1
0
mirror of https://github.com/golang/go synced 2024-11-18 16:04:44 -07:00
go/internal/imports/fix_test.go
Heschi Kreinick 416e8f4faf internal/imports: require valid options, move LocalPrefix up
CL 239754 eagerly initialized the environment. This turns out to be a
problem for gopls, which calls ApplyFixes with no ProcessEnv.
Reinitializing it every time seriously harmed the performance of
unimported completions. Move back to lazy initialization.

Working with invalid options has caused a lot of confusion; this is only
the most recent. We have to maintain backwards compatibility in the
externally visible API, but everywhere else we can require fully
populated options. That includes the source byte slice and the options.

LocalPrefix is really more of an Option than an attribute of the
ProcessEnv, and it is needed in ApplyFixes where we really don't want to
have to pass a ProcessEnv. Move it up to Options.

Change-Id: Ib9466c375a640a521721da4587091bf93bbdaa3c
Reviewed-on: https://go-review.googlesource.com/c/tools/+/241159
Run-TryBot: Heschi Kreinick <heschi@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Rebecca Stambler <rstambler@golang.org>
2020-07-07 20:02:13 +00:00

2744 lines
49 KiB
Go

// 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.env.goroot(), "src")
got, err := t.processNonModule(filepath.Join(t.env.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.env.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
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
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)
}
// TestStdLibGetCandidates tests that get packages finds std library packages
// with correct priorities.
func TestGetCandidates(t *testing.T) {
type res struct {
relevance int
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 stdlib results in order %v, got %v", want, got)
}
})
}
func TestGetPackageCompletions(t *testing.T) {
type res struct {
relevance int
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 stdlib 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)
}