gitroast/vendor/code.gitea.io/git/tree_entry.go

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// Copyright 2015 The Gogs Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package git
import (
"fmt"
"path"
"path/filepath"
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"runtime"
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"sort"
"strconv"
"strings"
)
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// EntryMode the type of the object in the git tree
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type EntryMode int
// There are only a few file modes in Git. They look like unix file modes, but they can only be
// one of these.
const (
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// EntryModeBlob
EntryModeBlob EntryMode = 0100644
// EntryModeExec
EntryModeExec EntryMode = 0100755
// EntryModeSymlink
EntryModeSymlink EntryMode = 0120000
// EntryModeCommit
EntryModeCommit EntryMode = 0160000
// EntryModeTree
EntryModeTree EntryMode = 0040000
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)
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// TreeEntry the leaf in the git tree
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type TreeEntry struct {
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ID SHA1
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Type ObjectType
mode EntryMode
name string
ptree *Tree
commited bool
size int64
sized bool
}
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// Name returns the name of the entry
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func (te *TreeEntry) Name() string {
return te.name
}
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// Size returns the size of the entry
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func (te *TreeEntry) Size() int64 {
if te.IsDir() {
return 0
} else if te.sized {
return te.size
}
stdout, err := NewCommand("cat-file", "-s", te.ID.String()).RunInDir(te.ptree.repo.Path)
if err != nil {
return 0
}
te.sized = true
te.size, _ = strconv.ParseInt(strings.TrimSpace(stdout), 10, 64)
return te.size
}
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// IsSubModule if the entry is a sub module
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func (te *TreeEntry) IsSubModule() bool {
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return te.mode == EntryModeCommit
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}
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// IsDir if the entry is a sub dir
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func (te *TreeEntry) IsDir() bool {
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return te.mode == EntryModeTree
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}
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// IsLink if the entry is a symlink
func (te *TreeEntry) IsLink() bool {
return te.mode == EntryModeSymlink
}
// Blob retrun the blob object the entry
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func (te *TreeEntry) Blob() *Blob {
return &Blob{
repo: te.ptree.repo,
TreeEntry: te,
}
}
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// Entries a list of entry
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type Entries []*TreeEntry
var sorter = []func(t1, t2 *TreeEntry) bool{
func(t1, t2 *TreeEntry) bool {
return (t1.IsDir() || t1.IsSubModule()) && !t2.IsDir() && !t2.IsSubModule()
},
func(t1, t2 *TreeEntry) bool {
return t1.name < t2.name
},
}
func (tes Entries) Len() int { return len(tes) }
func (tes Entries) Swap(i, j int) { tes[i], tes[j] = tes[j], tes[i] }
func (tes Entries) Less(i, j int) bool {
t1, t2 := tes[i], tes[j]
var k int
for k = 0; k < len(sorter)-1; k++ {
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s := sorter[k]
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switch {
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case s(t1, t2):
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return true
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case s(t2, t1):
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return false
}
}
return sorter[k](t1, t2)
}
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// Sort sort the list of entry
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func (tes Entries) Sort() {
sort.Sort(tes)
}
type commitInfo struct {
entryName string
infos []interface{}
err error
}
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// GetCommitsInfo takes advantages of concurrency to speed up getting information
// of all commits that are corresponding to these entries. This method will automatically
// choose the right number of goroutine (concurrency) to use related of the host CPU.
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func (tes Entries) GetCommitsInfo(commit *Commit, treePath string) ([][]interface{}, error) {
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return tes.GetCommitsInfoWithCustomConcurrency(commit, treePath, 0)
}
// GetCommitsInfoWithCustomConcurrency takes advantages of concurrency to speed up getting information
// of all commits that are corresponding to these entries. If the given maxConcurrency is negative or
// equal to zero: the right number of goroutine (concurrency) to use will be choosen related of the
// host CPU.
func (tes Entries) GetCommitsInfoWithCustomConcurrency(commit *Commit, treePath string, maxConcurrency int) ([][]interface{}, error) {
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if len(tes) == 0 {
return nil, nil
}
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if maxConcurrency <= 0 {
maxConcurrency = runtime.NumCPU()
}
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// Length of taskChan determines how many goroutines (subprocesses) can run at the same time.
// The length of revChan should be same as taskChan so goroutines whoever finished job can
// exit as early as possible, only store data inside channel.
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taskChan := make(chan bool, maxConcurrency)
revChan := make(chan commitInfo, maxConcurrency)
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doneChan := make(chan error)
// Receive loop will exit when it collects same number of data pieces as tree entries.
// It notifies doneChan before exits or notify early with possible error.
infoMap := make(map[string][]interface{}, len(tes))
go func() {
i := 0
for info := range revChan {
if info.err != nil {
doneChan <- info.err
return
}
infoMap[info.entryName] = info.infos
i++
if i == len(tes) {
break
}
}
doneChan <- nil
}()
for i := range tes {
// When taskChan is idle (or has empty slots), put operation will not block.
// However when taskChan is full, code will block and wait any running goroutines to finish.
taskChan <- true
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if tes[i].Type != ObjectCommit {
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go func(i int) {
cinfo := commitInfo{entryName: tes[i].Name()}
c, err := commit.GetCommitByPath(filepath.Join(treePath, tes[i].Name()))
if err != nil {
cinfo.err = fmt.Errorf("GetCommitByPath (%s/%s): %v", treePath, tes[i].Name(), err)
} else {
cinfo.infos = []interface{}{tes[i], c}
}
revChan <- cinfo
<-taskChan // Clear one slot from taskChan to allow new goroutines to start.
}(i)
continue
}
// Handle submodule
go func(i int) {
cinfo := commitInfo{entryName: tes[i].Name()}
sm, err := commit.GetSubModule(path.Join(treePath, tes[i].Name()))
if err != nil && !IsErrNotExist(err) {
cinfo.err = fmt.Errorf("GetSubModule (%s/%s): %v", treePath, tes[i].Name(), err)
revChan <- cinfo
return
}
smURL := ""
if sm != nil {
smURL = sm.URL
}
c, err := commit.GetCommitByPath(filepath.Join(treePath, tes[i].Name()))
if err != nil {
cinfo.err = fmt.Errorf("GetCommitByPath (%s/%s): %v", treePath, tes[i].Name(), err)
} else {
cinfo.infos = []interface{}{tes[i], NewSubModuleFile(c, smURL, tes[i].ID.String())}
}
revChan <- cinfo
<-taskChan
}(i)
}
if err := <-doneChan; err != nil {
return nil, err
}
commitsInfo := make([][]interface{}, len(tes))
for i := 0; i < len(tes); i++ {
commitsInfo[i] = infoMap[tes[i].Name()]
}
return commitsInfo, nil
}