// Copyright 2013 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 imports import ( "bytes" "flag" "go/build" "io/ioutil" "os" "path/filepath" "runtime" "strings" "sync" "testing" ) var only = flag.String("only", "", "If non-empty, the fix test to run") var tests = []struct { name string formatOnly bool in, out string }{ // Adding an import to an existing parenthesized import { name: "factored_imports_add", in: `package foo import ( "fmt" ) func bar() { var b bytes.Buffer fmt.Println(b.String()) } `, out: `package foo import ( "bytes" "fmt" ) func bar() { var b bytes.Buffer fmt.Println(b.String()) } `, }, // Adding an import to an existing parenthesized import, // verifying it goes into the first section. { name: "factored_imports_add_first_sec", in: `package foo import ( "fmt" "appengine" ) func bar() { var b bytes.Buffer _ = appengine.IsDevServer fmt.Println(b.String()) } `, out: `package foo import ( "bytes" "fmt" "appengine" ) func bar() { var b bytes.Buffer _ = appengine.IsDevServer fmt.Println(b.String()) } `, }, // Adding an import to an existing parenthesized import, // verifying it goes into the first section. (test 2) { name: "factored_imports_add_first_sec_2", in: `package foo import ( "fmt" "appengine" ) func bar() { _ = math.NaN _ = fmt.Sprintf _ = appengine.IsDevServer } `, out: `package foo import ( "fmt" "math" "appengine" ) func bar() { _ = math.NaN _ = fmt.Sprintf _ = appengine.IsDevServer } `, }, // Adding a new import line, without parens { name: "add_import_section", in: `package foo func bar() { var b bytes.Buffer } `, out: `package foo import "bytes" func bar() { var b bytes.Buffer } `, }, // Adding two new imports, which should make a parenthesized import decl. { name: "add_import_paren_section", in: `package foo func bar() { _, _ := bytes.Buffer, zip.NewReader } `, out: `package foo import ( "archive/zip" "bytes" ) func bar() { _, _ := bytes.Buffer, zip.NewReader } `, }, // Make sure we don't add things twice { name: "no_double_add", in: `package foo func bar() { _, _ := bytes.Buffer, bytes.NewReader } `, out: `package foo import "bytes" func bar() { _, _ := bytes.Buffer, bytes.NewReader } `, }, // Remove unused imports, 1 of a factored block { name: "remove_unused_1_of_2", in: `package foo import ( "bytes" "fmt" ) func bar() { _, _ := bytes.Buffer, bytes.NewReader } `, out: `package foo import "bytes" func bar() { _, _ := bytes.Buffer, bytes.NewReader } `, }, // Remove unused imports, 2 of 2 { name: "remove_unused_2_of_2", in: `package foo import ( "bytes" "fmt" ) func bar() { } `, out: `package foo func bar() { } `, }, // Remove unused imports, 1 of 1 { name: "remove_unused_1_of_1", in: `package foo import "fmt" func bar() { } `, out: `package foo func bar() { } `, }, // Don't remove empty imports. { name: "dont_remove_empty_imports", in: `package foo import ( _ "image/png" _ "image/jpeg" ) `, out: `package foo import ( _ "image/jpeg" _ "image/png" ) `, }, // Don't remove dot imports. { name: "dont_remove_dot_imports", in: `package foo import ( . "foo" . "bar" ) `, out: `package foo import ( . "bar" . "foo" ) `, }, // Skip refs the parser can resolve. { name: "skip_resolved_refs", in: `package foo func f() { type t struct{ Println func(string) } fmt := t{Println: func(string) {}} fmt.Println("foo") } `, out: `package foo func f() { type t struct{ Println func(string) } fmt := t{Println: func(string) {}} fmt.Println("foo") } `, }, // Do not add a package we already have a resolution for. { name: "skip_template", in: `package foo import "html/template" func f() { t = template.New("sometemplate") } `, out: `package foo import "html/template" func f() { t = template.New("sometemplate") } `, }, // Don't touch cgo { name: "cgo", in: `package foo /* #include */ import "C" `, out: `package foo /* #include */ import "C" `, }, // Put some things in their own section { name: "make_sections", in: `package foo import ( "os" ) func foo () { _, _ = os.Args, fmt.Println _, _ = appengine.FooSomething, user.Current } `, out: `package foo import ( "fmt" "os" "appengine" "appengine/user" ) func foo() { _, _ = os.Args, fmt.Println _, _ = appengine.FooSomething, user.Current } `, }, // Delete existing empty import block { name: "delete_empty_import_block", in: `package foo import () `, out: `package foo `, }, // Use existing empty import block { name: "use_empty_import_block", in: `package foo import () func f() { _ = fmt.Println } `, out: `package foo import "fmt" func f() { _ = fmt.Println } `, }, // Blank line before adding new section. { name: "blank_line_before_new_group", in: `package foo import ( "fmt" "net" ) func f() { _ = net.Dial _ = fmt.Printf _ = snappy.Foo } `, out: `package foo import ( "fmt" "net" "code.google.com/p/snappy-go/snappy" ) func f() { _ = net.Dial _ = fmt.Printf _ = snappy.Foo } `, }, // Blank line between standard library and third-party stuff. { name: "blank_line_separating_std_and_third_party", in: `package foo import ( "code.google.com/p/snappy-go/snappy" "fmt" "net" ) func f() { _ = net.Dial _ = fmt.Printf _ = snappy.Foo } `, out: `package foo import ( "fmt" "net" "code.google.com/p/snappy-go/snappy" ) func f() { _ = net.Dial _ = fmt.Printf _ = snappy.Foo } `, }, // golang.org/issue/6884 { name: "issue 6884", in: `package main // A comment func main() { fmt.Println("Hello, world") } `, out: `package main import "fmt" // A comment func main() { fmt.Println("Hello, world") } `, }, // golang.org/issue/7132 { name: "issue 7132", in: `package main import ( "fmt" "gu" "github.com/foo/bar" ) var ( a = bar.a b = gu.a c = fmt.Printf ) `, out: `package main import ( "fmt" "gu" "github.com/foo/bar" ) var ( a = bar.a b = gu.a c = fmt.Printf ) `, }, { name: "renamed package", in: `package main var _ = str.HasPrefix `, out: `package main import str "strings" var _ = str.HasPrefix `, }, { name: "fragment with main", in: `func main(){fmt.Println("Hello, world")}`, out: `package main import "fmt" func main() { fmt.Println("Hello, world") } `, }, { name: "fragment without main", in: `func notmain(){fmt.Println("Hello, world")}`, out: `import "fmt" func notmain() { fmt.Println("Hello, world") }`, }, // Remove first import within in a 2nd/3rd/4th/etc. section. // golang.org/issue/7679 { name: "issue 7679", in: `package main import ( "fmt" "github.com/foo/bar" "github.com/foo/qux" ) func main() { var _ = fmt.Println //var _ = bar.A var _ = qux.B } `, out: `package main import ( "fmt" "github.com/foo/qux" ) func main() { var _ = fmt.Println //var _ = bar.A var _ = qux.B } `, }, // Blank line can be added before all types of import declarations. // golang.org/issue/7866 { name: "issue 7866", in: `package main import ( "fmt" renamed_bar "github.com/foo/bar" . "github.com/foo/baz" "io" _ "github.com/foo/qux" "strings" ) func main() { _, _, _, _, _ = fmt.Errorf, io.Copy, strings.Contains, renamed_bar.A, B } `, out: `package main import ( "fmt" renamed_bar "github.com/foo/bar" "io" . "github.com/foo/baz" "strings" _ "github.com/foo/qux" ) func main() { _, _, _, _, _ = fmt.Errorf, io.Copy, strings.Contains, renamed_bar.A, B } `, }, // Non-idempotent comment formatting // golang.org/issue/8035 { name: "issue 8035", in: `package main import ( "fmt" // A "go/ast" // B _ "launchpad.net/gocheck" // C ) func main() { _, _ = fmt.Print, ast.Walk } `, out: `package main import ( "fmt" // A "go/ast" // B _ "launchpad.net/gocheck" // C ) func main() { _, _ = fmt.Print, ast.Walk } `, }, // Failure to delete all duplicate imports // golang.org/issue/8459 { name: "issue 8459", in: `package main import ( "fmt" "log" "log" "math" ) func main() { fmt.Println("pi:", math.Pi) } `, out: `package main import ( "fmt" "math" ) func main() { fmt.Println("pi:", math.Pi) } `, }, // Too aggressive prefix matching // golang.org/issue/9961 { name: "issue 9961", in: `package p import ( "zip" "rsc.io/p" ) var ( _ = fmt.Print _ = zip.Store _ p.P _ = regexp.Compile ) `, out: `package p import ( "fmt" "regexp" "zip" "rsc.io/p" ) var ( _ = fmt.Print _ = zip.Store _ p.P _ = regexp.Compile ) `, }, // Unused named import is mistaken for unnamed import // golang.org/issue/8149 { name: "issue 8149", in: `package main import foo "fmt" func main() { fmt.Println() } `, out: `package main import "fmt" func main() { fmt.Println() } `, }, // Unused named import is mistaken for unnamed import // golang.org/issue/8149 { name: "issue 8149", in: `package main import ( "fmt" x "fmt" ) func main() { fmt.Println() } `, out: `package main import "fmt" func main() { fmt.Println() } `, }, // FormatOnly { name: "format only", formatOnly: true, in: `package main import ( "fmt" "golang.org/x/foo" ) func main() {} `, out: `package main import ( "fmt" "golang.org/x/foo" ) func main() {} `, }, } func TestFixImports(t *testing.T) { simplePkgs := map[string]string{ "appengine": "appengine", "bytes": "bytes", "fmt": "fmt", "math": "math", "os": "os", "p": "rsc.io/p", "regexp": "regexp", "snappy": "code.google.com/p/snappy-go/snappy", "str": "strings", "user": "appengine/user", "zip": "archive/zip", } old := findImport defer func() { findImport = old }() findImport = func(pkgName string, symbols map[string]bool, filename string) (string, bool, error) { return simplePkgs[pkgName], pkgName == "str", nil } options := &Options{ TabWidth: 8, TabIndent: true, Comments: true, Fragment: true, } for _, tt := range tests { options.FormatOnly = tt.formatOnly if *only != "" && tt.name != *only { continue } buf, err := Process(tt.name+".go", []byte(tt.in), options) if err != nil { t.Errorf("error on %q: %v", tt.name, err) continue } if got := string(buf); got != tt.out { t.Errorf("results diff on %q\nGOT:\n%s\nWANT:\n%s\n", tt.name, got, tt.out) } } } // Test support for packages in GOPATH that are actually symlinks. // Also test that a symlink loop does not block the process. func TestImportSymlinks(t *testing.T) { switch runtime.GOOS { case "windows", "plan9": t.Skipf("skipping test on %q as there are no symlinks", runtime.GOOS) } newGoPath, err := ioutil.TempDir("", "symlinktest") if err != nil { t.Fatal(err) } defer os.RemoveAll(newGoPath) targetPath := newGoPath + "/target" if err := os.MkdirAll(targetPath, 0755); err != nil { t.Fatal(err) } if err := ioutil.WriteFile(targetPath+"/f.go", []byte("package mypkg\nvar Foo = 123\n"), 0666); err != nil { t.Fatal(err) } symlinkPath := newGoPath + "/src/x/mypkg" if err := os.MkdirAll(filepath.Dir(symlinkPath), 0755); err != nil { t.Fatal(err) } if err := os.Symlink(targetPath, symlinkPath); err != nil { t.Fatal(err) } // Add a symlink loop. if err := os.Symlink(newGoPath+"/src/x", newGoPath+"/src/x/apkg"); err != nil { t.Fatal(err) } withEmptyGoPath(func() { build.Default.GOPATH = newGoPath input := `package p var ( _ = fmt.Print _ = mypkg.Foo ) ` output := `package p import ( "fmt" "x/mypkg" ) var ( _ = fmt.Print _ = mypkg.Foo ) ` buf, err := Process(newGoPath+"/src/myotherpkg/toformat.go", []byte(input), &Options{}) if err != nil { t.Fatal(err) } if got := string(buf); got != output { t.Fatalf("results differ\nGOT:\n%s\nWANT:\n%s\n", got, output) } }) // Add a .goimportsignore and ensure it is respected. if err := ioutil.WriteFile(newGoPath+"/src/.goimportsignore", []byte("x/mypkg\n"), 0666); err != nil { t.Fatal(err) } withEmptyGoPath(func() { build.Default.GOPATH = newGoPath input := `package p var ( _ = fmt.Print _ = mypkg.Foo ) ` output := `package p import "fmt" var ( _ = fmt.Print _ = mypkg.Foo ) ` buf, err := Process(newGoPath+"/src/myotherpkg/toformat.go", []byte(input), &Options{}) if err != nil { t.Fatal(err) } if got := string(buf); got != output { t.Fatalf("ignored results differ\nGOT:\n%s\nWANT:\n%s\n", got, output) } }) } // Test for correctly identifying the name of a vendored package when it // differs from its directory name. In this test, the import line // "mypkg.com/mypkg.v1" would be removed if goimports wasn't able to detect // that the package name is "mypkg". func TestFixImportsVendorPackage(t *testing.T) { // Skip this test on go versions with no vendor support. if _, err := os.Stat(filepath.Join(runtime.GOROOT(), "src/vendor")); err != nil { t.Skip(err) } testConfig{ gopathFiles: map[string]string{ "mypkg.com/outpkg/vendor/mypkg.com/mypkg.v1/f.go": "package mypkg\nvar Foo = 123\n", }, }.test(t, func(t *goimportTest) { input := `package p import ( "fmt" "mypkg.com/mypkg.v1" ) var ( _ = fmt.Print _ = mypkg.Foo ) ` buf, err := Process(filepath.Join(t.gopath, "src/mypkg.com/outpkg/toformat.go"), []byte(input), &Options{}) if err != nil { t.Fatal(err) } if got := string(buf); got != input { t.Fatalf("results differ\nGOT:\n%s\nWANT:\n%s\n", got, input) } }) } func TestFindImportGoPath(t *testing.T) { goroot, err := ioutil.TempDir("", "goimports-") if err != nil { t.Fatal(err) } defer os.RemoveAll(goroot) origStdlib := stdlib defer func() { stdlib = origStdlib }() stdlib = nil withEmptyGoPath(func() { // Test against imaginary bits/bytes package in std lib bytesDir := filepath.Join(goroot, "src", "pkg", "bits", "bytes") for _, tag := range build.Default.ReleaseTags { // Go 1.4 rearranged the GOROOT tree to remove the "pkg" path component. if tag == "go1.4" { bytesDir = filepath.Join(goroot, "src", "bits", "bytes") } } if err := os.MkdirAll(bytesDir, 0755); err != nil { t.Fatal(err) } bytesSrcPath := filepath.Join(bytesDir, "bytes.go") bytesPkgPath := "bits/bytes" bytesSrc := []byte(`package bytes type Buffer2 struct {} `) if err := ioutil.WriteFile(bytesSrcPath, bytesSrc, 0775); err != nil { t.Fatal(err) } build.Default.GOROOT = goroot got, rename, err := findImportGoPath("bytes", map[string]bool{"Buffer2": true}, "x.go") if err != nil { t.Fatal(err) } if got != bytesPkgPath || rename { t.Errorf(`findImportGoPath("bytes", Buffer2 ...)=%q, %t, want "%s", false`, got, rename, bytesPkgPath) } got, rename, err = findImportGoPath("bytes", map[string]bool{"Missing": true}, "x.go") if err != nil { t.Fatal(err) } if got != "" || rename { t.Errorf(`findImportGoPath("bytes", Missing ...)=%q, %t, want "", false`, got, rename) } }) } func init() { inTests = true } func withEmptyGoPath(fn func()) { testMu.Lock() dirScanMu.Lock() populateIgnoreOnce = sync.Once{} scanGoRootOnce = sync.Once{} scanGoPathOnce = sync.Once{} dirScan = nil ignoredDirs = nil scanGoRootDone = make(chan struct{}) dirScanMu.Unlock() oldGOPATH := build.Default.GOPATH oldGOROOT := build.Default.GOROOT build.Default.GOPATH = "" visitedSymlinks.m = nil testHookScanDir = func(string) {} testMu.Unlock() defer func() { testMu.Lock() testHookScanDir = func(string) {} build.Default.GOPATH = oldGOPATH build.Default.GOROOT = oldGOROOT testMu.Unlock() }() fn() } func TestFindImportInternal(t *testing.T) { withEmptyGoPath(func() { // Check for src/internal/race, not just src/internal, // so that we can run this test also against go1.5 // (which doesn't contain that file). _, err := os.Stat(filepath.Join(runtime.GOROOT(), "src/internal/race")) if err != nil { t.Skip(err) } got, rename, err := findImportGoPath("race", map[string]bool{"Acquire": true}, filepath.Join(runtime.GOROOT(), "src/math/x.go")) if err != nil { t.Fatal(err) } if got != "internal/race" || rename { t.Errorf(`findImportGoPath("race", Acquire ...) = %q, %t; want "internal/race", false`, got, rename) } // should not be able to use internal from outside that tree got, rename, err = findImportGoPath("race", map[string]bool{"Acquire": true}, filepath.Join(runtime.GOROOT(), "x.go")) if err != nil { t.Fatal(err) } if got != "" || rename { t.Errorf(`findImportGoPath("race", Acquire ...)=%q, %t, want "", false`, got, rename) } }) } // rand.Read should prefer crypto/rand.Read, not math/rand.Read. func TestFindImportRandRead(t *testing.T) { withEmptyGoPath(func() { file := filepath.Join(runtime.GOROOT(), "src/foo/x.go") // dummy tests := []struct { syms []string want string }{ { syms: []string{"Read"}, want: "crypto/rand", }, { syms: []string{"Read", "NewZipf"}, want: "math/rand", }, { syms: []string{"NewZipf"}, want: "math/rand", }, { syms: []string{"Read", "Prime"}, want: "crypto/rand", }, } for _, tt := range tests { m := map[string]bool{} for _, sym := range tt.syms { m[sym] = true } got, _, err := findImportGoPath("rand", m, file) if err != nil { t.Errorf("for %q: %v", tt.syms, err) continue } if got != tt.want { t.Errorf("for %q, findImportGoPath = %q; want %q", tt.syms, got, tt.want) } } }) } func TestFindImportVendor(t *testing.T) { testConfig{ gorootFiles: map[string]string{ "vendor/golang.org/x/net/http2/hpack/huffman.go": "package hpack\nfunc HuffmanDecode() { }\n", }, }.test(t, func(t *goimportTest) { got, rename, err := findImportGoPath("hpack", map[string]bool{"HuffmanDecode": true}, filepath.Join(t.goroot, "src/math/x.go")) if err != nil { t.Fatal(err) } want := "golang.org/x/net/http2/hpack" if got != want || rename { t.Errorf(`findImportGoPath("hpack", HuffmanDecode ...) = %q, %t; want %q, false`, got, rename, want) } }) } func TestProcessVendor(t *testing.T) { withEmptyGoPath(func() { _, err := os.Stat(filepath.Join(runtime.GOROOT(), "src/vendor")) if err != nil { t.Skip(err) } target := filepath.Join(runtime.GOROOT(), "src/math/x.go") out, err := Process(target, []byte("package http\nimport \"bytes\"\nfunc f() { strings.NewReader(); hpack.HuffmanDecode() }\n"), nil) if err != nil { t.Fatal(err) } want := "golang_org/x/net/http2/hpack" if _, err := os.Stat(filepath.Join(runtime.GOROOT(), "src/vendor", want)); os.IsNotExist(err) { want = "golang.org/x/net/http2/hpack" } if !bytes.Contains(out, []byte(want)) { t.Fatalf("Process(%q) did not add expected hpack import %q; got:\n%s", target, want, out) } }) } func TestFindImportStdlib(t *testing.T) { tests := []struct { pkg string symbols []string want string }{ {"http", []string{"Get"}, "net/http"}, {"http", []string{"Get", "Post"}, "net/http"}, {"http", []string{"Get", "Foo"}, ""}, {"bytes", []string{"Buffer"}, "bytes"}, {"ioutil", []string{"Discard"}, "io/ioutil"}, } for _, tt := range tests { got, rename, ok := findImportStdlib(tt.pkg, strSet(tt.symbols)) if (got != "") != ok { t.Error("findImportStdlib return value inconsistent") } if got != tt.want || rename { t.Errorf("findImportStdlib(%q, %q) = %q, %t; want %q, false", tt.pkg, tt.symbols, got, rename, tt.want) } } } type testConfig struct { // goroot and gopath optionally specifies the path on disk // to use for the GOROOT and GOPATH. If empty, a temp directory // is made if needed. goroot, gopath string // gorootFiles optionally specifies the complete contents of GOROOT to use, // If nil, the normal current $GOROOT is used. gorootFiles map[string]string // paths relative to $GOROOT/src to contents // gopathFiles is like gorootFiles, but for $GOPATH. // If nil, there is no GOPATH, though. gopathFiles map[string]string // paths relative to $GOPATH/src to contents } func mustTempDir(t *testing.T, prefix string) string { dir, err := ioutil.TempDir("", prefix) if err != nil { t.Fatal(err) } return dir } func mapToDir(destDir string, files map[string]string) error { for path, contents := range files { file := filepath.Join(destDir, "src", path) if err := os.MkdirAll(filepath.Dir(file), 0755); err != nil { return err } var err error if strings.HasPrefix(contents, "LINK:") { err = os.Symlink(strings.TrimPrefix(contents, "LINK:"), file) } else { err = ioutil.WriteFile(file, []byte(contents), 0644) } if err != nil { return err } } return nil } func (c testConfig) test(t *testing.T, fn func(*goimportTest)) { goroot := c.goroot gopath := c.gopath if c.gorootFiles != nil && goroot == "" { goroot = mustTempDir(t, "goroot-") defer os.RemoveAll(goroot) } if err := mapToDir(goroot, c.gorootFiles); err != nil { t.Fatal(err) } if c.gopathFiles != nil && gopath == "" { gopath = mustTempDir(t, "gopath-") defer os.RemoveAll(gopath) } if err := mapToDir(gopath, c.gopathFiles); err != nil { t.Fatal(err) } withEmptyGoPath(func() { if goroot != "" { build.Default.GOROOT = goroot } build.Default.GOPATH = gopath it := &goimportTest{ T: t, goroot: build.Default.GOROOT, gopath: gopath, ctx: &build.Default, } fn(it) }) } type goimportTest struct { *testing.T ctx *build.Context goroot string gopath string } // Tests that added imports are renamed when the import path's base doesn't // match its package name. For example, we want to generate: // // import cloudbilling "google.golang.org/api/cloudbilling/v1" func TestRenameWhenPackageNameMismatch(t *testing.T) { testConfig{ gopathFiles: map[string]string{ "foo/bar/v1/x.go": "package bar \n const X = 1", }, }.test(t, func(t *goimportTest) { buf, err := Process(t.gopath+"/src/test/t.go", []byte("package main \n const Y = bar.X"), &Options{}) if err != nil { t.Fatal(err) } const want = `package main import bar "foo/bar/v1" const Y = bar.X ` if string(buf) != want { t.Errorf("Got:\n%s\nWant:\n%s", buf, want) } }) } // Tests that the LocalPrefix option causes imports // to be added into a later group (num=3). func TestLocalPrefix(t *testing.T) { defer func(s string) { LocalPrefix = s }(LocalPrefix) LocalPrefix = "foo/" testConfig{ gopathFiles: map[string]string{ "foo/bar/bar.go": "package bar \n const X = 1", }, }.test(t, func(t *goimportTest) { buf, err := Process(t.gopath+"/src/test/t.go", []byte("package main \n const Y = bar.X \n const _ = runtime.GOOS"), &Options{}) if err != nil { t.Fatal(err) } const want = `package main import ( "runtime" "foo/bar" ) const Y = bar.X const _ = runtime.GOOS ` if string(buf) != want { t.Errorf("Got:\n%s\nWant:\n%s", buf, want) } }) } // Tests that running goimport on files in GOROOT (for people hacking // on Go itself) don't cause the GOPATH to be scanned (which might be // much bigger). func TestOptimizationWhenInGoroot(t *testing.T) { testConfig{ gopathFiles: map[string]string{ "foo/foo.go": "package foo\nconst X = 1\n", }, }.test(t, func(t *goimportTest) { testHookScanDir = func(dir string) { if dir != filepath.Join(build.Default.GOROOT, "src") { t.Errorf("unexpected dir scan of %s", dir) } } const in = "package foo\n\nconst Y = bar.X\n" buf, err := Process(t.goroot+"/src/foo/foo.go", []byte(in), nil) if err != nil { t.Fatal(err) } if string(buf) != in { t.Errorf("got:\n%q\nwant unchanged:\n%q\n", in, buf) } }) } // Tests that "package documentation" files are ignored. func TestIgnoreDocumentationPackage(t *testing.T) { testConfig{ gopathFiles: map[string]string{ "foo/foo.go": "package foo\nconst X = 1\n", "foo/doc.go": "package documentation \n // just to confuse things\n", }, }.test(t, func(t *goimportTest) { const in = "package x\n\nconst Y = foo.X\n" const want = "package x\n\nimport \"foo\"\n\nconst Y = foo.X\n" buf, err := Process(t.gopath+"/src/x/x.go", []byte(in), nil) if err != nil { t.Fatal(err) } if string(buf) != want { t.Errorf("wrong output.\ngot:\n%q\nwant:\n%q\n", in, want) } }) } // Tests importPathToNameGoPathParse and in particular that it stops // after finding the first non-documentation package name, not // reporting an error on inconsistent package names (since it should // never make it that far). func TestImportPathToNameGoPathParse(t *testing.T) { testConfig{ gopathFiles: map[string]string{ "example.net/pkg/doc.go": "package documentation\n", // ignored "example.net/pkg/gen.go": "package main\n", // also ignored "example.net/pkg/pkg.go": "package the_pkg_name_to_find\n and this syntax error is ignored because of parser.PackageClauseOnly", "example.net/pkg/z.go": "package inconsistent\n", // inconsistent but ignored }, }.test(t, func(t *goimportTest) { got, err := importPathToNameGoPathParse("example.net/pkg", filepath.Join(t.gopath, "src", "other.net")) if err != nil { t.Fatal(err) } const want = "the_pkg_name_to_find" if got != want { t.Errorf("importPathToNameGoPathParse(..) = %q; want %q", got, want) } }) } func TestIgnoreConfiguration(t *testing.T) { testConfig{ gopathFiles: map[string]string{ ".goimportsignore": "# comment line\n\n example.net", // tests comment, blank line, whitespace trimming "example.net/pkg/pkg.go": "package pkg\nconst X = 1", "otherwise-longer-so-worse.example.net/foo/pkg/pkg.go": "package pkg\nconst X = 1", }, }.test(t, func(t *goimportTest) { const in = "package x\n\nconst _ = pkg.X\n" const want = "package x\n\nimport \"otherwise-longer-so-worse.example.net/foo/pkg\"\n\nconst _ = pkg.X\n" buf, err := Process(t.gopath+"/src/x/x.go", []byte(in), nil) if err != nil { t.Fatal(err) } if string(buf) != want { t.Errorf("wrong output.\ngot:\n%q\nwant:\n%q\n", buf, want) } }) } // Skip "node_modules" directory. func TestSkipNodeModules(t *testing.T) { testConfig{ gopathFiles: map[string]string{ "example.net/node_modules/pkg/a.go": "package pkg\nconst X = 1", "otherwise-longer.net/not_modules/pkg/a.go": "package pkg\nconst X = 1", }, }.test(t, func(t *goimportTest) { const in = "package x\n\nconst _ = pkg.X\n" const want = "package x\n\nimport \"otherwise-longer.net/not_modules/pkg\"\n\nconst _ = pkg.X\n" buf, err := Process(t.gopath+"/src/x/x.go", []byte(in), nil) if err != nil { t.Fatal(err) } if string(buf) != want { t.Errorf("wrong output.\ngot:\n%q\nwant:\n%q\n", buf, want) } }) } // golang.org/issue/16458 -- if GOROOT is a prefix of GOPATH, GOPATH is ignored. func TestGoRootPrefixOfGoPath(t *testing.T) { dir := mustTempDir(t, "importstest") defer os.RemoveAll(dir) testConfig{ goroot: filepath.Join(dir, "go"), gopath: filepath.Join(dir, "gopath"), gopathFiles: map[string]string{ "example.com/foo/pkg.go": "package foo\nconst X = 1", }, }.test(t, func(t *goimportTest) { const in = "package x\n\nconst _ = foo.X\n" const want = "package x\n\nimport \"example.com/foo\"\n\nconst _ = foo.X\n" buf, err := Process(t.gopath+"/src/x/x.go", []byte(in), nil) if err != nil { t.Fatal(err) } if string(buf) != want { t.Errorf("wrong output.\ngot:\n%q\nwant:\n%q\n", buf, want) } }) } const testGlobalImportsUsesGlobal = `package globalimporttest func doSomething() { t := time.Now() } ` const testGlobalImportsGlobalDecl = `package globalimporttest type Time struct{} func (t Time) Now() Time { return Time{} } var time Time ` // Tests that package global variables with the same name and function name as // a function in a separate package do not result in an import which masks // the global variable func TestGlobalImports(t *testing.T) { const pkg = "globalimporttest" const usesGlobalFile = pkg + "/uses_global.go" testConfig{ gopathFiles: map[string]string{ usesGlobalFile: testGlobalImportsUsesGlobal, pkg + "/global.go": testGlobalImportsGlobalDecl, }, }.test(t, func(t *goimportTest) { buf, err := Process( t.gopath+"/src/"+usesGlobalFile, []byte(testGlobalImportsUsesGlobal), nil) if err != nil { t.Fatal(err) } if string(buf) != testGlobalImportsUsesGlobal { t.Errorf("wrong output.\ngot:\n%q\nwant:\n%q\n", buf, testGlobalImportsUsesGlobal) } }) } func strSet(ss []string) map[string]bool { m := make(map[string]bool) for _, s := range ss { m[s] = true } return m } func TestPkgIsCandidate(t *testing.T) { tests := [...]struct { filename string pkgIdent string pkg *pkg want bool }{ // normal match 0: { filename: "/gopath/src/my/pkg/pkg.go", pkgIdent: "client", pkg: &pkg{ dir: "/gopath/src/client", importPath: "client", importPathShort: "client", }, want: true, }, // not a match 1: { filename: "/gopath/src/my/pkg/pkg.go", pkgIdent: "zzz", pkg: &pkg{ dir: "/gopath/src/client", importPath: "client", importPathShort: "client", }, want: false, }, // would be a match, but "client" appears too deep. 2: { filename: "/gopath/src/my/pkg/pkg.go", pkgIdent: "client", pkg: &pkg{ dir: "/gopath/src/client/foo/foo/foo", importPath: "client/foo/foo", importPathShort: "client/foo/foo", }, want: false, }, // not an exact match, but substring is good enough. 3: { filename: "/gopath/src/my/pkg/pkg.go", pkgIdent: "client", pkg: &pkg{ dir: "/gopath/src/foo/go-client", importPath: "foo/go-client", importPathShort: "foo/go-client", }, want: true, }, // "internal" package, and not visible 4: { filename: "/gopath/src/my/pkg/pkg.go", pkgIdent: "client", pkg: &pkg{ dir: "/gopath/src/foo/internal/client", importPath: "foo/internal/client", importPathShort: "foo/internal/client", }, want: false, }, // "internal" package but visible 5: { filename: "/gopath/src/foo/bar.go", pkgIdent: "client", pkg: &pkg{ dir: "/gopath/src/foo/internal/client", importPath: "foo/internal/client", importPathShort: "foo/internal/client", }, want: true, }, // "vendor" package not visible 6: { filename: "/gopath/src/foo/bar.go", pkgIdent: "client", pkg: &pkg{ dir: "/gopath/src/other/vendor/client", importPath: "other/vendor/client", importPathShort: "client", }, want: false, }, // "vendor" package, visible 7: { filename: "/gopath/src/foo/bar.go", pkgIdent: "client", pkg: &pkg{ dir: "/gopath/src/foo/vendor/client", importPath: "other/foo/client", importPathShort: "client", }, want: true, }, // Ignore hyphens. 8: { filename: "/gopath/src/foo/bar.go", pkgIdent: "socketio", pkg: &pkg{ dir: "/gopath/src/foo/socket-io", importPath: "foo/socket-io", importPathShort: "foo/socket-io", }, want: true, }, // Ignore case. 9: { filename: "/gopath/src/foo/bar.go", pkgIdent: "fooprod", pkg: &pkg{ dir: "/gopath/src/foo/FooPROD", importPath: "foo/FooPROD", importPathShort: "foo/FooPROD", }, want: true, }, // Ignoring both hyphens and case together. 10: { filename: "/gopath/src/foo/bar.go", pkgIdent: "fooprod", pkg: &pkg{ dir: "/gopath/src/foo/Foo-PROD", importPath: "foo/Foo-PROD", importPathShort: "foo/Foo-PROD", }, want: true, }, } for i, tt := range tests { got := pkgIsCandidate(tt.filename, tt.pkgIdent, tt.pkg) if got != tt.want { t.Errorf("test %d. pkgIsCandidate(%q, %q, %+v) = %v; want %v", i, tt.filename, tt.pkgIdent, *tt.pkg, got, tt.want) } } }