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mirror of https://github.com/golang/go synced 2024-11-25 03:57:56 -07:00

cmd/go: fix relative imports again

I tried before to make relative imports work by simply
invoking the compiler in the right directory, so that
an import of ./foo could be resolved by ./foo.a.
This required creating a separate tree of package binaries
that included the full path to the source directory, so that
/home/gopher/bar.go would be compiled in
tmpdir/work/local/home/gopher and perhaps find
a ./foo.a in that directory.

This model breaks on Windows because : appears in path
names but cannot be used in subdirectory names, and I
missed one or two places where it needed to be removed.

The model breaks more fundamentally when compiling
a test of a package that lives outside the Go path, because
we effectively use a ./ import in the generated testmain,
but there we want to be able to resolve the ./ import
of the test package to one directory and all the other ./
imports to a different directory.  Piggybacking on the compiler's
current working directory is then no longer possible.

Instead, introduce a new compiler option -D prefix that
makes the compiler turn a ./ import into prefix+that,
so that import "./foo" with -D a/b/c turns into import
"a/b/c/foo".  Then we can invent a package hierarchy
"_/" with subdirectories named for file system paths:
import "./foo" in the directory /home/gopher becomes
import "_/home/gopher/foo", and since that final path
is just an ordinary import now, all the ordinary processing
works, without special cases.

We will have to change the name of the hierarchy if we
ever decide to introduce a standard package with import
path "_", but that seems unlikely, and the detail is known
only in temporary packages that get thrown away at the
end of a build.

Fixes #3169.

R=golang-dev, r
CC=golang-dev
https://golang.org/cl/5732045
This commit is contained in:
Russ Cox 2012-03-02 22:16:02 -05:00
parent 120c223822
commit 604f375110
14 changed files with 171 additions and 92 deletions

View File

@ -38,6 +38,8 @@ Flags:
-p path
assume that path is the eventual import path for this code,
and diagnose any attempt to import a package that depends on it.
-D path
treat a relative import as relative to path
-L
show entire file path when printing line numbers in errors
-I dir1 -I dir2

View File

@ -772,6 +772,7 @@ extern char* runtimeimport;
extern char* unsafeimport;
EXTERN char* myimportpath;
EXTERN Idir* idirs;
EXTERN char* localimport;
EXTERN Type* types[NTYPE];
EXTERN Type* idealstring;

View File

@ -148,6 +148,7 @@ usage(void)
// -y print declarations in cannedimports (used with -d)
// -% print non-static initializers
// -+ indicate that the runtime is being compiled
print(" -D PATH interpret local imports relative to this import path\n");
print(" -I DIR search for packages in DIR\n");
print(" -L show full path in file:line prints\n");
print(" -N disable optimizations\n");
@ -238,14 +239,18 @@ main(int argc, char *argv[])
myimportpath = EARGF(usage());
break;
case 'I':
addidir(EARGF(usage()));
break;
case 'u':
safemode = 1;
break;
case 'D':
localimport = EARGF(usage());
break;
case 'I':
addidir(EARGF(usage()));
break;
case 'V':
p = expstring();
if(strcmp(p, "X:none") == 0)
@ -516,8 +521,12 @@ islocalname(Strlit *name)
return 1;
if(name->len >= 2 && strncmp(name->s, "./", 2) == 0)
return 1;
if(name->len == 1 && strncmp(name->s, ".", 1) == 0)
return 1;
if(name->len >= 3 && strncmp(name->s, "../", 3) == 0)
return 1;
if(name->len == 2 && strncmp(name->s, "..", 2) == 0)
return 1;
return 0;
}
@ -588,7 +597,7 @@ importfile(Val *f, int line)
int32 c;
int len;
Strlit *path;
char *cleanbuf;
char *cleanbuf, *prefix;
USED(line);
@ -642,8 +651,11 @@ importfile(Val *f, int line)
fakeimport();
return;
}
cleanbuf = mal(strlen(pathname) + strlen(path->s) + 2);
strcpy(cleanbuf, pathname);
prefix = pathname;
if(localimport != nil)
prefix = localimport;
cleanbuf = mal(strlen(prefix) + strlen(path->s) + 2);
strcpy(cleanbuf, prefix);
strcat(cleanbuf, "/");
strcat(cleanbuf, path->s);
cleanname(cleanbuf);

View File

@ -349,8 +349,9 @@ func goFilesPackage(gofiles []string) *Package {
bp, err := ctxt.ImportDir(dir, 0)
pkg := new(Package)
pkg.load(&stk, bp, err)
pkg.localPrefix = dirToImportPath(dir)
pkg.ImportPath = "command-line-arguments"
pkg.ImportPath = "command-line arguments"
if *buildO == "" {
if pkg.Name == "main" {
_, elem := filepath.Split(gofiles[0])
@ -425,14 +426,12 @@ func (b *builder) action(mode buildMode, depMode buildMode, p *Package) *action
return a
}
prefix := "obj"
if p.target == "" && p.Dir == p.ImportPath {
if p.local {
// Imported via local path. No permanent target.
mode = modeBuild
prefix = "local"
}
a.objdir = filepath.Join(b.work, prefix, a.p.ImportPath, "_obj") + string(filepath.Separator)
a.objpkg = buildToolchain.pkgpath(b.work+"/"+prefix, a.p)
a.objdir = filepath.Join(b.work, a.p.ImportPath, "_obj") + string(filepath.Separator)
a.objpkg = buildToolchain.pkgpath(b.work, a.p)
a.link = p.Name == "main"
switch mode {
@ -635,32 +634,9 @@ func (b *builder) build(a *action) error {
// Prepare Go import path list.
inc := b.includeArgs("-I", a.deps)
// In what directory shall we run the Go compiler?
// We only pass absolute paths, so most of the time it doesn't matter.
// Default to the root directory.
// However, if the package contains local imports (./ or ../)
// then we need to run the compiler in a directory in the parallel
// tree of local package objects, so that those imports resolve to the
// compiled package objects.
gcdir := filepath.Clean("/")
for _, imp := range a.p.Imports {
if build.IsLocalImport(imp) {
dir := a.p.Dir
if filepath.Separator == '\\' {
// Avoid use of : on Windows.
dir = strings.Replace(dir, ":", "_", -1)
}
gcdir = filepath.Join(b.work, "local", dir)
if err := b.mkdir(gcdir); err != nil {
return err
}
break
}
}
// Compile Go.
if len(gofiles) > 0 {
if out, err := buildToolchain.gc(b, a.p, obj, gcdir, inc, gofiles); err != nil {
if out, err := buildToolchain.gc(b, a.p, obj, inc, gofiles); err != nil {
return err
} else {
objects = append(objects, out)
@ -768,9 +744,9 @@ func (b *builder) install(a *action) error {
func (b *builder) includeArgs(flag string, all []*action) []string {
inc := []string{}
incMap := map[string]bool{
b.work + "/obj": true, // handled later
gorootPkg: true,
"": true, // ignore empty strings
b.work: true, // handled later
gorootPkg: true,
"": true, // ignore empty strings
}
// Look in the temporary space for results of test-specific actions.
@ -785,7 +761,7 @@ func (b *builder) includeArgs(flag string, all []*action) []string {
// Also look in $WORK for any non-test packages that have
// been built but not installed.
inc = append(inc, flag, b.work+"/obj")
inc = append(inc, flag, b.work)
// Finally, look in the installed package directories for each action.
for _, a1 := range all {
@ -994,7 +970,7 @@ var errPrintedOutput = errors.New("already printed output - no need to show erro
// run runs the command given by cmdline in the directory dir.
// If the command fails, run prints information about the failure
// and returns a non-nil error.
func (b *builder) run(dir, shortenDir string, desc string, cmdargs ...interface{}) error {
func (b *builder) run(dir string, desc string, cmdargs ...interface{}) error {
out, err := b.runOut(dir, desc, cmdargs...)
if len(out) > 0 {
if out[len(out)-1] != '\n' {
@ -1003,7 +979,7 @@ func (b *builder) run(dir, shortenDir string, desc string, cmdargs ...interface{
if desc == "" {
desc = b.fmtcmd(dir, "%s", strings.Join(stringList(cmdargs...), " "))
}
b.showOutput(shortenDir, desc, string(out))
b.showOutput(dir, desc, string(out))
if err != nil {
err = errPrintedOutput
}
@ -1076,7 +1052,7 @@ type toolchain interface {
// gc runs the compiler in a specific directory on a set of files
// and returns the name of the generated output file.
// The compiler runs in the directory dir.
gc(b *builder, p *Package, obj, dir string, importArgs []string, gofiles []string) (ofile string, err error)
gc(b *builder, p *Package, obj string, importArgs []string, gofiles []string) (ofile string, err error)
// cc runs the toolchain's C compiler in a directory on a C file
// to produce an output file.
cc(b *builder, p *Package, objdir, ofile, cfile string) error
@ -1121,7 +1097,7 @@ func (goToolchain) linker() string {
return tool(archChar + "l")
}
func (goToolchain) gc(b *builder, p *Package, obj, dir string, importArgs []string, gofiles []string) (ofile string, err error) {
func (goToolchain) gc(b *builder, p *Package, obj string, importArgs []string, gofiles []string) (ofile string, err error) {
out := "_go_." + archChar
ofile = obj + out
gcargs := []string{"-p", p.ImportPath}
@ -1131,16 +1107,16 @@ func (goToolchain) gc(b *builder, p *Package, obj, dir string, importArgs []stri
gcargs = append(gcargs, "-+")
}
args := stringList(tool(archChar+"g"), "-o", ofile, buildGcflags, gcargs, importArgs)
args := stringList(tool(archChar+"g"), "-o", ofile, buildGcflags, gcargs, "-D", p.localPrefix, importArgs)
for _, f := range gofiles {
args = append(args, mkAbs(p.Dir, f))
}
return ofile, b.run(dir, p.Dir, p.ImportPath, args)
return ofile, b.run(p.Dir, p.ImportPath, args)
}
func (goToolchain) asm(b *builder, p *Package, obj, ofile, sfile string) error {
sfile = mkAbs(p.Dir, sfile)
return b.run(p.Dir, p.Dir, p.ImportPath, tool(archChar+"a"), "-I", obj, "-o", ofile, "-DGOOS_"+goos, "-DGOARCH_"+goarch, sfile)
return b.run(p.Dir, p.ImportPath, tool(archChar+"a"), "-I", obj, "-o", ofile, "-DGOOS_"+goos, "-DGOARCH_"+goarch, sfile)
}
func (goToolchain) pkgpath(basedir string, p *Package) string {
@ -1153,18 +1129,18 @@ func (goToolchain) pack(b *builder, p *Package, objDir, afile string, ofiles []s
for _, f := range ofiles {
absOfiles = append(absOfiles, mkAbs(objDir, f))
}
return b.run(p.Dir, p.Dir, p.ImportPath, tool("pack"), "grc", mkAbs(objDir, afile), absOfiles)
return b.run(p.Dir, p.ImportPath, tool("pack"), "grc", mkAbs(objDir, afile), absOfiles)
}
func (goToolchain) ld(b *builder, p *Package, out string, allactions []*action, mainpkg string, ofiles []string) error {
importArgs := b.includeArgs("-L", allactions)
return b.run(p.Dir, p.Dir, p.ImportPath, tool(archChar+"l"), "-o", out, importArgs, buildLdflags, mainpkg)
return b.run(p.Dir, p.ImportPath, tool(archChar+"l"), "-o", out, importArgs, buildLdflags, mainpkg)
}
func (goToolchain) cc(b *builder, p *Package, objdir, ofile, cfile string) error {
inc := filepath.Join(goroot, "pkg", fmt.Sprintf("%s_%s", goos, goarch))
cfile = mkAbs(p.Dir, cfile)
return b.run(p.Dir, p.Dir, p.ImportPath, tool(archChar+"c"), "-FVw",
return b.run(p.Dir, p.ImportPath, tool(archChar+"c"), "-FVw",
"-I", objdir, "-I", inc, "-o", ofile,
"-DGOOS_"+goos, "-DGOARCH_"+goarch, cfile)
}
@ -1181,7 +1157,7 @@ func (gccgoToolchain) linker() string {
return gccgoBin
}
func (gccgoToolchain) gc(b *builder, p *Package, obj, dir string, importArgs []string, gofiles []string) (ofile string, err error) {
func (gccgoToolchain) gc(b *builder, p *Package, obj string, importArgs []string, gofiles []string) (ofile string, err error) {
out := p.Name + ".o"
ofile = obj + out
gcargs := []string{"-g"}
@ -1196,12 +1172,12 @@ func (gccgoToolchain) gc(b *builder, p *Package, obj, dir string, importArgs []s
for _, f := range gofiles {
args = append(args, mkAbs(p.Dir, f))
}
return ofile, b.run(dir, p.Dir, p.ImportPath, args)
return ofile, b.run(p.Dir, p.ImportPath, args)
}
func (gccgoToolchain) asm(b *builder, p *Package, obj, ofile, sfile string) error {
sfile = mkAbs(p.Dir, sfile)
return b.run(p.Dir, p.Dir, p.ImportPath, "gccgo", "-I", obj, "-o", ofile, "-DGOOS_"+goos, "-DGOARCH_"+goarch, sfile)
return b.run(p.Dir, p.ImportPath, "gccgo", "-I", obj, "-o", ofile, "-DGOOS_"+goos, "-DGOARCH_"+goarch, sfile)
}
func (gccgoToolchain) pkgpath(basedir string, p *Package) string {
@ -1216,7 +1192,7 @@ func (gccgoToolchain) pack(b *builder, p *Package, objDir, afile string, ofiles
for _, f := range ofiles {
absOfiles = append(absOfiles, mkAbs(objDir, f))
}
return b.run(p.Dir, p.Dir, p.ImportPath, "ar", "cru", mkAbs(objDir, afile), absOfiles)
return b.run(p.Dir, p.ImportPath, "ar", "cru", mkAbs(objDir, afile), absOfiles)
}
func (tools gccgoToolchain) ld(b *builder, p *Package, out string, allactions []*action, mainpkg string, ofiles []string) error {
@ -1239,13 +1215,13 @@ func (tools gccgoToolchain) ld(b *builder, p *Package, out string, allactions []
ldflags = append(ldflags, afile)
}
ldflags = append(ldflags, cgoldflags...)
return b.run(p.Dir, p.Dir, p.ImportPath, "gccgo", "-o", out, buildGccgoflags, ofiles, "-Wl,-(", ldflags, "-Wl,-)")
return b.run(p.Dir, p.ImportPath, "gccgo", "-o", out, buildGccgoflags, ofiles, "-Wl,-(", ldflags, "-Wl,-)")
}
func (gccgoToolchain) cc(b *builder, p *Package, objdir, ofile, cfile string) error {
inc := filepath.Join(goroot, "pkg", fmt.Sprintf("%s_%s", goos, goarch))
cfile = mkAbs(p.Dir, cfile)
return b.run(p.Dir, p.Dir, p.ImportPath, "gcc", "-Wall", "-g",
return b.run(p.Dir, p.ImportPath, "gcc", "-Wall", "-g",
"-I", objdir, "-I", inc, "-o", ofile,
"-DGOOS_"+goos, "-DGOARCH_"+goarch, "-c", cfile)
}
@ -1253,12 +1229,12 @@ func (gccgoToolchain) cc(b *builder, p *Package, objdir, ofile, cfile string) er
// gcc runs the gcc C compiler to create an object from a single C file.
func (b *builder) gcc(p *Package, out string, flags []string, cfile string) error {
cfile = mkAbs(p.Dir, cfile)
return b.run(p.Dir, p.Dir, p.ImportPath, b.gccCmd(p.Dir), flags, "-o", out, "-c", cfile)
return b.run(p.Dir, p.ImportPath, b.gccCmd(p.Dir), flags, "-o", out, "-c", cfile)
}
// gccld runs the gcc linker to create an executable from a set of object files
func (b *builder) gccld(p *Package, out string, flags []string, obj []string) error {
return b.run(p.Dir, p.Dir, p.ImportPath, b.gccCmd(p.Dir), "-o", out, obj, flags)
return b.run(p.Dir, p.ImportPath, b.gccCmd(p.Dir), "-o", out, obj, flags)
}
// gccCmd returns a gcc command line prefix
@ -1348,7 +1324,7 @@ func (b *builder) cgo(p *Package, cgoExe, obj string, gccfiles []string) (outGo,
if _, ok := buildToolchain.(gccgoToolchain); ok {
cgoflags = append(cgoflags, "-gccgo")
}
if err := b.run(p.Dir, p.Dir, p.ImportPath, cgoExe, "-objdir", obj, cgoflags, "--", cgoCFLAGS, p.CgoFiles); err != nil {
if err := b.run(p.Dir, p.ImportPath, cgoExe, "-objdir", obj, cgoflags, "--", cgoCFLAGS, p.CgoFiles); err != nil {
return nil, nil, err
}
outGo = append(outGo, gofiles...)
@ -1392,7 +1368,7 @@ func (b *builder) cgo(p *Package, cgoExe, obj string, gccfiles []string) (outGo,
// cgo -dynimport
importC := obj + "_cgo_import.c"
if err := b.run(p.Dir, p.Dir, p.ImportPath, cgoExe, "-objdir", obj, "-dynimport", dynobj, "-dynout", importC); err != nil {
if err := b.run(p.Dir, p.ImportPath, cgoExe, "-objdir", obj, "-dynimport", dynobj, "-dynout", importC); err != nil {
return nil, nil, err
}

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@ -12,6 +12,7 @@ import (
"go/scanner"
"go/token"
"os"
pathpkg "path"
"path/filepath"
"sort"
"strings"
@ -60,15 +61,16 @@ type Package struct {
XTestImports []string `json:",omitempty"` // imports from XTestGoFiles
// Unexported fields are not part of the public API.
build *build.Package
pkgdir string // overrides build.PkgDir
imports []*Package
deps []*Package
gofiles []string // GoFiles+CgoFiles+TestGoFiles+XTestGoFiles files, absolute paths
target string // installed file for this package (may be executable)
fake bool // synthesized package
forceBuild bool // this package must be rebuilt
local bool // imported via local path (./ or ../)
build *build.Package
pkgdir string // overrides build.PkgDir
imports []*Package
deps []*Package
gofiles []string // GoFiles+CgoFiles+TestGoFiles+XTestGoFiles files, absolute paths
target string // installed file for this package (may be executable)
fake bool // synthesized package
forceBuild bool // this package must be rebuilt
local bool // imported via local path (./ or ../)
localPrefix string // interpret ./ and ../ imports relative to this prefix
}
func (p *Package) copyBuild(pp *build.Package) {
@ -161,6 +163,17 @@ func reloadPackage(arg string, stk *importStack) *Package {
return loadPackage(arg, stk)
}
// dirToImportPath returns the pseudo-import path we use for a package
// outside the Go path. It begins with _/ and then contains the full path
// to the directory. If the package lives in c:\home\gopher\my\pkg then
// the pseudo-import path is _/c_/home/gopher/my/pkg.
// Using a pseudo-import path like this makes the ./ imports no longer
// a special case, so that all the code to deal with ordinary imports works
// automatically.
func dirToImportPath(dir string) string {
return pathpkg.Join("_", strings.Replace(filepath.ToSlash(dir), ":", "_", -1))
}
// loadImport scans the directory named by path, which must be an import path,
// but possibly a local import path (an absolute file system path or one beginning
// with ./ or ../). A local relative path is interpreted relative to srcDir.
@ -170,24 +183,28 @@ func loadImport(path string, srcDir string, stk *importStack, importPos []token.
defer stk.pop()
// Determine canonical identifier for this package.
// For a local path (./ or ../) the identifier is the full
// directory name. Otherwise it is the import path.
pkgid := path
// For a local import the identifier is the pseudo-import path
// we create from the full directory to the package.
// Otherwise it is the usual import path.
importPath := path
isLocal := build.IsLocalImport(path)
if isLocal {
pkgid = filepath.Join(srcDir, path)
importPath = dirToImportPath(filepath.Join(srcDir, path))
}
if p := packageCache[pkgid]; p != nil {
if p := packageCache[importPath]; p != nil {
return reusePackage(p, stk)
}
p := new(Package)
packageCache[pkgid] = p
p.local = isLocal
p.ImportPath = importPath
packageCache[importPath] = p
// Load package.
// Import always returns bp != nil, even if an error occurs,
// in order to return partial information.
bp, err := buildContext.Import(path, srcDir, build.AllowBinary)
bp.ImportPath = importPath
p.load(stk, bp, err)
if p.Error != nil && len(importPos) > 0 {
pos := importPos[0]
@ -211,7 +228,6 @@ func reusePackage(p *Package, stk *importStack) *Package {
ImportStack: stk.copy(),
Err: "import loop",
}
panic("loop")
}
p.Incomplete = true
}
@ -258,14 +274,12 @@ func expandScanner(err error) error {
// be the result of calling build.Context.Import.
func (p *Package) load(stk *importStack, bp *build.Package, err error) *Package {
p.copyBuild(bp)
p.local = build.IsLocalImport(p.ImportPath)
if p.local {
// The correct import for this package depends on which
// directory you are in. Instead, record the full directory path.
// That can't be used as an import path at all, but at least
// it uniquely identifies the package.
p.ImportPath = p.Dir
}
// The localPrefix is the path we interpret ./ imports relative to.
// Now that we've fixed the import path, it's just the import path.
// Synthesized main packages sometimes override this.
p.localPrefix = p.ImportPath
if err != nil {
p.Incomplete = true
err = expandScanner(err)
@ -326,7 +340,7 @@ func (p *Package) load(stk *importStack, bp *build.Package, err error) *Package
}
p1 := loadImport(path, p.Dir, stk, p.build.ImportPos[path])
if p1.local {
path = p1.Dir
path = p1.ImportPath
importPaths[i] = path
}
deps[path] = true

View File

@ -45,6 +45,12 @@ func runRun(cmd *Command, args []string) {
}
files, cmdArgs := args[:i], args[i:]
p := goFilesPackage(files)
if p.Error != nil {
fatalf("%s", p.Error)
}
if p.Name != "main" {
fatalf("cannot run non-main package")
}
p.target = "" // must build - not up to date
a1 := b.action(modeBuild, modeBuild, p)
a := &action{f: (*builder).runProgram, args: cmdArgs, deps: []*action{a1}}

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@ -30,6 +30,14 @@ if ! grep -q '^easysub\.Hello' hello.out; then
ok=false
fi
./testgo build -o hello testdata/local/easysub/main.go
./hello >hello.out
if ! grep -q '^easysub\.Hello' hello.out; then
echo "testdata/local/easysub/main.go did not generate expected output"
cat hello.out
ok=false
fi
./testgo build -o hello testdata/local/hard.go
./hello >hello.out
if ! grep -q '^sub\.Hello' hello.out || ! grep -q '^subsub\.Hello' hello.out ; then
@ -46,6 +54,19 @@ if ./testgo install testdata/local/easy.go >/dev/null 2>&1; then
ok=false
fi
# Test tests with relative imports.
if ! ./testgo test ./testdata/testimport; then
echo "go test ./testdata/testimport failed"
ok=false
fi
# Test tests with relative imports in packages synthesized
# from Go files named on the command line.
if ! ./testgo test ./testdata/testimport/*.go; then
echo "go test ./testdata/testimport/*.go failed"
ok=false
fi
if $ok; then
echo PASS
else

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@ -351,7 +351,7 @@ func runTest(cmd *Command, args []string) {
warned := false
for _, a := range actionList(root) {
if a.p != nil && a.f != nil && !okBuild[a.p] && !a.p.fake {
if a.p != nil && a.f != nil && !okBuild[a.p] && !a.p.fake && !a.p.local {
okBuild[a.p] = true // don't warn again
if !warned {
fmt.Fprintf(os.Stderr, "warning: building out-of-date packages:\n")
@ -474,11 +474,12 @@ func (b *builder) test(p *Package) (buildAction, runAction, printAction *action,
// External test package.
if len(p.XTestGoFiles) > 0 {
pxtest = &Package{
Name: p.Name + "_test",
ImportPath: p.ImportPath + "_test",
Dir: p.Dir,
GoFiles: p.XTestGoFiles,
Imports: p.XTestImports,
Name: p.Name + "_test",
ImportPath: p.ImportPath + "_test",
localPrefix: p.localPrefix,
Dir: p.Dir,
GoFiles: p.XTestGoFiles,
Imports: p.XTestImports,
build: &build.Package{
ImportPos: p.build.XTestImportPos,
},

View File

@ -0,0 +1,9 @@
// +build ignore
package main
import "."
func main() {
easysub.Hello()
}

3
src/cmd/go/testdata/testimport/p.go vendored Normal file
View File

@ -0,0 +1,3 @@
package p
func F() int { return 1 }

View File

@ -0,0 +1,3 @@
package p1
func F() int { return 1 }

View File

@ -0,0 +1,3 @@
package p2
func F() int { return 1 }

View File

@ -0,0 +1,13 @@
package p
import (
"./p1"
"testing"
)
func TestF(t *testing.T) {
if F() != p1.F() {
t.Fatal(F())
}
}

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@ -0,0 +1,15 @@
package p_test
import (
. "../testimport"
"./p2"
"testing"
)
func TestF1(t *testing.T) {
if F() != p2.F() {
t.Fatal(F())
}
}