosing blocks. func TestIssue9979(t *testing.T) { for _, src := range []string{ "package p; func f() {;}", "package p; func f() {L:}", "package p; func f() {L:;}", "package p; func f() {L:\n}", "package p; func f() {L:\n;}", "package p; func f() { ; }", "package p; func f() { L: }", "package p; func f() { L: ; }", "package p; func f() { L: \n}", "package p; func f() { L: \n; }", } { fset := token.NewFileSet() f, err := ParseFile(fset, "", src, 0) if err != nil { t.Fatal(err) } var pos, end token.Pos ast.Inspect(f, func(x ast.Node) bool { switch s := x.(type) { case *ast.BlockStmt: pos, end = s.Pos()+1, s.End()-1 // exclude "{", "}" case *ast.LabeledStmt: pos, end = s.Pos()+2, s.End() // exclude "L:" case *ast.EmptyStmt: // check containment if s.Pos() < pos || s.End() > end { t.Errorf("%s: %T[%d, %d] not inside [%d, %d]", src, s, s.Pos(), s.End(), pos, end) } // check semicolon offs := fset.Position(s.Pos()).Offset if ch := src[offs]; ch != ';' != s.Implicit { want := "want ';'" if s.Implicit { want = "but ';' is implicit" } t.Errorf("%s: found %q at offset %d; %s", src, ch, offs, want) } } return true }) } } func TestFileStartEndPos(t *testing.T) { const src = `// Copyright //+build tag // Package p doc comment. package p var lastDecl int /* end of file */ ` fset := token.NewFileSet() f, err := ParseFile(fset, "file.go", src, 0) if err != nil { t.Fatal(err) } // File{Start,End} spans the entire file, not just the declarations. if got, want := fset.Position(f.FileStart).String(), "file.go:1:1"; got != want { t.Errorf("for File.FileStart, got %s, want %s", got, want) } // The end position is the newline at the end of the /* end of file */ line. if got, want := fset.Position(f.FileEnd).String(), "file.go:10:19"; got != want { t.Errorf("for File.FileEnd, got %s, want %s", got, want) } } // TestIncompleteSelection ensures that an incomplete selector // expression is parsed as a (blank) *ast.SelectorExpr, not a // *ast.BadExpr. func TestIncompleteSelection(t *testing.T) { for _, src := range []string{ "package p; var _ = fmt.", // at EOF "package p; var _ = fmt.\ntype X int", // not at EOF } { fset := token.NewFileSet() f, err := ParseFile(fset, "", src, 0) if err == nil { t.Errorf("ParseFile(%s) succeeded unexpectedly", src) continue } const wantErr = "expected selector or type assertion" if !strings.Contains(err.Error(), wantErr) { t.Errorf("ParseFile returned wrong error %q, want %q", err, wantErr) } var sel *ast.SelectorExpr ast.Inspect(f, func(n ast.Node) bool { if n, ok := n.(*ast.SelectorExpr); ok { sel = n } return true }) if sel == nil { t.Error("found no *ast.SelectorExpr") continue } const wantSel = "&{fmt _}" if fmt.Sprint(sel) != wantSel { t.Errorf("found selector %s, want %s", sel, wantSel) continue } } } func TestLastLineComment(t *testing.T) { const src = `package main type x int // comment ` fset := token.NewFileSet() f, err := ParseFile(fset, "", src, ParseComments) if err != nil { t.Fatal(err) } comment := f.Decls[0].(*ast.GenDecl).Specs[0].(*ast.TypeSpec).Comment.List[0].Text if comment != "// comment" { t.Errorf("got %q, want %q", comment, "// comment") } } var parseDepthTests = []struct { name string format string // parseMultiplier is used when a single statement may result in more than one // change in the depth level, for instance "1+(..." produces a BinaryExpr // followed by a UnaryExpr, which increments the depth twice. The test // case comment explains which nodes are triggering the multiple depth // changes. parseMultiplier int // scope is true if we should also test the statement for the resolver scope // depth limit. scope bool // scopeMultiplier does the same as parseMultiplier, but for the scope // depths. scopeMultiplier int }{ // The format expands the part inside « » many times. // A second set of brackets nested inside the first stops the repetition, // so that for example «(«1»)» expands to (((...((((1))))...))). {name: "array", format: "package main; var x «[1]»int"}, {name: "slice", format: "package main; var x «[]»int"}, {name: "struct", format: "package main; var x «struct { X «int» }»", scope: true}, {name: "pointer", format: "package main; var x «*»int"}, {name: "func", format: "package main; var x «func()»int", scope: true}, {name: "chan", format: "package main; var x «chan »int"}, {name: "chan2", format: "package main; var x «<-chan »int"}, {name: "interface", format: "package main; var x «interface { M() «int» }»", scope: true, scopeMultiplier: 2}, // Scopes: InterfaceType, FuncType {name: "map", format: "package main; var x «map[int]»int"}, {name: "slicelit", format: "package main; var x = []any{«[]any{«»}»}", parseMultiplier: 3}, // Parser nodes: UnaryExpr, CompositeLit {name: "arraylit", format: "package main; var x = «[1]any{«nil»}»", parseMultiplier: 3}, // Parser nodes: UnaryExpr, CompositeLit {name: "structlit", format: "package main; var x = «struct{x any}{«nil»}»", parseMultiplier: 3}, // Parser nodes: UnaryExpr, CompositeLit {name: "maplit", format: "package main; var x = «map[int]any{1:«nil»}»", parseMultiplier: 3}, // Parser nodes: CompositeLit, KeyValueExpr {name: "element", format: "package main; var x = struct{x any}{x: «{«»}»}"}, {name: "dot", format: "package main; var x = «x.»x"}, {name: "index", format: "package main; var x = x«[1]»"}, {name: "slice", format: "package main; var x = x«[1:2]»"}, {name: "slice3", format: "package main; var x = x«[1:2:3]»"}, {name: "dottype", format: "package main; var x = x«.(any)»"}, {name: "callseq", format: "package main; var x = x«()»"}, {name: "methseq", format: "package main; var x = x«.m()»", parseMultiplier: 2}, // Parser nodes: SelectorExpr, CallExpr {name: "binary", format: "package main; var x = «1+»1"}, {name: "binaryparen", format: "package main; var x = «1+(«1»)»", parseMultiplier: 2}, // Parser nodes: BinaryExpr, ParenExpr {name: "unary", format: "package main; var x = «^»1"}, {name: "addr", format: "package main; var x = «& »x"}, {name: "star", format: "package main; var x = «*»x"}, {name: "recv", format: "package main; var x = «<-»x"}, {name: "call", format: "package main; var x = «f(«1»)»", parseMultiplier: 2}, // Parser nodes: Ident, CallExpr {name: "conv", format: "package main; var x = «(*T)(«1»)»", parseMultiplier: 2}, // Parser nodes: ParenExpr, CallExpr {name: "label", format: "package main; func main() { «Label:» }"}, {name: "if", format: "package main; func main() { «if true { «» }»}", parseMultiplier: 2, scope: true, scopeMultiplier: 2}, // Parser nodes: IfStmt, BlockStmt. Scopes: IfStmt, BlockStmt {name: "ifelse", format: "package main; func main() { «if true {} else » {} }", scope: true}, {name: "switch", format: "package main; func main() { «switch { default: «» }»}", scope: true, scopeMultiplier: 2}, // Scopes: TypeSwitchStmt, CaseClause {name: "typeswitch", format: "package main; func main() { «switch x.(type) { default: «» }» }", scope: true, scopeMultiplier: 2}, // Scopes: TypeSwitchStmt, CaseClause {name: "for0", format: "package main; func main() { «for { «» }» }", scope: true, scopeMultiplier: 2}, // Scopes: ForStmt, BlockStmt {name: "for1", format: "package main; func main() { «for x { «» }» }", scope: true, scopeMultiplier: 2}, // Scopes: ForStmt, BlockStmt {name: "for3", format: "package main; func main() { «for f(); g(); h() { «» }» }", scope: true, scopeMultiplier: 2}, // Scopes: ForStmt, BlockStmt {name: "forrange0", format: "package main; func main() { «for range x { «» }» }", scope: true, scopeMultiplier: 2}, // Scopes: RangeStmt, BlockStmt {name: "forrange1", format: "package main; func main() { «for x = range z { «» }» }", scope: true, scopeMultiplier: 2}, // Scopes: RangeStmt, BlockStmt {name: "forrange2", format: "package main; func main() { «for x, y = range z { «» }» }", scope: true, scopeMultiplier: 2}, // Scopes: RangeStmt, BlockStmt {name: "go", format: "package main; func main() { «go func() { «» }()» }", parseMultiplier: 2, scope: true}, // Parser nodes: GoStmt, FuncLit {name: "defer", format: "package main; func main() { «defer func() { «» }()» }", parseMultiplier: 2, scope: true}, // Parser nodes: DeferStmt, FuncLit {name: "select", format: "package main; func main() { «select { default: «» }» }", scope: true}, } // split splits pre«mid»post into pre, mid, post. // If the string does not have that form, split returns x, "", "". func split(x string) (pre, mid, post string) { start, end := strings.Index(x, "«"), strings.LastIndex(x, "»") if start < 0 || end < 0 { return x, "", "" } return x[:start], x[start+len("«") : end], x[end+len("»"):] } func TestParseDepthLimit(t *testing.T) { if testing.Short() { t.Skip("test requires significant memory") } for _, tt := range parseDepthTests { for _, size := range []string{"small", "big"} { t.Run(tt.name+"/"+size, func(t *testing.T) { n := maxNestLev + 1 if tt.parseMultiplier > 0 { n /= tt.parseMultiplier } if size == "small" { // Decrease the number of statements by 10, in order to check // that we do not fail when under the limit. 10 is used to // provide some wiggle room for cases where the surrounding // scaffolding syntax adds some noise to the depth that changes // on a per testcase basis. n -= 10 } pre, mid, post := split(tt.format) if strings.Contains(mid, "«") { left, base, right := split(mid) mid = strings.Repeat(left, n) + base + strings.Repeat(right, n) } else { mid = strings.Repeat(mid, n) } input := pre + mid + post fset := token.NewFileSet() _, err := ParseFile(fset, "", input, ParseComments|SkipObjectResolution) if size == "small" { if err != nil { t.Errorf("ParseFile(...): %v (want success)", err) } } else { expected := "exceeded max nesting depth" if err == nil || !strings.HasSuffix(err.Error(), expected) { t.Errorf("ParseFile(...) = _, %v, want %q", err, expected) } } }) } } } func TestScopeDepthLimit(t *testing.T) { for _, tt := range parseDepthTests { if !tt.scope { continue } for _, size := range []string{"small", "big"} { t.Run(tt.name+"/"+size, func(t *testing.T) { n := maxScopeDepth + 1 if tt.scopeMultiplier > 0 { n /= tt.scopeMultiplier } if size == "small" { // Decrease the number of statements by 10, in order to check // that we do not fail when under the limit. 10 is used to // provide some wiggle room for cases where the surrounding // scaffolding syntax adds some noise to the depth that changes // on a per testcase basis. n -= 10 } pre, mid, post := split(tt.format) if strings.Contains(mid, "«") { left, base, right := split(mid) mid = strings.Repeat(left, n) + base + strings.Repeat(right, n) } else { mid = strings.Repeat(mid, n) } input := pre + mid + post fset := token.NewFileSet() _, err := ParseFile(fset, "", input, DeclarationErrors) if size == "small" { if err != nil { t.Errorf("ParseFile(...): %v (want success)", err) } } else { expected := "exceeded max scope depth during object resolution" if err == nil || !strings.HasSuffix(err.Error(), expected) { t.Errorf("ParseFile(...) = _, %v, want %q", err, expected) } } }) } } } // proposal go.dev/issue/50429 func TestRangePos(t *testing.T) { testcases := []string{ "package p; func _() { for range x {} }", "package p; func _() { for i = range x {} }", "package p; func _() { for i := range x {} }", "package p; func _() { for k, v = range x {} }", "package p; func _() { for k, v := range x {} }", } for _, src := range testcases { fset := token.NewFileSet() f, err := ParseFile(fset, src, src, 0) if err != nil { t.Fatal(err) } ast.Inspect(f, func(x ast.Node) bool { switch s := x.(type) { case *ast.RangeStmt: pos := fset.Position(s.Range) if pos.Offset != strings.Index(src, "range") { t.Errorf("%s: got offset %v, want %v", src, pos.Offset, strings.Index(src, "range")) } } return true }) } } // TestIssue59180 tests that line number overflow doesn't cause an infinite loop. func TestIssue59180(t *testing.T) { testcases := []string{ "package p\n//line :9223372036854775806\n\n//", "package p\n//line :1:9223372036854775806\n\n//", "package p\n//line file:9223372036854775806\n\n//", } for _, src := range testcases { _, err := ParseFile(token.NewFileSet(), "", src, ParseComments) if err == nil { t.Errorf("ParseFile(%s) succeeded unexpectedly", src) } } } func TestGoVersion(t *testing.T) { fset := token.NewFileSet() pkgs, err := ParseDir(fset, "./testdata/goversion", nil, 0) if err != nil { t.Fatal(err) } for _, p := range pkgs { want := strings.ReplaceAll(p.Name, "_", ".") if want == "none" { want = "" } for _, f := range p.Files { if f.GoVersion != want { t.Errorf("%s: GoVersion = %q, want %q", fset.Position(f.Pos()), f.GoVersion, want) } } } } func TestIssue57490(t *testing.T) { src := `package p; func f() { var x struct` // program not correctly terminated fset := token.NewFileSet() file, err := ParseFile(fset, "", src, 0) if err == nil { t.Fatalf("syntax error expected, but no error reported") } // Because of the syntax error, the end position of the function declaration // is past the end of the file's position range. funcEnd := file.Decls[0].End() // Offset(funcEnd) must not panic (to test panic, set debug=true in token package) // (panic: offset 35 out of bounds [0, 34] (position 36 out of bounds [1, 35])) tokFile := fset.File(file.Pos()) offset := tokFile.Offset(funcEnd) if offset != tokFile.Size() { t.Fatalf("offset = %d, want %d", offset, tokFile.Size()) } } func TestParseTypeParamsAsParenExpr(t *testing.T) { const src = "package p; type X[A (B),] struct{}" fset := token.NewFileSet() f, err := ParseFile(fset, "test.go", src, ParseComments|SkipObjectResolution) if err != nil { t.Fatal(err) } typeParam := f.Decls[0].(*ast.GenDecl).Specs[0].(*ast.TypeSpec).TypeParams.List[0].Type _, ok := typeParam.(*ast.ParenExpr) if !ok { t.Fatalf("typeParam is a %T; want: *ast.ParenExpr", typeParam) } } // TestEmptyFileHasValidStartEnd is a regression test for #70162. func TestEmptyFileHasValidStartEnd(t *testing.T) { for _, test := range []struct { src string want string // "Pos() FileStart FileEnd" }{ {src: "", want: "0 1 1"}, {src: "package ", want: "0 1 9"}, {src: "package p", want: "1 1 10"}, {src: "type T int", want: "0 1 11"}, } { fset := token.NewFileSet() f, _ := ParseFile(fset, "a.go", test.src, 0) got := fmt.Sprintf("%d %d %d", f.Pos(), f.FileStart, f.FileEnd) if got != test.want { t.Fatalf("src = %q: got %s, want %s", test.src, got, test.want) } } }