package git_commands
import (
"os"
"path/filepath"
"strings"
"github.com/jesseduffield/lazygit/pkg/commands/models"
"github.com/jesseduffield/lazygit/pkg/commands/oscommands"
"github.com/jesseduffield/lazygit/pkg/common"
"github.com/samber/lo"
)
type WorktreeLoader struct {
*common.Common
cmd oscommands.ICmdObjBuilder
}
func NewWorktreeLoader(
common *common.Common,
cmd oscommands.ICmdObjBuilder,
) *WorktreeLoader {
return &WorktreeLoader{
Common: common,
cmd: cmd,
}
}
func (self *WorktreeLoader) GetWorktrees() ([]*models.Worktree, error) {
cmdArgs := NewGitCmd("worktree").Arg("list", "--porcelain", "-z").ToArgv()
worktreesOutput, err := self.cmd.New(cmdArgs).DontLog().RunWithOutput()
if err != nil {
return nil, err
}
splitLines := strings.Split(worktreesOutput, "\x00")
var worktrees []*models.Worktree
var current *models.Worktree
for _, splitLine := range splitLines {
if len(splitLine) == 0 && current != nil {
worktrees = append(worktrees, current)
current = nil
continue
}
if strings.HasPrefix(splitLine, "worktree ") {
path := strings.SplitN(splitLine, " ", 2)[1]
current = &models.Worktree{
IsMain: len(worktrees) == 0,
Path: path,
}
} else if strings.HasPrefix(splitLine, "branch ") {
branch := strings.SplitN(splitLine, " ", 2)[1]
current.Branch = strings.TrimPrefix(branch, "refs/heads/")
}
}
names := getUniqueNamesFromPaths(lo.Map(worktrees, func(worktree *models.Worktree, _ int) string {
return worktree.Path
}))
for index, worktree := range worktrees {
worktree.NameField = names[index]
}
pwd, err := os.Getwd()
if err != nil {
return nil, err
}
// move current worktree to the top
for i, worktree := range worktrees {
if EqualPath(worktree.Path, pwd) {
worktrees = append(worktrees[:i], worktrees[i+1:]...)
worktrees = append([]*models.Worktree{worktree}, worktrees...)
break
}
}
// Some worktrees are on a branch but are mid-rebase, and in those cases,
// `git worktree list` will not show the branch name. We can get the branch
// name from the `rebase-merge/head-name` file (if it exists) in the folder
// for the worktree in the parent repo's .git/worktrees folder.
for _, worktree := range worktrees {
// No point checking if we already have a branch name
if worktree.Branch != "" {
continue
}
rebaseBranch, ok := rebaseBranch(worktree.Path)
if ok {
worktree.Branch = rebaseBranch
}
}
return worktrees, nil
}
func rebaseBranch(worktreePath string) (string, bool) {
// need to find the actual path of the worktree in the .git dir
gitPath, ok := WorktreeGitPath(worktreePath)
if !ok {
return "", false
}
// now we look inside that git path for a file `rebase-merge/head-name`
// if it exists, we update the worktree to say that it has that for a head
headNameContents, err := os.ReadFile(filepath.Join(gitPath, "rebase-merge", "head-name"))
if err != nil {
return "", false
}
headName := strings.TrimSpace(string(headNameContents))
shortHeadName := strings.TrimPrefix(headName, "refs/heads/")
return shortHeadName, true
}
func WorktreeGitPath(worktreePath string) (string, bool) {
// first we get the path of the worktree, then we look at the contents of the `.git` file in that path
// then we look for the line that says `gitdir: /path/to/.git/worktrees/<worktree-name>`
// then we return that path
gitFileContents, err := os.ReadFile(filepath.Join(worktreePath, ".git"))
if err != nil {
return "", false
}
gitDirLine := lo.Filter(strings.Split(string(gitFileContents), "\n"), func(line string, _ int) bool {
return strings.HasPrefix(line, "gitdir: ")
})
if len(gitDirLine) == 0 {
return "", false
}
gitDir := strings.TrimPrefix(gitDirLine[0], "gitdir: ")
return gitDir, true
}
type pathWithIndexT struct {
path string
index int
}
type nameWithIndexT struct {
name string
index int
}
func getUniqueNamesFromPaths(paths []string) []string {
pathsWithIndex := lo.Map(paths, func(path string, index int) pathWithIndexT {
return pathWithIndexT{path, index}
})
namesWithIndex := getUniqueNamesFromPathsAux(pathsWithIndex, 0)
// now sort based on index
result := make([]string, len(namesWithIndex))
for _, nameWithIndex := range namesWithIndex {
result[nameWithIndex.index] = nameWithIndex.name
}
return result
}
func getUniqueNamesFromPathsAux(paths []pathWithIndexT, depth int) []nameWithIndexT {
// If we have no paths, return an empty array
if len(paths) == 0 {
return []nameWithIndexT{}
}
// If we have only one path, return the last segment of the path
if len(paths) == 1 {
path := paths[0]
return []nameWithIndexT{{index: path.index, name: sliceAtDepth(path.path, depth)}}
}
// group the paths by their value at the specified depth
groups := make(map[string][]pathWithIndexT)
for _, path := range paths {
value := valueAtDepth(path.path, depth)
groups[value] = append(groups[value], path)
}
result := []nameWithIndexT{}
for _, group := range groups {
if len(group) == 1 {
path := group[0]
result = append(result, nameWithIndexT{index: path.index, name: sliceAtDepth(path.path, depth)})
} else {
result = append(result, getUniqueNamesFromPathsAux(group, depth+1)...)
}
}
return result
}
// if the path is /a/b/c/d, and the depth is 0, the value is 'd'. If the depth is 1, the value is 'c', etc
func valueAtDepth(path string, depth int) string {
path = strings.TrimPrefix(path, "/")
path = strings.TrimSuffix(path, "/")
// Split the path into segments
segments := strings.Split(path, "/")
// Get the length of segments
length := len(segments)
// If the depth is greater than the length of segments, return an empty string
if depth >= length {
return ""
}
// Return the segment at the specified depth from the end of the path
return segments[length-1-depth]
}
// if the path is /a/b/c/d, and the depth is 0, the value is 'd'. If the depth is 1, the value is 'b/c', etc
func sliceAtDepth(path string, depth int) string {
path = strings.TrimPrefix(path, "/")
path = strings.TrimSuffix(path, "/")
// Split the path into segments
segments := strings.Split(path, "/")
// Get the length of segments
length := len(segments)
// If the depth is greater than or equal to the length of segments, return an empty string
if depth >= length {
return ""
}
// Join the segments from the specified depth till end of the path
return strings.Join(segments[length-1-depth:], "/")
}