func DiffFilesP(paths []string) Patch {
args := stringslice.Cat([]string{"-p", "--"}, paths)
o,e := git.ReadS("diff-files", args)
error.FailOn(e)
p, e := patch.Parse([]byte(o));
error.FailOn(e)
return Patch(*p)
}
func main() {
flag.Usage = usage
flag.Parse()
args := flag.Args()
var data []byte
var err os.Error
switch len(args) {
case 0:
data, err = ioutil.ReadAll(os.Stdin)
case 1:
data, err = ioutil.ReadFile(args[0])
default:
usage()
}
chk(err)
pset, err := patch.Parse(data)
chk(err)
// Change to hg root directory, because
// patch paths are relative to root.
root, err := hgRoot()
chk(err)
chk(os.Chdir(root))
// Make sure there are no pending changes on the server.
if *checkSync && hgIncoming() {
fmt.Fprintf(os.Stderr, "incoming changes waiting; run hg sync first\n")
os.Exit(2)
}
// Make sure we won't be editing files with local pending changes.
dirtylist, err := hgModified()
chk(err)
dirty := make(map[string]int)
for _, f := range dirtylist {
dirty[f] = 1
}
conflict := make(map[string]int)
for _, f := range pset.File {
if f.Verb == patch.Delete || f.Verb == patch.Rename {
if _, ok := dirty[f.Src]; ok {
conflict[f.Src] = 1
}
}
if f.Verb != patch.Delete {
if _, ok := dirty[f.Dst]; ok {
conflict[f.Dst] = 1
}
}
}
if len(conflict) > 0 {
fmt.Fprintf(os.Stderr, "cannot apply patch to locally modified files:\n")
for name := range conflict {
fmt.Fprintf(os.Stderr, "\t%s\n", name)
}
os.Exit(2)
}
// Apply changes in memory.
op, err := pset.Apply(ioutil.ReadFile)
chk(err)
// Write changes to disk copy: order of commands matters.
// Accumulate undo log as we go, in case there is an error.
// Also accumulate list of modified files to print at end.
changed := make(map[string]int)
// Copy, Rename create the destination file, so they
// must happen before we write the data out.
// A single patch may have a Copy and a Rename
// with the same source, so we have to run all the
// Copy in one pass, then all the Rename.
for i := range op {
o := &op[i]
if o.Verb == patch.Copy {
makeParent(o.Dst)
chk(hgCopy(o.Dst, o.Src))
undoRevert(o.Dst)
changed[o.Dst] = 1
}
}
for i := range op {
o := &op[i]
if o.Verb == patch.Rename {
makeParent(o.Dst)
chk(hgRename(o.Dst, o.Src))
undoRevert(o.Dst)
undoRevert(o.Src)
changed[o.Src] = 1
changed[o.Dst] = 1
}
}
// Run Delete before writing to files in case one of the
// deleted paths is becoming a directory.
for i := range op {
o := &op[i]
if o.Verb == patch.Delete {
chk(hgRemove(o.Src))
undoRevert(o.Src)
changed[o.Src] = 1
}
}
// Write files.
for i := range op {
o := &op[i]
if o.Verb == patch.Delete {
continue
}
if o.Verb == patch.Add {
makeParent(o.Dst)
changed[o.Dst] = 1
}
if o.Data != nil {
chk(ioutil.WriteFile(o.Dst, o.Data, 0644))
if o.Verb == patch.Add {
undoRm(o.Dst)
} else {
undoRevert(o.Dst)
}
changed[o.Dst] = 1
}
if o.Mode != 0 {
chk(os.Chmod(o.Dst, o.Mode&0755))
undoRevert(o.Dst)
changed[o.Dst] = 1
}
}
// hg add looks at the destination file, so it must happen
// after we write the data out.
for i := range op {
o := &op[i]
if o.Verb == patch.Add {
chk(hgAdd(o.Dst))
undoRevert(o.Dst)
changed[o.Dst] = 1
}
}
// Finished editing files. Write the list of changed files to stdout.
list := make([]string, len(changed))
i := 0
for f := range changed {
list[i] = f
i++
}
sort.SortStrings(list)
for _, f := range list {
fmt.Printf("%s\n", f)
}
}
