package test import ( "bufio" "bytes" "fmt" "go/ast" "go/parser" "go/printer" "go/token" "go/types" "io/ioutil" "os" "strconv" "strings" "testing" "github.com/mgechev/revive/lint" "github.com/pkg/errors" ) func testRule(t *testing.T, filename string, rule lint.Rule, config ...*lint.RuleConfig) { baseDir := "../fixtures/" filename = filename + ".go" src, err := ioutil.ReadFile(baseDir + filename) if err != nil { t.Fatalf("Bad filename path in test for %s: %v", rule.Name(), err) } stat, err := os.Stat(baseDir + filename) if err != nil { t.Fatalf("Cannot get file info for %s: %v", rule.Name(), err) } c := map[string]lint.RuleConfig{} if config != nil { c[rule.Name()] = *config[0] } if parseInstructions(t, filename, src) == nil { assertSuccess(t, baseDir, stat, src, []lint.Rule{rule}, c) return } assertFailures(t, baseDir, stat, src, []lint.Rule{rule}, c) } func assertSuccess(t *testing.T, baseDir string, fi os.FileInfo, src []byte, rules []lint.Rule, config map[string]lint.RuleConfig) error { l := lint.New(func(file string) ([]byte, error) { return ioutil.ReadFile(baseDir + file) }) ps, err := l.Lint([]string{fi.Name()}, rules, lint.Config{ Rules: config, }) if err != nil { return err } failures := "" for p := range ps { failures += p.Failure } if failures != "" { t.Errorf("Expected the rule to pass but got the following failures: %s", failures) } return nil } func assertFailures(t *testing.T, baseDir string, fi os.FileInfo, src []byte, rules []lint.Rule, config map[string]lint.RuleConfig) error { l := lint.New(func(file string) ([]byte, error) { return ioutil.ReadFile(baseDir + file) }) ins := parseInstructions(t, fi.Name(), src) if ins == nil { return errors.Errorf("Test file %v does not have instructions", fi.Name()) } ps, err := l.Lint([]string{fi.Name()}, rules, lint.Config{ Rules: config, }) if err != nil { return err } failures := []lint.Failure{} for f := range ps { failures = append(failures, f) } for _, in := range ins { ok := false for i, p := range failures { if p.Position.Start.Line != in.Line { continue } if in.Match == p.Failure { // check replacement if we are expecting one if in.Replacement != "" { // ignore any inline comments, since that would be recursive r := p.ReplacementLine if i := strings.Index(r, " //"); i >= 0 { r = r[:i] } if r != in.Replacement { t.Errorf("Lint failed at %s:%d; got replacement %q, want %q", fi.Name(), in.Line, r, in.Replacement) } } // remove this problem from ps copy(failures[i:], failures[i+1:]) failures = failures[:len(failures)-1] // t.Logf("/%v/ matched at %s:%d", in.Match, fi.Name(), in.Line) ok = true break } } if !ok { t.Errorf("Lint failed at %s:%d; /%v/ did not match", fi.Name(), in.Line, in.Match) } } for _, p := range failures { t.Errorf("Unexpected problem at %s:%d: %v", fi.Name(), p.Position.Start.Line, p.Failure) } return nil } type instruction struct { Line int // the line number this applies to Match string // what pattern to match Replacement string // what the suggested replacement line should be } // parseInstructions parses instructions from the comments in a Go source file. // It returns nil if none were parsed. func parseInstructions(t *testing.T, filename string, src []byte) []instruction { fset := token.NewFileSet() f, err := parser.ParseFile(fset, filename, src, parser.ParseComments) if err != nil { t.Fatalf("Test file %v does not parse: %v", filename, err) } var ins []instruction for _, cg := range f.Comments { ln := fset.Position(cg.Pos()).Line raw := cg.Text() for _, line := range strings.Split(raw, "\n") { if line == "" || strings.HasPrefix(line, "#") { continue } if line == "OK" && ins == nil { // so our return value will be non-nil ins = make([]instruction, 0) continue } if strings.Contains(line, "MATCH") { match, err := extractPattern(line) if err != nil { t.Fatalf("At %v:%d: %v", filename, ln, err) } matchLine := ln if i := strings.Index(line, "MATCH:"); i >= 0 { // This is a match for a different line. lns := strings.TrimPrefix(line[i:], "MATCH:") lns = lns[:strings.Index(lns, " ")] matchLine, err = strconv.Atoi(lns) if err != nil { t.Fatalf("Bad match line number %q at %v:%d: %v", lns, filename, ln, err) } } var repl string if r, ok := extractReplacement(line); ok { repl = r } ins = append(ins, instruction{ Line: matchLine, Match: match, Replacement: repl, }) } } } return ins } func extractPattern(line string) (string, error) { a, b := strings.Index(line, "/"), strings.LastIndex(line, "/") if a == -1 || a == b { return "", fmt.Errorf("malformed match instruction %q", line) } return line[a+1 : b], nil } func extractReplacement(line string) (string, bool) { // Look for this: / -> ` // (the end of a match and start of a backtick string), // and then the closing backtick. const start = "/ -> `" a, b := strings.Index(line, start), strings.LastIndex(line, "`") if a < 0 || a > b { return "", false } return line[a+len(start) : b], true } func render(fset *token.FileSet, x interface{}) string { var buf bytes.Buffer if err := printer.Fprint(&buf, fset, x); err != nil { panic(err) } return buf.String() } func srcLine(src []byte, p token.Position) string { // Run to end of line in both directions if not at line start/end. lo, hi := p.Offset, p.Offset+1 for lo > 0 && src[lo-1] != '\n' { lo-- } for hi < len(src) && src[hi-1] != '\n' { hi++ } return string(src[lo:hi]) } func TestLine(t *testing.T) { tests := []struct { src string offset int want string }{ {"single line file", 5, "single line file"}, {"single line file with newline\n", 5, "single line file with newline\n"}, {"first\nsecond\nthird\n", 2, "first\n"}, {"first\nsecond\nthird\n", 9, "second\n"}, {"first\nsecond\nthird\n", 14, "third\n"}, {"first\nsecond\nthird with no newline", 16, "third with no newline"}, {"first byte\n", 0, "first byte\n"}, } for _, test := range tests { got := srcLine([]byte(test.src), token.Position{Offset: test.offset}) if got != test.want { t.Errorf("srcLine(%q, offset=%d) = %q, want %q", test.src, test.offset, got, test.want) } } } func TestLintName(t *testing.T) { tests := []struct { name, want string }{ {"foo_bar", "fooBar"}, {"foo_bar_baz", "fooBarBaz"}, {"Foo_bar", "FooBar"}, {"foo_WiFi", "fooWiFi"}, {"id", "id"}, {"Id", "ID"}, {"foo_id", "fooID"}, {"fooId", "fooID"}, {"fooUid", "fooUID"}, {"idFoo", "idFoo"}, {"uidFoo", "uidFoo"}, {"midIdDle", "midIDDle"}, {"APIProxy", "APIProxy"}, {"ApiProxy", "APIProxy"}, {"apiProxy", "apiProxy"}, {"_Leading", "_Leading"}, {"___Leading", "_Leading"}, {"trailing_", "trailing"}, {"trailing___", "trailing"}, {"a_b", "aB"}, {"a__b", "aB"}, {"a___b", "aB"}, {"Rpc1150", "RPC1150"}, {"case3_1", "case3_1"}, {"case3__1", "case3_1"}, {"IEEE802_16bit", "IEEE802_16bit"}, {"IEEE802_16Bit", "IEEE802_16Bit"}, } for _, test := range tests { got := lint.Name(test.name) if got != test.want { t.Errorf("lintName(%q) = %q, want %q", test.name, got, test.want) } } } // exportedType reports whether typ is an exported type. // It is imprecise, and will err on the side of returning true, // such as for composite types. func exportedType(typ types.Type) bool { switch T := typ.(type) { case *types.Named: // Builtin types have no package. return T.Obj().Pkg() == nil || T.Obj().Exported() case *types.Map: return exportedType(T.Key()) && exportedType(T.Elem()) case interface { Elem() types.Type }: // array, slice, pointer, chan return exportedType(T.Elem()) } // Be conservative about other types, such as struct, interface, etc. return true } func TestExportedType(t *testing.T) { tests := []struct { typString string exp bool }{ {"int", true}, {"string", false}, // references the shadowed builtin "string" {"T", true}, {"t", false}, {"*T", true}, {"*t", false}, {"map[int]complex128", true}, } for _, test := range tests { src := `package foo; type T int; type t int; type string struct{}` fset := token.NewFileSet() file, err := parser.ParseFile(fset, "foo.go", src, 0) if err != nil { t.Fatalf("Parsing %q: %v", src, err) } // use the package name as package path config := &types.Config{} pkg, err := config.Check(file.Name.Name, fset, []*ast.File{file}, nil) if err != nil { t.Fatalf("Type checking %q: %v", src, err) } tv, err := types.Eval(fset, pkg, token.NoPos, test.typString) if err != nil { t.Errorf("types.Eval(%q): %v", test.typString, err) continue } if got := exportedType(tv.Type); got != test.exp { t.Errorf("exportedType(%v) = %t, want %t", tv.Type, got, test.exp) } } } var ( genHdr = []byte("// Code generated ") genFtr = []byte(" DO NOT EDIT.") ) // isGenerated reports whether the source file is generated code // according the rules from https://golang.org/s/generatedcode. func isGenerated(src []byte) bool { sc := bufio.NewScanner(bytes.NewReader(src)) for sc.Scan() { b := sc.Bytes() if bytes.HasPrefix(b, genHdr) && bytes.HasSuffix(b, genFtr) && len(b) >= len(genHdr)+len(genFtr) { return true } } return false } func TestIsGenerated(t *testing.T) { tests := []struct { source string generated bool }{ {"// Code Generated by some tool. DO NOT EDIT.", false}, {"// Code generated by some tool. DO NOT EDIT.", true}, {"// Code generated by some tool. DO NOT EDIT", false}, {"// Code generated DO NOT EDIT.", true}, {"// Code generated DO NOT EDIT.", false}, {"\t\t// Code generated by some tool. DO NOT EDIT.\npackage foo\n", false}, {"// Code generated by some tool. DO NOT EDIT.\npackage foo\n", true}, {"package foo\n// Code generated by some tool. DO NOT EDIT.\ntype foo int\n", true}, {"package foo\n // Code generated by some tool. DO NOT EDIT.\ntype foo int\n", false}, {"package foo\n// Code generated by some tool. DO NOT EDIT. \ntype foo int\n", false}, {"package foo\ntype foo int\n// Code generated by some tool. DO NOT EDIT.\n", true}, {"package foo\ntype foo int\n// Code generated by some tool. DO NOT EDIT.", true}, } for i, test := range tests { got := isGenerated([]byte(test.source)) if got != test.generated { t.Errorf("test %d, isGenerated() = %v, want %v", i, got, test.generated) } } }