package helpers import ( "fmt" "os" "github.com/jesseduffield/generics/slices" "github.com/jesseduffield/gocui" "github.com/jesseduffield/lazygit/pkg/commands/models" "github.com/jesseduffield/lazygit/pkg/gui/presentation" "github.com/jesseduffield/lazygit/pkg/gui/types" "github.com/jesseduffield/lazygit/pkg/utils" "github.com/jesseduffield/minimal/gitignore" "github.com/samber/lo" "gopkg.in/ozeidan/fuzzy-patricia.v3/patricia" ) // Thinking out loud: I'm typically a staunch advocate of organising code by feature rather than type, // because colocating code that relates to the same feature means far less effort // to get all the context you need to work on any particular feature. But the one // major benefit of grouping by type is that it makes it makes it less likely that // somebody will re-implement the same logic twice, because they can quickly see // if a certain method has been used for some use case, given that as a starting point // they know about the type. In that vein, I'm including all our functions for // finding suggestions in this file, so that it's easy to see if a function already // exists for fetching a particular model. type ISuggestionsHelper interface { GetRemoteSuggestionsFunc() func(string) []*types.Suggestion GetBranchNameSuggestionsFunc() func(string) []*types.Suggestion GetFilePathSuggestionsFunc() func(string) []*types.Suggestion GetRemoteBranchesSuggestionsFunc(separator string) func(string) []*types.Suggestion GetRefsSuggestionsFunc() func(string) []*types.Suggestion } type SuggestionsHelper struct { c *HelperCommon } var _ ISuggestionsHelper = &SuggestionsHelper{} func NewSuggestionsHelper( c *HelperCommon, ) *SuggestionsHelper { return &SuggestionsHelper{ c: c, } } func (self *SuggestionsHelper) getRemoteNames() []string { return slices.Map(self.c.Model().Remotes, func(remote *models.Remote) string { return remote.Name }) } func matchesToSuggestions(matches []string) []*types.Suggestion { return slices.Map(matches, func(match string) *types.Suggestion { return &types.Suggestion{ Value: match, Label: match, } }) } func (self *SuggestionsHelper) GetRemoteSuggestionsFunc() func(string) []*types.Suggestion { remoteNames := self.getRemoteNames() return FuzzySearchFunc(remoteNames) } func (self *SuggestionsHelper) getBranchNames() []string { return slices.Map(self.c.Model().Branches, func(branch *models.Branch) string { return branch.Name }) } func (self *SuggestionsHelper) GetBranchNameSuggestionsFunc() func(string) []*types.Suggestion { branchNames := self.getBranchNames() return func(input string) []*types.Suggestion { var matchingBranchNames []string if input == "" { matchingBranchNames = branchNames } else { matchingBranchNames = utils.FuzzySearch(input, branchNames) } return slices.Map(matchingBranchNames, func(branchName string) *types.Suggestion { return &types.Suggestion{ Value: branchName, Label: presentation.GetBranchTextStyle(branchName).Sprint(branchName), } }) } } // here we asynchronously fetch the latest set of paths in the repo and store in // self.c.Model().FilesTrie. On the main thread we'll be doing a fuzzy search via // self.c.Model().FilesTrie. So if we've looked for a file previously, we'll start with // the old trie and eventually it'll be swapped out for the new one. // Notably, unlike other suggestion functions we're not showing all the options // if nothing has been typed because there'll be too much to display efficiently func (self *SuggestionsHelper) GetFilePathSuggestionsFunc() func(string) []*types.Suggestion { _ = self.c.WithWaitingStatus(self.c.Tr.LoadingFileSuggestions, func(gocui.Task) error { trie := patricia.NewTrie() // load every non-gitignored file in the repo ignore, err := gitignore.FromGit() if err != nil { return err } err = ignore.Walk(".", func(path string, info os.FileInfo, err error) error { if err != nil { return err } trie.Insert(patricia.Prefix(path), path) return nil }) // cache the trie for future use self.c.Model().FilesTrie = trie self.c.Contexts().Suggestions.RefreshSuggestions() return err }) return func(input string) []*types.Suggestion { matchingNames := []string{} _ = self.c.Model().FilesTrie.VisitFuzzy(patricia.Prefix(input), true, func(prefix patricia.Prefix, item patricia.Item, skipped int) error { matchingNames = append(matchingNames, item.(string)) return nil }) // doing another fuzzy search for good measure matchingNames = utils.FuzzySearch(input, matchingNames) return matchesToSuggestions(matchingNames) } } func (self *SuggestionsHelper) getRemoteBranchNames(separator string) []string { return slices.FlatMap(self.c.Model().Remotes, func(remote *models.Remote) []string { return slices.Map(remote.Branches, func(branch *models.RemoteBranch) string { return fmt.Sprintf("%s%s%s", remote.Name, separator, branch.Name) }) }) } func (self *SuggestionsHelper) GetRemoteBranchesSuggestionsFunc(separator string) func(string) []*types.Suggestion { return FuzzySearchFunc(self.getRemoteBranchNames(separator)) } func (self *SuggestionsHelper) getTagNames() []string { return slices.Map(self.c.Model().Tags, func(tag *models.Tag) string { return tag.Name }) } func (self *SuggestionsHelper) GetTagsSuggestionsFunc() func(string) []*types.Suggestion { tagNames := self.getTagNames() return FuzzySearchFunc(tagNames) } func (self *SuggestionsHelper) GetRefsSuggestionsFunc() func(string) []*types.Suggestion { remoteBranchNames := self.getRemoteBranchNames("/") localBranchNames := self.getBranchNames() tagNames := self.getTagNames() additionalRefNames := []string{"HEAD", "FETCH_HEAD", "MERGE_HEAD", "ORIG_HEAD"} refNames := append(append(append(remoteBranchNames, localBranchNames...), tagNames...), additionalRefNames...) return FuzzySearchFunc(refNames) } func (self *SuggestionsHelper) GetAuthorsSuggestionsFunc() func(string) []*types.Suggestion { authors := lo.Map(lo.Values(self.c.Model().Authors), func(author *models.Author, _ int) string { return author.Combined() }) slices.Sort(authors) return FuzzySearchFunc(authors) } func FuzzySearchFunc(options []string) func(string) []*types.Suggestion { return func(input string) []*types.Suggestion { var matches []string if input == "" { matches = options } else { matches = utils.FuzzySearch(input, options) } return matchesToSuggestions(matches) } }