blob: 005bf96e7e6563b5d28ff248a7d4b9d5984af16e [file] [log] [blame]
// 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 (
"context"
"flag"
"fmt"
"go/build"
"io/ioutil"
"log"
"path/filepath"
"reflect"
"runtime"
"sort"
"strings"
"sync"
"testing"
"golang.org/x/tools/go/packages/packagestest"
"golang.org/x/tools/internal/gocommand"
)
var testDebug = flag.Bool("debug", false, "enable debug output")
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"
"github.com/golang/snappy"
)
func bar() {
var b bytes.Buffer
_ = snappy.ErrCorrupt
fmt.Println(b.String())
}
`,
out: `package foo
import (
"bytes"
"fmt"
"github.com/golang/snappy"
)
func bar() {
var b bytes.Buffer
_ = snappy.ErrCorrupt
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"
"github.com/golang/snappy"
)
func bar() {
_ = math.NaN
_ = fmt.Sprintf
_ = snappy.ErrCorrupt
}
`,
out: `package foo
import (
"fmt"
"math"
"github.com/golang/snappy"
)
func bar() {
_ = math.NaN
_ = fmt.Sprintf
_ = snappy.ErrCorrupt
}
`,
},
// 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
}
`,
},
// Make sure we don't add packages that don't have the right exports
{
name: "no_mismatched_add",
in: `package foo
func bar() {
_ := bytes.NonexistentSymbol
}
`,
out: `package foo
func bar() {
_ := bytes.NonexistentSymbol
}
`,
},
// 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 <foo.h>
*/
import "C"
`,
out: `package foo
/*
#include <foo.h>
*/
import "C"
`,
},
// Put some things in their own section
{
name: "make_sections",
in: `package foo
import (
"os"
)
func foo () {
_, _ = os.Args, fmt.Println
_, _ = snappy.ErrCorrupt, p.P
}
`,
out: `package foo
import (
"fmt"
"os"
"github.com/golang/snappy"
"rsc.io/p"
)
func foo() {
_, _ = os.Args, fmt.Println
_, _ = snappy.ErrCorrupt, p.P
}
`,
},
// Merge import blocks, even when no additions are required.
{
name: "merge_import_blocks_no_fix",
in: `package foo
import (
"fmt"
)
import "os"
import (
"rsc.io/p"
)
var _, _ = os.Args, fmt.Println
var _, _ = snappy.ErrCorrupt, p.P
`,
out: `package foo
import (
"fmt"
"os"
"github.com/golang/snappy"
"rsc.io/p"
)
var _, _ = os.Args, fmt.Println
var _, _ = snappy.ErrCorrupt, p.P
`,
},
// 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.ErrCorrupt
}
`,
out: `package foo
import (
"fmt"
"net"
"github.com/golang/snappy"
)
func f() {
_ = net.Dial
_ = fmt.Printf
_ = snappy.ErrCorrupt
}
`,
},
// Blank line between standard library and third-party stuff.
{
name: "blank_line_separating_std_and_third_party",
in: `package foo
import (
"github.com/golang/snappy"
"fmt"
"net"
)
func f() {
_ = net.Dial
_ = fmt.Printf
_ = snappy.Foo
}
`,
out: `package foo
import (
"fmt"
"net"
"github.com/golang/snappy"
)
func f() {
_ = net.Dial
_ = fmt.Printf
_ = snappy.Foo
}
`,
},
// golang.org/issue/6884
{
name: "new_imports_before_comment",
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: "new_section_for_dotless_import",
in: `package main
import (
"fmt"
"gu"
"manypackages.com/packagea"
)
var (
a = packagea.A
b = gu.A
c = fmt.Printf
)
`,
out: `package main
import (
"fmt"
"gu"
"manypackages.com/packagea"
)
var (
a = packagea.A
b = gu.A
c = fmt.Printf
)
`,
},
{
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: "remove_first_import_in_section",
in: `package main
import (
"fmt"
"manypackages.com/packagea"
"manypackages.com/packageb"
)
func main() {
var _ = fmt.Println
//var _ = packagea.A
var _ = packageb.B
}
`,
out: `package main
import (
"fmt"
"manypackages.com/packageb"
)
func main() {
var _ = fmt.Println
//var _ = packagea.A
var _ = packageb.B
}
`,
},
// Blank line can be added before all types of import declarations.
// golang.org/issue/7866
{
name: "new_section_for_all_kinds_of_imports",
in: `package main
import (
"fmt"
renamed_packagea "manypackages.com/packagea"
. "manypackages.com/packageb"
"io"
_ "manypackages.com/packagec"
"strings"
)
var _, _, _, _, _ = fmt.Errorf, io.Copy, strings.Contains, renamed_packagea.A, B
`,
out: `package main
import (
"fmt"
renamed_packagea "manypackages.com/packagea"
"io"
. "manypackages.com/packageb"
"strings"
_ "manypackages.com/packagec"
)
var _, _, _, _, _ = fmt.Errorf, io.Copy, strings.Contains, renamed_packagea.A, B
`,
},
// Non-idempotent comment formatting
// golang.org/issue/8035
{
name: "comments_formatted",
in: `package main
import (
"fmt" // A
"go/ast" // B
_ "manypackages.com/packagec" // C
)
func main() { _, _ = fmt.Print, ast.Walk }
`,
out: `package main
import (
"fmt" // A
"go/ast" // B
_ "manypackages.com/packagec" // C
)
func main() { _, _ = fmt.Print, ast.Walk }
`,
},
// Failure to delete all duplicate imports
// golang.org/issue/8459
{
name: "remove_duplicates",
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: "no_extra_groups",
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: "named_import_doesnt_provide_package_name",
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: "unused_named_import_removed",
in: `package main
import (
"fmt"
x "fmt"
)
func main() { fmt.Println() }
`,
out: `package main
import (
"fmt"
)
func main() { fmt.Println() }
`,
},
{
name: "ignore_unexported_identifier",
in: `package main
var _ = fmt.unexported`,
out: `package main
var _ = fmt.unexported
`,
},
// FormatOnly
{
name: "formatonly_works",
formatOnly: true,
in: `package main
import (
"fmt"
"manypackages.com/packagea"
)
func main() {}
`,
out: `package main
import (
"fmt"
"manypackages.com/packagea"
)
func main() {}
`,
},
{
name: "preserve_import_group",
in: `package p
import (
"bytes"
"fmt"
)
var _ = fmt.Sprintf
`,
out: `package p
import (
"fmt"
)
var _ = fmt.Sprintf
`,
},
{
name: "import_grouping_not_path_dependent_no_groups",
in: `package main
import (
"time"
)
func main() {
_ = snappy.ErrCorrupt
_ = p.P
_ = time.Parse
}
`,
out: `package main
import (
"time"
"github.com/golang/snappy"
"rsc.io/p"
)
func main() {
_ = snappy.ErrCorrupt
_ = p.P
_ = time.Parse
}
`,
},
{
name: "import_grouping_not_path_dependent_existing_group",
in: `package main
import (
"time"
"github.com/golang/snappy"
)
func main() {
_ = snappy.ErrCorrupt
_ = p.P
_ = time.Parse
}
`,
out: `package main
import (
"time"
"github.com/golang/snappy"
"rsc.io/p"
)
func main() {
_ = snappy.ErrCorrupt
_ = p.P
_ = time.Parse
}
`,
},
// golang.org/issue/12097
{
name: "package_statement_insertion_preserves_comments",
in: `// a
// b
// c
func main() {
_ = fmt.Println
}`,
out: `package main
import "fmt"
// a
// b
// c
func main() {
_ = fmt.Println
}
`,
},
{
name: "import_comment_stays_on_import",
in: `package main
import (
"math" // fun
)
func main() {
x := math.MaxInt64
fmt.Println(strings.Join(",", []string{"hi"}), x)
}`,
out: `package main
import (
"fmt"
"math" // fun
"strings"
)
func main() {
x := math.MaxInt64
fmt.Println(strings.Join(",", []string{"hi"}), x)
}
`,
},
{
name: "no_blank_after_comment",
in: `package main
import (
_ "io"
_ "net/http"
_ "net/http/pprof" // install the pprof http handlers
_ "strings"
)
func main() {
}
`,
out: `package main
import (
_ "io"
_ "net/http"
_ "net/http/pprof" // install the pprof http handlers
_ "strings"
)
func main() {
}
`,
},
{
name: "no_blank_after_comment_reordered",
in: `package main
import (
_ "io"
_ "net/http/pprof" // install the pprof http handlers
_ "net/http"
_ "strings"
)
func main() {
}
`,
out: `package main
import (
_ "io"
_ "net/http"
_ "net/http/pprof" // install the pprof http handlers
_ "strings"
)
func main() {
}
`,
},
{
name: "no_blank_after_comment_unnamed",
in: `package main
import (
"encoding/json"
"io"
"net/http"
_ "net/http/pprof" // install the pprof http handlers
"strings"
"manypackages.com/packagea"
)
func main() {
_ = strings.ToUpper("hello")
_ = io.EOF
var (
_ json.Number
_ *http.Request
_ packagea.A
)
}
`,
out: `package main
import (
"encoding/json"
"io"
"net/http"
_ "net/http/pprof" // install the pprof http handlers
"strings"
"manypackages.com/packagea"
)
func main() {
_ = strings.ToUpper("hello")
_ = io.EOF
var (
_ json.Number
_ *http.Request
_ packagea.A
)
}
`,
},
{
name: "blank_after_package_statement_with_comment",
in: `package p // comment
import "math"
var _ = fmt.Printf
`,
out: `package p // comment
import "fmt"
var _ = fmt.Printf
`,
},
{
name: "blank_after_package_statement_no_comment",
in: `package p
import "math"
var _ = fmt.Printf
`,
out: `package p
import "fmt"
var _ = fmt.Printf
`,
},
{
name: "cryptorand_preferred_easy_possible",
in: `package p
var _ = rand.Read
`,
out: `package p
import "crypto/rand"
var _ = rand.Read
`,
},
{
name: "cryptorand_preferred_easy_impossible",
in: `package p
var _ = rand.NewZipf
`,
out: `package p
import "math/rand"
var _ = rand.NewZipf
`,
},
{
name: "cryptorand_preferred_complex_possible",
in: `package p
var _, _ = rand.Read, rand.Prime
`,
out: `package p
import "crypto/rand"
var _, _ = rand.Read, rand.Prime
`,
},
{
name: "cryptorand_preferred_complex_impossible",
in: `package p
var _, _ = rand.Read, rand.NewZipf
`,
out: `package p
import "math/rand"
var _, _ = rand.Read, rand.NewZipf
`,
},
}
func TestSimpleCases(t *testing.T) {
const localPrefix = "local.com,github.com/local"
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
testConfig{
modules: []packagestest.Module{
{
Name: "golang.org/fake",
Files: fm{"x.go": tt.in},
},
// Skeleton non-stdlib packages for use during testing.
// Each includes one arbitrary symbol, e.g. the first declaration in the first file.
// Try not to add more without a good reason.
// DO NOT USE PACKAGES NOT LISTED HERE -- they will be downloaded!
{
Name: "rsc.io",
Files: fm{"p/x.go": "package p\nfunc P(){}\n"},
},
{
Name: "github.com/golang/snappy",
Files: fm{"x.go": "package snappy\nvar ErrCorrupt error\n"},
},
{
Name: "manypackages.com",
Files: fm{
"packagea/x.go": "package packagea\nfunc A(){}\n",
"packageb/x.go": "package packageb\nfunc B(){}\n",
"packagec/x.go": "package packagec\nfunc C(){}\n",
"packaged/x.go": "package packaged\nfunc D(){}\n",
},
},
{
Name: "local.com",
Files: fm{"foo/x.go": "package foo\nfunc Foo(){}\n"},
},
{
Name: "github.com/local",
Files: fm{"bar/x.go": "package bar\nfunc Bar(){}\n"},
},
},
}.test(t, func(t *goimportTest) {
options := &Options{
LocalPrefix: localPrefix,
TabWidth: 8,
TabIndent: true,
Comments: true,
Fragment: true,
FormatOnly: tt.formatOnly,
}
t.assertProcessEquals("golang.org/fake", "x.go", nil, options, tt.out)
})
})
}
}
func TestAppengine(t *testing.T) {
const input = `package p
var _, _, _ = fmt.Printf, appengine.Main, datastore.ErrInvalidEntityType
`
const want = `package p
import (
"fmt"
"appengine"
"appengine/datastore"
)
var _, _, _ = fmt.Printf, appengine.Main, datastore.ErrInvalidEntityType
`
testConfig{
gopathOnly: true, // can't create a module named appengine, so no module tests.
modules: []packagestest.Module{
{
Name: "golang.org/fake",
Files: fm{"x.go": input},
},
{
Name: "appengine",
Files: fm{
"x.go": "package appengine\nfunc Main(){}\n",
"datastore/x.go": "package datastore\nvar ErrInvalidEntityType error\n",
},
},
},
}.processTest(t, "golang.org/fake", "x.go", nil, nil, want)
}
func TestReadFromFilesystem(t *testing.T) {
tests := []struct {
name string
in, out string
}{
{
name: "works",
in: `package foo
func bar() {
fmt.Println("hi")
}
`,
out: `package foo
import "fmt"
func bar() {
fmt.Println("hi")
}
`,
},
{
name: "missing_package",
in: `
func bar() {
fmt.Println("hi")
}
`,
out: `
import "fmt"
func bar() {
fmt.Println("hi")
}
`,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
options := &Options{
TabWidth: 8,
TabIndent: true,
Comments: true,
Fragment: true,
}
testConfig{
module: packagestest.Module{
Name: "golang.org/fake",
Files: fm{"x.go": tt.in},
},
}.processTest(t, "golang.org/fake", "x.go", nil, options, 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)
}
const input = `package p
var (
_ = fmt.Print
_ = mypkg.Foo
)
`
const want = `package p
import (
"fmt"
"golang.org/fake/x/y/mypkg"
)
var (
_ = fmt.Print
_ = mypkg.Foo
)
`
testConfig{
module: packagestest.Module{
Name: "golang.org/fake",
Files: fm{
"target/f.go": "package mypkg\nvar Foo = 123\n",
"x/y/mypkg": packagestest.Symlink("../../target"), // valid symlink
"x/y/apkg": packagestest.Symlink(".."), // symlink loop
"myotherpackage/toformat.go": input,
},
},
}.processTest(t, "golang.org/fake", "myotherpackage/toformat.go", nil, nil, want)
}
func TestImportSymlinksWithIgnore(t *testing.T) {
switch runtime.GOOS {
case "windows", "plan9":
t.Skipf("skipping test on %q as there are no symlinks", runtime.GOOS)
}
const input = `package p
var (
_ = fmt.Print
_ = mypkg.Foo
)
`
const want = `package p
import "fmt"
var (
_ = fmt.Print
_ = mypkg.Foo
)
`
testConfig{
gopathOnly: true,
module: packagestest.Module{
Name: "golang.org/fake",
Files: fm{
"target/f.go": "package mypkg\nvar Foo = 123\n",
"x/y/mypkg": packagestest.Symlink("../../target"), // valid symlink
"x/y/apkg": packagestest.Symlink(".."), // symlink loop
"myotherpkg/toformat.go": input,
"../../.goimportsignore": "golang.org/fake/x/y/mypkg\n",
},
},
}.processTest(t, "golang.org/fake", "myotherpkg/toformat.go", nil, nil, want)
}
// Test for x/y/v2 convention for package y.
func TestModuleVersion(t *testing.T) {
const input = `package p
import (
"fmt"
"github.com/foo/v2"
)
var (
_ = fmt.Print
_ = foo.Foo
)
`
testConfig{
modules: []packagestest.Module{
{
Name: "mypkg.com/outpkg",
Files: fm{"toformat.go": input},
},
{
Name: "github.com/foo/v2",
Files: fm{"x.go": "package foo\n func Foo(){}\n"},
},
},
}.processTest(t, "mypkg.com/outpkg", "toformat.go", nil, nil, input)
}
// 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 TestVendorPackage(t *testing.T) {
const input = `package p
import (
"fmt"
"mypkg.com/mypkg_v1"
)
var _, _ = fmt.Print, mypkg.Foo
`
const want = `package p
import (
"fmt"
mypkg "mypkg.com/mypkg_v1"
)
var _, _ = fmt.Print, mypkg.Foo
`
testConfig{
gopathOnly: true,
module: packagestest.Module{
Name: "mypkg.com/outpkg",
Files: fm{
"vendor/mypkg.com/mypkg_v1/f.go": "package mypkg\nvar Foo = 123\n",
"toformat.go": input,
},
},
}.processTest(t, "mypkg.com/outpkg", "toformat.go", nil, nil, want)
}
func TestInternal(t *testing.T) {
const input = `package bar
var _ = race.Acquire
`
const importAdded = `package bar
import "foo.com/internal/race"
var _ = race.Acquire
`
// Packages under the same directory should be able to use internal packages.
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"internal/race/x.go": "package race\n func Acquire(){}\n",
"bar/x.go": input,
},
},
}.processTest(t, "foo.com", "bar/x.go", nil, nil, importAdded)
// Packages outside the same directory should not.
testConfig{
modules: []packagestest.Module{
{
Name: "foo.com",
Files: fm{"internal/race/x.go": "package race\n func Acquire(){}\n"},
},
{
Name: "bar.com",
Files: fm{"x.go": input},
},
},
}.processTest(t, "bar.com", "x.go", nil, nil, input)
}
func TestProcessVendor(t *testing.T) {
const input = `package p
var _ = hpack.HuffmanDecode
`
const want = `package p
import "golang.org/x/net/http2/hpack"
var _ = hpack.HuffmanDecode
`
testConfig{
gopathOnly: true,
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"vendor/golang.org/x/net/http2/hpack/huffman.go": "package hpack\nfunc HuffmanDecode() { }\n",
"bar/x.go": input,
},
},
}.processTest(t, "foo.com", "bar/x.go", nil, nil, want)
}
func TestFindStdlib(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 {
input := "package p\n"
for _, sym := range tt.symbols {
input += fmt.Sprintf("var _ = %s.%s\n", tt.pkg, sym)
}
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{"x.go": input},
},
}.test(t, func(t *goimportTest) {
buf, err := t.process("foo.com", "x.go", nil, nil)
if err != nil {
t.Fatal(err)
}
if got := string(buf); !strings.Contains(got, tt.want) {
t.Errorf("Process(%q) = %q, wanted it to contain %q", input, buf, tt.want)
}
})
}
}
// https://golang.org/issue/31814
func TestStdlibNotPrefixed(t *testing.T) {
const input = `package p
var _ = bytes.Buffer
`
const want = `package p
import "bytes"
var _ = bytes.Buffer
`
// Force a scan of the stdlib.
savedStdlib := stdlib
defer func() { stdlib = savedStdlib }()
stdlib = map[string][]string{}
testConfig{
module: packagestest.Module{
Name: "ignored.com",
Files: fm{"x.go": "package x"},
},
}.test(t, func(t *goimportTest) {
// Run in GOROOT/src so that the std module shows up in go list -m all.
t.env.WorkingDir = filepath.Join(t.goroot, "src")
got, err := t.processNonModule(filepath.Join(t.goroot, "src/x.go"), []byte(input), nil)
if err != nil {
t.Fatalf("Process() = %v", err)
}
if string(got) != want {
t.Errorf("Got:\n%s\nWant:\n%s", got, want)
}
})
}
func TestStdlibSelfImports(t *testing.T) {
const input = `package ecdsa
var _ = ecdsa.GenerateKey
`
testConfig{
module: packagestest.Module{
Name: "ignored.com",
Files: fm{"x.go": "package x"},
},
}.test(t, func(t *goimportTest) {
got, err := t.processNonModule(filepath.Join(t.goroot, "src/crypto/ecdsa/foo.go"), []byte(input), nil)
if err != nil {
t.Fatalf("Process() = %v", err)
}
if string(got) != input {
t.Errorf("Got:\n%s\nWant:\n%s", got, input)
}
})
}
type testConfig struct {
gopathOnly bool
module packagestest.Module
modules []packagestest.Module
}
// fm is the type for a packagestest.Module's Files, abbreviated for shorter lines.
type fm map[string]interface{}
func (c testConfig) test(t *testing.T, fn func(*goimportTest)) {
t.Helper()
if c.module.Name != "" {
c.modules = []packagestest.Module{c.module}
}
for _, exporter := range packagestest.All {
t.Run(exporter.Name(), func(t *testing.T) {
t.Helper()
if c.gopathOnly && exporter.Name() == "Modules" {
t.Skip("test marked GOPATH-only")
}
exported := packagestest.Export(t, exporter, c.modules)
defer exported.Cleanup()
env := map[string]string{}
for _, kv := range exported.Config.Env {
split := strings.SplitN(kv, "=", 2)
env[split[0]] = split[1]
}
it := &goimportTest{
T: t,
env: &ProcessEnv{
Env: env,
WorkingDir: exported.Config.Dir,
GocmdRunner: &gocommand.Runner{},
},
exported: exported,
}
if *testDebug {
it.env.Logf = log.Printf
}
// packagestest clears out GOROOT to work around golang/go#32849,
// which isn't relevant here. Fill it back in so we can find the standard library.
it.env.Env["GOROOT"] = build.Default.GOROOT
it.goroot = build.Default.GOROOT
fn(it)
})
}
}
func (c testConfig) processTest(t *testing.T, module, file string, contents []byte, opts *Options, want string) {
t.Helper()
c.test(t, func(t *goimportTest) {
t.Helper()
t.assertProcessEquals(module, file, contents, opts, want)
})
}
type goimportTest struct {
*testing.T
goroot string
env *ProcessEnv
exported *packagestest.Exported
}
func (t *goimportTest) process(module, file string, contents []byte, opts *Options) ([]byte, error) {
t.Helper()
f := t.exported.File(module, file)
if f == "" {
t.Fatalf("%v not found in exported files (typo in filename?)", file)
}
return t.processNonModule(f, contents, opts)
}
func (t *goimportTest) processNonModule(file string, contents []byte, opts *Options) ([]byte, error) {
if contents == nil {
var err error
contents, err = ioutil.ReadFile(file)
if err != nil {
return nil, err
}
}
if opts == nil {
opts = &Options{Comments: true, TabIndent: true, TabWidth: 8}
}
// ProcessEnv is not safe for concurrent use. Make a copy.
opts.Env = t.env.CopyConfig()
return Process(file, contents, opts)
}
func (t *goimportTest) assertProcessEquals(module, file string, contents []byte, opts *Options, want string) {
buf, err := t.process(module, file, contents, opts)
if err != nil {
t.Fatalf("Process() = %v", err)
}
if string(buf) != want {
t.Errorf("Got:\n%s\nWant:\n%s", buf, want)
}
}
// Tests that added imports are renamed when the import path's base doesn't
// match its package name.
func TestRenameWhenPackageNameMismatch(t *testing.T) {
const input = `package main
const Y = bar.X`
const want = `package main
import bar "foo.com/foo/bar/baz"
const Y = bar.X
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"foo/bar/baz/x.go": "package bar \n const X = 1",
"test/t.go": input,
},
},
}.processTest(t, "foo.com", "test/t.go", nil, nil, want)
}
// Tests that an existing import with badly mismatched path/name has its name
// correctly added. See #28645 and #29041.
func TestAddNameToMismatchedImport(t *testing.T) {
const input = `package main
import (
"foo.com/a.thing"
"foo.com/surprise"
"foo.com/v1"
"foo.com/other/v2"
"foo.com/other/v3"
"foo.com/go-thing"
"foo.com/go-wrong"
)
var _ = []interface{}{bar.X, v1.Y, a.A, v2.V2, other.V3, thing.Thing, gow.Wrong}`
const want = `package main
import (
"foo.com/a.thing"
"foo.com/go-thing"
gow "foo.com/go-wrong"
v2 "foo.com/other/v2"
"foo.com/other/v3"
bar "foo.com/surprise"
v1 "foo.com/v1"
)
var _ = []interface{}{bar.X, v1.Y, a.A, v2.V2, other.V3, thing.Thing, gow.Wrong}
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"a.thing/a.go": "package a \n const A = 1",
"surprise/x.go": "package bar \n const X = 1",
"v1/x.go": "package v1 \n const Y = 1",
"other/v2/y.go": "package v2 \n const V2 = 1",
"other/v3/z.go": "package other \n const V3 = 1",
"go-thing/b.go": "package thing \n const Thing = 1",
"go-wrong/b.go": "package gow \n const Wrong = 1",
"test/t.go": input,
},
},
}.processTest(t, "foo.com", "test/t.go", nil, nil, want)
}
// Tests that the LocalPrefix option causes imports
// to be added into a later group (num=3).
func TestLocalPrefix(t *testing.T) {
tests := []struct {
name string
modules []packagestest.Module
localPrefix string
src string
want string
}{
{
name: "one_local",
modules: []packagestest.Module{
{
Name: "foo.com",
Files: fm{
"bar/bar.go": "package bar \n const X = 1",
},
},
},
localPrefix: "foo.com/",
src: "package main \n const Y = bar.X \n const _ = runtime.GOOS",
want: `package main
import (
"runtime"
"foo.com/bar"
)
const Y = bar.X
const _ = runtime.GOOS
`,
},
{
name: "two_local",
modules: []packagestest.Module{
{
Name: "foo.com",
Files: fm{
"foo/foo.go": "package foo \n const X = 1",
"foo/bar/bar.go": "package bar \n const X = 1",
},
},
},
localPrefix: "foo.com/foo",
src: "package main \n const Y = bar.X \n const Z = foo.X \n const _ = runtime.GOOS",
want: `package main
import (
"runtime"
"foo.com/foo"
"foo.com/foo/bar"
)
const Y = bar.X
const Z = foo.X
const _ = runtime.GOOS
`,
},
{
name: "three_prefixes",
modules: []packagestest.Module{
{
Name: "example.org/pkg",
Files: fm{"pkg.go": "package pkg \n const A = 1"},
},
{
Name: "foo.com",
Files: fm{"bar/bar.go": "package bar \n const B = 1"},
},
{
Name: "code.org/r/p",
Files: fm{"expproj/expproj.go": "package expproj \n const C = 1"},
},
},
localPrefix: "example.org/pkg,foo.com/,code.org",
src: "package main \n const X = pkg.A \n const Y = bar.B \n const Z = expproj.C \n const _ = runtime.GOOS",
want: `package main
import (
"runtime"
"code.org/r/p/expproj"
"example.org/pkg"
"foo.com/bar"
)
const X = pkg.A
const Y = bar.B
const Z = expproj.C
const _ = runtime.GOOS
`,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
testConfig{
// The module being processed has to be first so it's the primary module.
modules: append([]packagestest.Module{{
Name: "test.com",
Files: fm{"t.go": tt.src},
}}, tt.modules...),
}.test(t, func(t *goimportTest) {
options := &Options{
LocalPrefix: tt.localPrefix,
TabWidth: 8,
TabIndent: true,
Comments: true,
Fragment: true,
}
t.assertProcessEquals("test.com", "t.go", nil, options, tt.want)
})
})
}
}
// Tests that "package documentation" files are ignored.
func TestIgnoreDocumentationPackage(t *testing.T) {
const input = `package x
const Y = foo.X
`
const want = `package x
import "foo.com/foo"
const Y = foo.X
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"foo/foo.go": "package foo\nconst X = 1\n",
"foo/doc.go": "package documentation \n // just to confuse things\n",
"x/x.go": input,
},
},
}.processTest(t, "foo.com", "x/x.go", nil, nil, 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{
module: packagestest.Module{
Name: "example.net/pkg",
Files: fm{
"doc.go": "package documentation\n", // ignored
"gen.go": "package main\n", // also ignored
"pkg.go": "package the_pkg_name_to_find\n and this syntax error is ignored because of parser.PackageClauseOnly",
"z.go": "package inconsistent\n", // inconsistent but ignored
},
},
}.test(t, func(t *goimportTest) {
if strings.Contains(t.Name(), "GoPackages") {
t.Skip("go/packages does not ignore package main")
}
r, err := t.env.GetResolver()
if err != nil {
t.Fatal(err)
}
srcDir := filepath.Dir(t.exported.File("example.net/pkg", "z.go"))
names, err := r.loadPackageNames([]string{"example.net/pkg"}, srcDir)
if err != nil {
t.Fatal(err)
}
const want = "the_pkg_name_to_find"
if got := names["example.net/pkg"]; got != want {
t.Errorf("loadPackageNames(..) = %q; want %q", got, want)
}
})
}
func TestIgnoreConfiguration(t *testing.T) {
const input = `package x
const _ = pkg.X
`
const want = `package x
import "foo.com/otherwise-longer-so-worse-example/foo/pkg"
const _ = pkg.X
`
testConfig{
gopathOnly: true,
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"../.goimportsignore": "# comment line\n\n foo.com/example", // tests comment, blank line, whitespace trimming
"example/pkg/pkg.go": "package pkg\nconst X = 1",
"otherwise-longer-so-worse-example/foo/pkg/pkg.go": "package pkg\nconst X = 1",
"x/x.go": input,
},
},
}.processTest(t, "foo.com", "x/x.go", nil, nil, want)
}
// Skip "node_modules" directory.
func TestSkipNodeModules(t *testing.T) {
const input = `package x
const _ = pkg.X
`
const want = `package x
import "foo.com/otherwise-longer/not_modules/pkg"
const _ = pkg.X
`
testConfig{
gopathOnly: true,
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"example/node_modules/pkg/a.go": "package pkg\nconst X = 1",
"otherwise-longer/not_modules/pkg/a.go": "package pkg\nconst X = 1",
"x/x.go": input,
},
},
}.processTest(t, "foo.com", "x/x.go", nil, nil, want)
}
// 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 usesGlobal = `package pkg
func doSomething() {
t := time.Now()
}
`
const declaresGlobal = `package pkg
type Time struct{}
func (t Time) Now() Time {
return Time{}
}
var time Time
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"pkg/uses.go": usesGlobal,
"pkg/global.go": declaresGlobal,
},
},
}.processTest(t, "foo.com", "pkg/uses.go", nil, nil, usesGlobal)
}
// Some people put multiple packages' files in the same directory. Globals
// declared in other packages should be ignored.
func TestGlobalImports_DifferentPackage(t *testing.T) {
const declaresGlobal = `package main
var fmt int
`
const input = `package pkg
var _ = fmt.Printf
`
const want = `package pkg
import "fmt"
var _ = fmt.Printf
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"pkg/main.go": declaresGlobal,
"pkg/uses.go": input,
},
},
}.processTest(t, "foo.com", "pkg/uses.go", nil, nil, want)
}
func TestGlobalImports_MultipleMains(t *testing.T) {
const declaresGlobal = `package main
var fmt int
`
const input = `package main
import "fmt"
var _, _ = fmt.Printf, bytes.Equal
`
const want = `package main
import (
"bytes"
"fmt"
)
var _, _ = fmt.Printf, bytes.Equal
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"pkg/main.go": declaresGlobal,
"pkg/uses.go": input,
},
},
}.processTest(t, "foo.com", "pkg/uses.go", nil, nil, want)
}
// Tests that sibling files - other files in the same package - can provide an
// import that may not be the default one otherwise.
func TestSiblingImports(t *testing.T) {
// provide is the sibling file that provides the desired import.
const provide = `package siblingimporttest
import "local/log"
import "my/bytes"
import renamed "fmt"
func LogSomething() {
log.Print("Something")
bytes.SomeFunc()
renamed.Println("Something")
}
`
// need is the file being tested that needs the import.
const need = `package siblingimporttest
var _ = bytes.Buffer{}
func LogSomethingElse() {
log.Print("Something else")
renamed.Println("Yet another")
}
`
// want is the expected result file
const want = `package siblingimporttest
import (
"bytes"
renamed "fmt"
"local/log"
)
var _ = bytes.Buffer{}
func LogSomethingElse() {
log.Print("Something else")
renamed.Println("Yet another")
}
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"p/needs_import.go": need,
"p/provides_import.go": provide,
},
},
}.processTest(t, "foo.com", "p/needs_import.go", nil, nil, want)
}
// Tests #29180: a sibling import of the right package with the wrong name is used.
func TestSiblingImport_Misnamed(t *testing.T) {
const sibling = `package main
import renamed "fmt"
var _ = renamed.Printf
`
const input = `package pkg
var _ = fmt.Printf
`
const want = `package pkg
import "fmt"
var _ = fmt.Printf
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"pkg/main.go": sibling,
"pkg/uses.go": input,
},
},
}.processTest(t, "foo.com", "pkg/uses.go", nil, nil, want)
}
// Tests that an input file's own package is ignored.
func TestIgnoreOwnPackage(t *testing.T) {
const input = `package pkg
const _ = pkg.X
`
const want = `package pkg
const _ = pkg.X
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"pkg/a.go": "package pkg\nconst X = 1",
"pkg/b.go": input,
},
},
}.processTest(t, "foo.com", "pkg/b.go", nil, nil, want)
}
func TestExternalTestImportsPackageUnderTest(t *testing.T) {
const provide = `package pkg
func DoIt(){}
`
const input = `package pkg_test
var _ = pkg.DoIt`
const want = `package pkg_test
import "foo.com/pkg"
var _ = pkg.DoIt
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"pkg/provide.go": provide,
"pkg/x_test.go": input,
},
},
}.processTest(t, "foo.com", "pkg/x_test.go", nil, nil, want)
}
func TestPkgIsCandidate(t *testing.T) {
tests := []struct {
name string
filename string
pkgIdent string
pkg *pkg
want bool
}{
{
name: "normal_match",
filename: "/gopath/src/my/pkg/pkg.go",
pkgIdent: "client",
pkg: &pkg{
dir: "/gopath/src/client",
importPathShort: "client",
},
want: true,
},
{
name: "no_match",
filename: "/gopath/src/my/pkg/pkg.go",
pkgIdent: "zzz",
pkg: &pkg{
dir: "/gopath/src/client",
importPathShort: "client",
},
want: false,
},
{
name: "match_too_early",
filename: "/gopath/src/my/pkg/pkg.go",
pkgIdent: "client",
pkg: &pkg{
dir: "/gopath/src/client/foo/foo/foo",
importPathShort: "client/foo/foo",
},
want: false,
},
{
name: "substring_match",
filename: "/gopath/src/my/pkg/pkg.go",
pkgIdent: "client",
pkg: &pkg{
dir: "/gopath/src/foo/go-client",
importPathShort: "foo/go-client",
},
want: true,
},
{
name: "hidden_internal",
filename: "/gopath/src/my/pkg/pkg.go",
pkgIdent: "client",
pkg: &pkg{
dir: "/gopath/src/foo/internal/client",
importPathShort: "foo/internal/client",
},
want: false,
},
{
name: "visible_internal",
filename: "/gopath/src/foo/bar.go",
pkgIdent: "client",
pkg: &pkg{
dir: "/gopath/src/foo/internal/client",
importPathShort: "foo/internal/client",
},
want: true,
},
{
name: "invisible_vendor",
filename: "/gopath/src/foo/bar.go",
pkgIdent: "client",
pkg: &pkg{
dir: "/gopath/src/other/vendor/client",
importPathShort: "client",
},
want: false,
},
{
name: "visible_vendor",
filename: "/gopath/src/foo/bar.go",
pkgIdent: "client",
pkg: &pkg{
dir: "/gopath/src/foo/vendor/client",
importPathShort: "client",
},
want: true,
},
{
name: "match_with_hyphens",
filename: "/gopath/src/foo/bar.go",
pkgIdent: "socketio",
pkg: &pkg{
dir: "/gopath/src/foo/socket-io",
importPathShort: "foo/socket-io",
},
want: true,
},
{
name: "match_with_mixed_case",
filename: "/gopath/src/foo/bar.go",
pkgIdent: "fooprod",
pkg: &pkg{
dir: "/gopath/src/foo/FooPROD",
importPathShort: "foo/FooPROD",
},
want: true,
},
{
name: "matches_with_hyphen_and_caps",
filename: "/gopath/src/foo/bar.go",
pkgIdent: "fooprod",
pkg: &pkg{
dir: "/gopath/src/foo/Foo-PROD",
importPathShort: "foo/Foo-PROD",
},
want: true,
},
}
for i, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
refs := references{tt.pkgIdent: nil}
got := pkgIsCandidate(tt.filename, refs, 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)
}
})
}
}
// Issue 20941: this used to panic on Windows.
func TestProcessStdin(t *testing.T) {
testConfig{
module: packagestest.Module{
Name: "foo.com",
},
}.test(t, func(t *goimportTest) {
got, err := t.processNonModule("<standard input>", []byte("package main\nfunc main() {\n\tfmt.Println(123)\n}\n"), nil)
if err != nil {
t.Fatal(err)
}
if !strings.Contains(string(got), `"fmt"`) {
t.Errorf("expected fmt import; got: %s", got)
}
})
}
// Tests LocalPackagePromotion when there is a local package that matches, it
// should be the closest match.
// https://golang.org/issues/17557
func TestLocalPackagePromotion(t *testing.T) {
const input = `package main
var c = &config.SystemConfig{}
`
const want = `package main
import "mycompany.net/tool/config"
var c = &config.SystemConfig{}
`
testConfig{
modules: []packagestest.Module{
{
Name: "config.net/config",
Files: fm{"config.go": "package config\n type SystemConfig struct {}"}, // Will match but should not be first choice
},
{
Name: "mycompany.net/config",
Files: fm{"config.go": "package config\n type SystemConfig struct {}"}, // Will match but should not be first choice
},
{
Name: "mycompany.net/tool",
Files: fm{
"config/config.go": "package config\n type SystemConfig struct {}", // Local package should be promoted over shorter package
"main.go": input,
},
},
},
}.processTest(t, "mycompany.net/tool", "main.go", nil, nil, want)
}
// Tests FindImportInLocalGoFiles looks at the import lines for other Go files in the
// local directory, since the user is likely to import the same packages in the current
// Go file. If an import is found that satisfies the need, it should be used over the
// standard library.
// https://golang.org/issues/17557
func TestFindImportInLocalGoFiles(t *testing.T) {
const input = `package main
var _ = &bytes.Buffer{}`
const want = `package main
import "bytes.net/bytes"
var _ = &bytes.Buffer{}
`
testConfig{
modules: []packagestest.Module{
{
Name: "mycompany.net/tool",
Files: fm{
"io.go": "package main\n import \"bytes.net/bytes\"\n var _ = &bytes.Buffer{}", // Contains package import that will cause stdlib to be ignored
"main.go": input,
},
},
{
Name: "bytes.net/bytes",
Files: fm{"bytes.go": "package bytes\n type Buffer struct {}"}, // Should be selected over standard library
},
},
}.processTest(t, "mycompany.net/tool", "main.go", nil, nil, want)
}
func TestInMemoryFile(t *testing.T) {
const input = `package main
var _ = &bytes.Buffer{}`
const want = `package main
import "bytes"
var _ = &bytes.Buffer{}
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{"x.go": "package x\n"},
},
}.processTest(t, "foo.com", "x.go", []byte(input), nil, want)
}
func TestImportNoGoFiles(t *testing.T) {
const input = `package main
var _ = &bytes.Buffer{}`
const want = `package main
import "bytes"
var _ = &bytes.Buffer{}
`
testConfig{
module: packagestest.Module{
Name: "mycompany.net",
},
}.test(t, func(t *goimportTest) {
buf, err := t.processNonModule("mycompany.net/tool/main.go", []byte(input), nil)
if err != nil {
t.Fatalf("Process() = %v", err)
}
if string(buf) != want {
t.Errorf("Got:\n%s\nWant:\n%s", buf, want)
}
})
}
// Ensures a token as large as 500000 bytes can be handled
// https://golang.org/issues/18201
func TestProcessLargeToken(t *testing.T) {
largeString := strings.Repeat("x", 500000)
input := `package testimports
import (
"bytes"
)
const s = fmt.Sprintf("%s", "` + largeString + `")
var _ = bytes.Buffer{}
// end
`
want := `package testimports
import (
"bytes"
"fmt"
)
const s = fmt.Sprintf("%s", "` + largeString + `")
var _ = bytes.Buffer{}
// end
`
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{"foo.go": input},
},
}.processTest(t, "foo.com", "foo.go", nil, nil, want)
}
// Tests that an external test package will import the package under test if it
// also uses symbols exported only in test files.
// https://golang.org/issues/29979
func TestExternalTest(t *testing.T) {
const input = `package a_test
func TestX() {
a.X()
a.Y()
}
`
const want = `package a_test
import "foo.com/a"
func TestX() {
a.X()
a.Y()
}
`
testConfig{
modules: []packagestest.Module{
{
Name: "foo.com/a",
Files: fm{
"a.go": "package a\n func X() {}",
"export_test.go": "package a\n func Y() {}",
"a_test.go": input,
},
},
},
}.processTest(t, "foo.com/a", "a_test.go", nil, nil, want)
}
// TestGetCandidates tests that get packages finds packages
// with correct priorities.
func TestGetCandidates(t *testing.T) {
type res struct {
relevance float64
name, path string
}
want := []res{
{0, "bytes", "bytes"},
{0, "http", "net/http"},
{0, "rand", "crypto/rand"},
{0, "bar", "bar.com/bar"},
{0, "foo", "foo.com/foo"},
}
testConfig{
modules: []packagestest.Module{
{
Name: "bar.com",
Files: fm{"bar/bar.go": "package bar\n"},
},
{
Name: "foo.com",
Files: fm{"foo/foo.go": "package foo\n"},
},
},
}.test(t, func(t *goimportTest) {
var mu sync.Mutex
var got []res
add := func(c ImportFix) {
mu.Lock()
defer mu.Unlock()
for _, w := range want {
if c.StmtInfo.ImportPath == w.path {
got = append(got, res{c.Relevance, c.IdentName, c.StmtInfo.ImportPath})
}
}
}
if err := GetAllCandidates(context.Background(), add, "", "x.go", "x", t.env); err != nil {
t.Fatalf("GetAllCandidates() = %v", err)
}
// Sort, then clear out relevance so it doesn't mess up the DeepEqual.
sort.Slice(got, func(i, j int) bool {
ri, rj := got[i], got[j]
if ri.relevance != rj.relevance {
return ri.relevance > rj.relevance // Highest first.
}
return ri.name < rj.name
})
for i := range got {
got[i].relevance = 0
}
if !reflect.DeepEqual(want, got) {
t.Errorf("wanted results in order %v, got %v", want, got)
}
})
}
func TestGetImportPaths(t *testing.T) {
type res struct {
relevance float64
name, path string
}
want := []res{
{0, "http", "net/http"},
{0, "net", "net"},
{0, "neta", "neta.com/neta"},
}
testConfig{
modules: []packagestest.Module{
{
Name: "neta.com",
Files: fm{"neta/neta.go": "package neta\n"},
},
},
}.test(t, func(t *goimportTest) {
var mu sync.Mutex
var got []res
add := func(c ImportFix) {
mu.Lock()
defer mu.Unlock()
for _, w := range want {
if c.StmtInfo.ImportPath == w.path {
got = append(got, res{c.Relevance, c.IdentName, c.StmtInfo.ImportPath})
}
}
}
if err := GetImportPaths(context.Background(), add, "ne", "x.go", "x", t.env); err != nil {
t.Fatalf("GetImportPaths() = %v", err)
}
// Sort, then clear out relevance so it doesn't mess up the DeepEqual.
sort.Slice(got, func(i, j int) bool {
ri, rj := got[i], got[j]
if ri.relevance != rj.relevance {
return ri.relevance > rj.relevance // Highest first.
}
return ri.name < rj.name
})
for i := range got {
got[i].relevance = 0
}
if !reflect.DeepEqual(want, got) {
t.Errorf("wanted results in order %v, got %v", want, got)
}
})
}
func TestGetPackageCompletions(t *testing.T) {
type res struct {
relevance float64
name, path, symbol string
}
want := []res{
{0, "rand", "math/rand", "Seed"},
{0, "rand", "bar.com/rand", "Bar"},
}
testConfig{
modules: []packagestest.Module{
{
Name: "bar.com",
Files: fm{"rand/bar.go": "package rand\nvar Bar int\n"},
},
},
}.test(t, func(t *goimportTest) {
var mu sync.Mutex
var got []res
add := func(c PackageExport) {
mu.Lock()
defer mu.Unlock()
for _, csym := range c.Exports {
for _, w := range want {
if c.Fix.StmtInfo.ImportPath == w.path && csym == w.symbol {
got = append(got, res{c.Fix.Relevance, c.Fix.IdentName, c.Fix.StmtInfo.ImportPath, csym})
}
}
}
}
if err := GetPackageExports(context.Background(), add, "rand", "x.go", "x", t.env); err != nil {
t.Fatalf("getPackageCompletions() = %v", err)
}
// Sort, then clear out relevance so it doesn't mess up the DeepEqual.
sort.Slice(got, func(i, j int) bool {
ri, rj := got[i], got[j]
if ri.relevance != rj.relevance {
return ri.relevance > rj.relevance // Highest first.
}
return ri.name < rj.name
})
for i := range got {
got[i].relevance = 0
}
if !reflect.DeepEqual(want, got) {
t.Errorf("wanted results in order %v, got %v", want, got)
}
})
}
// Tests #34895: process should not panic on concurrent calls.
func TestConcurrentProcess(t *testing.T) {
testConfig{
module: packagestest.Module{
Name: "foo.com",
Files: fm{
"p/first.go": `package foo
func _() {
fmt.Println()
}
`,
"p/second.go": `package foo
import "fmt"
func _() {
fmt.Println()
imports.Bar() // not imported.
}
`,
},
},
}.test(t, func(t *goimportTest) {
var (
n = 10
wg sync.WaitGroup
)
wg.Add(n)
for i := 0; i < n; i++ {
go func() {
defer wg.Done()
_, err := t.process("foo.com", "p/first.go", nil, nil)
if err != nil {
t.Error(err)
}
}()
}
wg.Wait()
})
}
func TestNonlocalDot(t *testing.T) {
const input = `package main
import (
"fmt"
)
var _, _ = fmt.Sprintf, dot.Dot
`
const want = `package main
import (
"fmt"
"noninternet/dot.v1/dot"
)
var _, _ = fmt.Sprintf, dot.Dot
`
testConfig{
modules: []packagestest.Module{
{
Name: "golang.org/fake",
Files: fm{"x.go": input},
},
{
Name: "noninternet/dot.v1",
Files: fm{
"dot/dot.go": "package dot\nfunc Dot(){}\n",
},
},
},
gopathOnly: true, // our modules testing setup doesn't allow modules without dots.
}.processTest(t, "golang.org/fake", "x.go", nil, nil, want)
}