package fzf import ( "bufio" "bytes" "fmt" "io" "os" "os/signal" "regexp" "sort" "strconv" "strings" "sync" "syscall" "time" "github.com/junegunn/fzf/src/tui" "github.com/junegunn/fzf/src/util" ) // import "github.com/pkg/profile" var placeholder *regexp.Regexp func init() { placeholder = regexp.MustCompile("\\\\?(?:{[0-9,-.]*}|{q})") } type jumpMode int const ( jumpDisabled jumpMode = iota jumpEnabled jumpAcceptEnabled ) type previewer struct { text string lines int offset int enabled bool } type itemLine struct { current bool selected bool label string width int result Result } var emptyLine = itemLine{} // Terminal represents terminal input/output type Terminal struct { initDelay time.Duration inlineInfo bool prompt string reverse bool hscroll bool hscrollOff int wordRubout string wordNext string cx int cy int offset int yanked []rune input []rune multi bool sort bool toggleSort bool delimiter Delimiter expect map[int]string keymap map[int]actionType execmap map[int]string pressed string printQuery bool history *History cycle bool header []string header0 []string ansi bool tabstop int margin [4]sizeSpec strong tui.Attr window tui.Window bwindow tui.Window pwindow tui.Window count int progress int reading bool jumping jumpMode jumpLabels string printer func(string) merger *Merger selected map[int32]selectedItem reqBox *util.EventBox preview previewOpts previewer previewer previewBox *util.EventBox eventBox *util.EventBox mutex sync.Mutex initFunc func() prevLines []itemLine suppress bool startChan chan bool slab *util.Slab theme *tui.ColorTheme tui tui.Renderer } type selectedItem struct { at time.Time item *Item } type byTimeOrder []selectedItem func (a byTimeOrder) Len() int { return len(a) } func (a byTimeOrder) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a byTimeOrder) Less(i, j int) bool { return a[i].at.Before(a[j].at) } var _spinner = []string{`-`, `\`, `|`, `/`, `-`, `\`, `|`, `/`} var _tabStop int const ( reqPrompt util.EventType = iota reqInfo reqHeader reqList reqJump reqRefresh reqRedraw reqClose reqPrintQuery reqPreviewEnqueue reqPreviewDisplay reqPreviewRefresh reqQuit ) type actionType int const ( actIgnore actionType = iota actInvalid actRune actMouse actBeginningOfLine actAbort actAccept actBackwardChar actBackwardDeleteChar actBackwardWord actCancel actClearScreen actDeleteChar actDeleteCharEOF actEndOfLine actForwardChar actForwardWord actKillLine actKillWord actUnixLineDiscard actUnixWordRubout actYank actBackwardKillWord actSelectAll actDeselectAll actToggle actToggleAll actToggleDown actToggleUp actToggleIn actToggleOut actDown actUp actPageUp actPageDown actHalfPageUp actHalfPageDown actJump actJumpAccept actPrintQuery actToggleSort actTogglePreview actPreviewUp actPreviewDown actPreviewPageUp actPreviewPageDown actPreviousHistory actNextHistory actExecute actExecuteMulti ) func defaultKeymap() map[int]actionType { keymap := make(map[int]actionType) keymap[tui.Invalid] = actInvalid keymap[tui.Resize] = actClearScreen keymap[tui.CtrlA] = actBeginningOfLine keymap[tui.CtrlB] = actBackwardChar keymap[tui.CtrlC] = actAbort keymap[tui.CtrlG] = actAbort keymap[tui.CtrlQ] = actAbort keymap[tui.ESC] = actAbort keymap[tui.CtrlD] = actDeleteCharEOF keymap[tui.CtrlE] = actEndOfLine keymap[tui.CtrlF] = actForwardChar keymap[tui.CtrlH] = actBackwardDeleteChar keymap[tui.BSpace] = actBackwardDeleteChar keymap[tui.Tab] = actToggleDown keymap[tui.BTab] = actToggleUp keymap[tui.CtrlJ] = actDown keymap[tui.CtrlK] = actUp keymap[tui.CtrlL] = actClearScreen keymap[tui.CtrlM] = actAccept keymap[tui.CtrlN] = actDown keymap[tui.CtrlP] = actUp keymap[tui.CtrlU] = actUnixLineDiscard keymap[tui.CtrlW] = actUnixWordRubout keymap[tui.CtrlY] = actYank keymap[tui.AltB] = actBackwardWord keymap[tui.SLeft] = actBackwardWord keymap[tui.AltF] = actForwardWord keymap[tui.SRight] = actForwardWord keymap[tui.AltD] = actKillWord keymap[tui.AltBS] = actBackwardKillWord keymap[tui.Up] = actUp keymap[tui.Down] = actDown keymap[tui.Left] = actBackwardChar keymap[tui.Right] = actForwardChar keymap[tui.Home] = actBeginningOfLine keymap[tui.End] = actEndOfLine keymap[tui.Del] = actDeleteChar keymap[tui.PgUp] = actPageUp keymap[tui.PgDn] = actPageDown keymap[tui.Rune] = actRune keymap[tui.Mouse] = actMouse keymap[tui.DoubleClick] = actAccept return keymap } // NewTerminal returns new Terminal object func NewTerminal(opts *Options, eventBox *util.EventBox) *Terminal { input := []rune(opts.Query) var header []string if opts.Reverse { header = opts.Header } else { header = reverseStringArray(opts.Header) } var delay time.Duration if opts.Tac { delay = initialDelayTac } else { delay = initialDelay } var previewBox *util.EventBox if len(opts.Preview.command) > 0 { previewBox = util.NewEventBox() } strongAttr := tui.Bold if !opts.Bold { strongAttr = tui.AttrRegular } var renderer tui.Renderer if opts.Height.size > 0 { maxHeightFunc := func(termHeight int) int { var maxHeight int if opts.Height.percent { maxHeight = util.Min(termHeight, util.Max(int(opts.Height.size*float64(termHeight)/100.0), opts.MinHeight)) } else { maxHeight = util.Min(termHeight, int(opts.Height.size)) } if opts.InlineInfo { return util.Max(maxHeight, minHeight-1) } return util.Max(maxHeight, minHeight) } renderer = tui.NewLightRenderer(opts.Theme, opts.Black, opts.Mouse, opts.Tabstop, maxHeightFunc) } else { renderer = tui.NewFullscreenRenderer(opts.Theme, opts.Black, opts.Mouse) } wordRubout := "[^[:alnum:]][[:alnum:]]" wordNext := "[[:alnum:]][^[:alnum:]]|(.$)" if opts.FileWord { sep := regexp.QuoteMeta(string(os.PathSeparator)) wordRubout = fmt.Sprintf("%s[^%s]", sep, sep) wordNext = fmt.Sprintf("[^%s]%s|(.$)", sep, sep) } return &Terminal{ initDelay: delay, inlineInfo: opts.InlineInfo, prompt: opts.Prompt, reverse: opts.Reverse, hscroll: opts.Hscroll, hscrollOff: opts.HscrollOff, wordRubout: wordRubout, wordNext: wordNext, cx: len(input), cy: 0, offset: 0, yanked: []rune{}, input: input, multi: opts.Multi, sort: opts.Sort > 0, toggleSort: opts.ToggleSort, delimiter: opts.Delimiter, expect: opts.Expect, keymap: opts.Keymap, execmap: opts.Execmap, pressed: "", printQuery: opts.PrintQuery, history: opts.History, margin: opts.Margin, strong: strongAttr, cycle: opts.Cycle, header: header, header0: header, ansi: opts.Ansi, tabstop: opts.Tabstop, reading: true, jumping: jumpDisabled, jumpLabels: opts.JumpLabels, printer: opts.Printer, merger: EmptyMerger, selected: make(map[int32]selectedItem), reqBox: util.NewEventBox(), preview: opts.Preview, previewer: previewer{"", 0, 0, previewBox != nil && !opts.Preview.hidden}, previewBox: previewBox, eventBox: eventBox, mutex: sync.Mutex{}, suppress: true, slab: util.MakeSlab(slab16Size, slab32Size), theme: opts.Theme, startChan: make(chan bool, 1), tui: renderer, initFunc: func() { renderer.Init() }} } // Input returns current query string func (t *Terminal) Input() []rune { t.mutex.Lock() defer t.mutex.Unlock() return copySlice(t.input) } // UpdateCount updates the count information func (t *Terminal) UpdateCount(cnt int, final bool) { t.mutex.Lock() t.count = cnt t.reading = !final t.mutex.Unlock() t.reqBox.Set(reqInfo, nil) if final { t.reqBox.Set(reqRefresh, nil) } } func reverseStringArray(input []string) []string { size := len(input) reversed := make([]string, size) for idx, str := range input { reversed[size-idx-1] = str } return reversed } // UpdateHeader updates the header func (t *Terminal) UpdateHeader(header []string) { t.mutex.Lock() t.header = append(append([]string{}, t.header0...), header...) t.mutex.Unlock() t.reqBox.Set(reqHeader, nil) } // UpdateProgress updates the search progress func (t *Terminal) UpdateProgress(progress float32) { t.mutex.Lock() newProgress := int(progress * 100) changed := t.progress != newProgress t.progress = newProgress t.mutex.Unlock() if changed { t.reqBox.Set(reqInfo, nil) } } // UpdateList updates Merger to display the list func (t *Terminal) UpdateList(merger *Merger) { t.mutex.Lock() t.progress = 100 t.merger = merger t.mutex.Unlock() t.reqBox.Set(reqInfo, nil) t.reqBox.Set(reqList, nil) } func (t *Terminal) output() bool { if t.printQuery { t.printer(string(t.input)) } if len(t.expect) > 0 { t.printer(t.pressed) } found := len(t.selected) > 0 if !found { cnt := t.merger.Length() if cnt > 0 && cnt > t.cy { t.printer(t.current()) found = true } } else { for _, sel := range t.sortSelected() { t.printer(sel.item.AsString(t.ansi)) } } return found } func (t *Terminal) sortSelected() []selectedItem { sels := make([]selectedItem, 0, len(t.selected)) for _, sel := range t.selected { sels = append(sels, sel) } sort.Sort(byTimeOrder(sels)) return sels } func (t *Terminal) displayWidth(runes []rune) int { l := 0 for _, r := range runes { l += util.RuneWidth(r, l, t.tabstop) } return l } const ( minWidth = 16 minHeight = 4 maxDisplayWidthCalc = 1024 ) func calculateSize(base int, size sizeSpec, margin int, minSize int) int { max := base - margin if size.percent { return util.Constrain(int(float64(base)*0.01*size.size), minSize, max) } return util.Constrain(int(size.size), minSize, max) } func (t *Terminal) resizeWindows() { screenWidth := t.tui.MaxX() screenHeight := t.tui.MaxY() marginInt := [4]int{} t.prevLines = make([]itemLine, screenHeight) for idx, sizeSpec := range t.margin { if sizeSpec.percent { var max float64 if idx%2 == 0 { max = float64(screenHeight) } else { max = float64(screenWidth) } marginInt[idx] = int(max * sizeSpec.size * 0.01) } else { marginInt[idx] = int(sizeSpec.size) } } adjust := func(idx1 int, idx2 int, max int, min int) { if max >= min { margin := marginInt[idx1] + marginInt[idx2] if max-margin < min { desired := max - min marginInt[idx1] = desired * marginInt[idx1] / margin marginInt[idx2] = desired * marginInt[idx2] / margin } } } minAreaWidth := minWidth minAreaHeight := minHeight if t.isPreviewEnabled() { switch t.preview.position { case posUp, posDown: minAreaHeight *= 2 case posLeft, posRight: minAreaWidth *= 2 } } adjust(1, 3, screenWidth, minAreaWidth) adjust(0, 2, screenHeight, minAreaHeight) if t.window != nil { t.window.Close() } if t.bwindow != nil { t.bwindow.Close() t.pwindow.Close() } width := screenWidth - marginInt[1] - marginInt[3] height := screenHeight - marginInt[0] - marginInt[2] if t.isPreviewEnabled() { createPreviewWindow := func(y int, x int, w int, h int) { t.bwindow = t.tui.NewWindow(y, x, w, h, true) pwidth := w - 4 // ncurses auto-wraps the line when the cursor reaches the right-end of // the window. To prevent unintended line-wraps, we use the width one // column larger than the desired value. if !t.preview.wrap && t.tui.DoesAutoWrap() { pwidth += 1 } t.pwindow = t.tui.NewWindow(y+1, x+2, pwidth, h-2, false) } switch t.preview.position { case posUp: pheight := calculateSize(height, t.preview.size, minHeight, 3) t.window = t.tui.NewWindow( marginInt[0]+pheight, marginInt[3], width, height-pheight, false) createPreviewWindow(marginInt[0], marginInt[3], width, pheight) case posDown: pheight := calculateSize(height, t.preview.size, minHeight, 3) t.window = t.tui.NewWindow( marginInt[0], marginInt[3], width, height-pheight, false) createPreviewWindow(marginInt[0]+height-pheight, marginInt[3], width, pheight) case posLeft: pwidth := calculateSize(width, t.preview.size, minWidth, 5) t.window = t.tui.NewWindow( marginInt[0], marginInt[3]+pwidth, width-pwidth, height, false) createPreviewWindow(marginInt[0], marginInt[3], pwidth, height) case posRight: pwidth := calculateSize(width, t.preview.size, minWidth, 5) t.window = t.tui.NewWindow( marginInt[0], marginInt[3], width-pwidth, height, false) createPreviewWindow(marginInt[0], marginInt[3]+width-pwidth, pwidth, height) } } else { t.window = t.tui.NewWindow( marginInt[0], marginInt[3], width, height, false) } } func (t *Terminal) move(y int, x int, clear bool) { if !t.reverse { y = t.window.Height() - y - 1 } if clear { t.window.MoveAndClear(y, x) } else { t.window.Move(y, x) } } func (t *Terminal) placeCursor() { t.move(0, t.displayWidth([]rune(t.prompt))+t.displayWidth(t.input[:t.cx]), false) } func (t *Terminal) printPrompt() { t.move(0, 0, true) t.window.CPrint(tui.ColPrompt, t.strong, t.prompt) t.window.CPrint(tui.ColNormal, t.strong, string(t.input)) } func (t *Terminal) printInfo() { if t.inlineInfo { t.move(0, t.displayWidth([]rune(t.prompt))+t.displayWidth(t.input)+1, true) if t.reading { t.window.CPrint(tui.ColSpinner, t.strong, " < ") } else { t.window.CPrint(tui.ColPrompt, t.strong, " < ") } } else { t.move(1, 0, true) if t.reading { duration := int64(spinnerDuration) idx := (time.Now().UnixNano() % (duration * int64(len(_spinner)))) / duration t.window.CPrint(tui.ColSpinner, t.strong, _spinner[idx]) } t.move(1, 2, false) } output := fmt.Sprintf("%d/%d", t.merger.Length(), t.count) if t.toggleSort { if t.sort { output += "/S" } else { output += " " } } if t.multi && len(t.selected) > 0 { output += fmt.Sprintf(" (%d)", len(t.selected)) } if t.progress > 0 && t.progress < 100 { output += fmt.Sprintf(" (%d%%)", t.progress) } t.window.CPrint(tui.ColInfo, 0, output) } func (t *Terminal) printHeader() { if len(t.header) == 0 { return } max := t.window.Height() var state *ansiState for idx, lineStr := range t.header { line := idx + 2 if t.inlineInfo { line-- } if line >= max { continue } trimmed, colors, newState := extractColor(lineStr, state, nil) state = newState item := &Item{ text: util.RunesToChars([]rune(trimmed)), colors: colors} t.move(line, 2, true) t.printHighlighted(&Result{item: item}, tui.AttrRegular, tui.ColHeader, tui.ColDefault, false, false) } } func (t *Terminal) printList() { t.constrain() maxy := t.maxItems() count := t.merger.Length() - t.offset for j := 0; j < maxy; j++ { i := j if !t.reverse { i = maxy - 1 - j } line := i + 2 + len(t.header) if t.inlineInfo { line-- } if i < count { t.printItem(t.merger.Get(i+t.offset), line, i, i == t.cy-t.offset) } else if t.prevLines[i] != emptyLine { t.prevLines[i] = emptyLine t.move(line, 0, true) } } } func (t *Terminal) printItem(result *Result, line int, i int, current bool) { item := result.item _, selected := t.selected[item.Index()] label := " " if t.jumping != jumpDisabled { if i < len(t.jumpLabels) { // Striped current = i%2 == 0 label = t.jumpLabels[i : i+1] } } else if current { label = ">" } // Avoid unnecessary redraw newLine := itemLine{current: current, selected: selected, label: label, result: *result, width: 0} prevLine := t.prevLines[i] if prevLine.current == newLine.current && prevLine.selected == newLine.selected && prevLine.label == newLine.label && prevLine.result == newLine.result { return } // Optimized renderer can simply erase to the end of the window t.move(line, 0, t.tui.IsOptimized()) t.window.CPrint(tui.ColCursor, t.strong, label) if current { if selected { t.window.CPrint(tui.ColSelected, t.strong, ">") } else { t.window.CPrint(tui.ColCurrent, t.strong, " ") } newLine.width = t.printHighlighted(result, t.strong, tui.ColCurrent, tui.ColCurrentMatch, true, true) } else { if selected { t.window.CPrint(tui.ColSelected, t.strong, ">") } else { t.window.Print(" ") } newLine.width = t.printHighlighted(result, 0, tui.ColNormal, tui.ColMatch, false, true) } if !t.tui.IsOptimized() { fillSpaces := prevLine.width - newLine.width if fillSpaces > 0 { t.window.Print(strings.Repeat(" ", fillSpaces)) } } t.prevLines[i] = newLine } func (t *Terminal) trimRight(runes []rune, width int) ([]rune, int) { // We start from the beginning to handle tab characters l := 0 for idx, r := range runes { l += util.RuneWidth(r, l, t.tabstop) if l > width { return runes[:idx], len(runes) - idx } } return runes, 0 } func (t *Terminal) displayWidthWithLimit(runes []rune, prefixWidth int, limit int) int { l := 0 for _, r := range runes { l += util.RuneWidth(r, l+prefixWidth, t.tabstop) if l > limit { // Early exit return l } } return l } func (t *Terminal) trimLeft(runes []rune, width int) ([]rune, int32) { if len(runes) > maxDisplayWidthCalc && len(runes) > width { trimmed := len(runes) - width return runes[trimmed:], int32(trimmed) } currentWidth := t.displayWidth(runes) var trimmed int32 for currentWidth > width && len(runes) > 0 { runes = runes[1:] trimmed++ currentWidth = t.displayWidthWithLimit(runes, 2, width) } return runes, trimmed } func (t *Terminal) overflow(runes []rune, max int) bool { return t.displayWidthWithLimit(runes, 0, max) > max } func (t *Terminal) printHighlighted(result *Result, attr tui.Attr, col1 tui.ColorPair, col2 tui.ColorPair, current bool, match bool) int { item := result.item // Overflow text := make([]rune, item.text.Length()) copy(text, item.text.ToRunes()) matchOffsets := []Offset{} var pos *[]int if match && t.merger.pattern != nil { _, matchOffsets, pos = t.merger.pattern.MatchItem(item, true, t.slab) } charOffsets := matchOffsets if pos != nil { charOffsets = make([]Offset, len(*pos)) for idx, p := range *pos { offset := Offset{int32(p), int32(p + 1)} charOffsets[idx] = offset } sort.Sort(ByOrder(charOffsets)) } var maxe int for _, offset := range charOffsets { maxe = util.Max(maxe, int(offset[1])) } offsets := result.colorOffsets(charOffsets, t.theme, col2, attr, current) maxWidth := t.window.Width() - 3 maxe = util.Constrain(maxe+util.Min(maxWidth/2-2, t.hscrollOff), 0, len(text)) displayWidth := t.displayWidthWithLimit(text, 0, maxWidth) if displayWidth > maxWidth { if t.hscroll { // Stri.. if !t.overflow(text[:maxe], maxWidth-2) { text, _ = t.trimRight(text, maxWidth-2) text = append(text, []rune("..")...) } else { // Stri.. if t.overflow(text[maxe:], 2) { text = append(text[:maxe], []rune("..")...) } // ..ri.. var diff int32 text, diff = t.trimLeft(text, maxWidth-2) // Transform offsets for idx, offset := range offsets { b, e := offset.offset[0], offset.offset[1] b += 2 - diff e += 2 - diff b = util.Max32(b, 2) offsets[idx].offset[0] = b offsets[idx].offset[1] = util.Max32(b, e) } text = append([]rune(".."), text...) } } else { text, _ = t.trimRight(text, maxWidth-2) text = append(text, []rune("..")...) for idx, offset := range offsets { offsets[idx].offset[0] = util.Min32(offset.offset[0], int32(maxWidth-2)) offsets[idx].offset[1] = util.Min32(offset.offset[1], int32(maxWidth)) } } } var index int32 var substr string var prefixWidth int maxOffset := int32(len(text)) for _, offset := range offsets { b := util.Constrain32(offset.offset[0], index, maxOffset) e := util.Constrain32(offset.offset[1], index, maxOffset) substr, prefixWidth = t.processTabs(text[index:b], prefixWidth) t.window.CPrint(col1, attr, substr) if b < e { substr, prefixWidth = t.processTabs(text[b:e], prefixWidth) t.window.CPrint(offset.color, offset.attr, substr) } index = e if index >= maxOffset { break } } if index < maxOffset { substr, _ = t.processTabs(text[index:], prefixWidth) t.window.CPrint(col1, attr, substr) } return displayWidth } func numLinesMax(str string, max int) int { lines := 0 for lines < max { idx := strings.Index(str, "\n") if idx < 0 { break } str = str[idx+1:] lines++ } return lines } func (t *Terminal) printPreview() { if !t.isPreviewEnabled() { return } t.pwindow.Erase() maxWidth := t.pwindow.Width() if t.tui.DoesAutoWrap() { maxWidth -= 1 } reader := bufio.NewReader(strings.NewReader(t.previewer.text)) lineNo := -t.previewer.offset for { line, err := reader.ReadString('\n') eof := err == io.EOF if !eof { line = line[:len(line)-1] } lineNo++ if lineNo > t.pwindow.Height() { break } else if lineNo > 0 { var fillRet tui.FillReturn extractColor(line, nil, func(str string, ansi *ansiState) bool { trimmed := []rune(str) if !t.preview.wrap { trimmed, _ = t.trimRight(trimmed, maxWidth-t.pwindow.X()) } str, _ = t.processTabs(trimmed, 0) if ansi != nil && ansi.colored() { fillRet = t.pwindow.CFill(ansi.fg, ansi.bg, ansi.attr, str) } else { fillRet = t.pwindow.Fill(str) } return fillRet == tui.FillContinue }) switch fillRet { case tui.FillNextLine: continue case tui.FillSuspend: break } t.pwindow.Fill("\n") } if eof { break } } t.pwindow.FinishFill() if t.previewer.lines > t.pwindow.Height() { offset := fmt.Sprintf("%d/%d", t.previewer.offset+1, t.previewer.lines) pos := t.pwindow.Width() - len(offset) if t.tui.DoesAutoWrap() { pos -= 1 } t.pwindow.Move(0, pos) t.pwindow.CPrint(tui.ColInfo, tui.Reverse, offset) } } func (t *Terminal) processTabs(runes []rune, prefixWidth int) (string, int) { var strbuf bytes.Buffer l := prefixWidth for _, r := range runes { w := util.RuneWidth(r, l, t.tabstop) l += w if r == '\t' { strbuf.WriteString(strings.Repeat(" ", w)) } else { strbuf.WriteRune(r) } } return strbuf.String(), l } func (t *Terminal) printAll() { t.resizeWindows() t.printList() t.printPrompt() t.printInfo() t.printHeader() t.printPreview() } func (t *Terminal) refresh() { if !t.suppress { if t.isPreviewEnabled() { t.tui.RefreshWindows([]tui.Window{t.bwindow, t.pwindow, t.window}) } else { t.tui.RefreshWindows([]tui.Window{t.window}) } } } func (t *Terminal) delChar() bool { if len(t.input) > 0 && t.cx < len(t.input) { t.input = append(t.input[:t.cx], t.input[t.cx+1:]...) return true } return false } func findLastMatch(pattern string, str string) int { rx, err := regexp.Compile(pattern) if err != nil { return -1 } locs := rx.FindAllStringIndex(str, -1) if locs == nil { return -1 } return locs[len(locs)-1][0] } func findFirstMatch(pattern string, str string) int { rx, err := regexp.Compile(pattern) if err != nil { return -1 } loc := rx.FindStringIndex(str) if loc == nil { return -1 } return loc[0] } func copySlice(slice []rune) []rune { ret := make([]rune, len(slice)) copy(ret, slice) return ret } func (t *Terminal) rubout(pattern string) { pcx := t.cx after := t.input[t.cx:] t.cx = findLastMatch(pattern, string(t.input[:t.cx])) + 1 t.yanked = copySlice(t.input[t.cx:pcx]) t.input = append(t.input[:t.cx], after...) } func keyMatch(key int, event tui.Event) bool { return event.Type == key || event.Type == tui.Rune && int(event.Char) == key-tui.AltZ || event.Type == tui.Mouse && key == tui.DoubleClick && event.MouseEvent.Double } func quoteEntry(entry string) string { if util.IsWindows() { return strconv.Quote(strings.Replace(entry, "\"", "\\\"", -1)) } return "'" + strings.Replace(entry, "'", "'\\''", -1) + "'" } func replacePlaceholder(template string, stripAnsi bool, delimiter Delimiter, query string, items []*Item) string { return placeholder.ReplaceAllStringFunc(template, func(match string) string { // Escaped pattern if match[0] == '\\' { return match[1:] } // Current query if match == "{q}" { return quoteEntry(query) } replacements := make([]string, len(items)) if match == "{}" { for idx, item := range items { replacements[idx] = quoteEntry(item.AsString(stripAnsi)) } return strings.Join(replacements, " ") } tokens := strings.Split(match[1:len(match)-1], ",") ranges := make([]Range, len(tokens)) for idx, s := range tokens { r, ok := ParseRange(&s) if !ok { // Invalid expression, just return the original string in the template return match } ranges[idx] = r } for idx, item := range items { chars := util.RunesToChars([]rune(item.AsString(stripAnsi))) tokens := Tokenize(chars, delimiter) trans := Transform(tokens, ranges) str := string(joinTokens(trans)) if delimiter.str != nil { str = strings.TrimSuffix(str, *delimiter.str) } else if delimiter.regex != nil { delims := delimiter.regex.FindAllStringIndex(str, -1) if len(delims) > 0 && delims[len(delims)-1][1] == len(str) { str = str[:delims[len(delims)-1][0]] } } str = strings.TrimSpace(str) replacements[idx] = quoteEntry(str) } return strings.Join(replacements, " ") }) } func (t *Terminal) executeCommand(template string, items []*Item) { command := replacePlaceholder(template, t.ansi, t.delimiter, string(t.input), items) cmd := util.ExecCommand(command) cmd.Stdin = os.Stdin cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr t.tui.Pause() cmd.Run() if t.tui.Resume() { t.printAll() } t.refresh() } func (t *Terminal) hasPreviewWindow() bool { return t.previewBox != nil } func (t *Terminal) isPreviewEnabled() bool { return t.previewBox != nil && t.previewer.enabled } func (t *Terminal) currentItem() *Item { return t.merger.Get(t.cy).item } func (t *Terminal) current() string { return t.currentItem().AsString(t.ansi) } // Loop is called to start Terminal I/O func (t *Terminal) Loop() { // prof := profile.Start(profile.ProfilePath("/tmp/")) <-t.startChan { // Late initialization intChan := make(chan os.Signal, 1) signal.Notify(intChan, os.Interrupt, os.Kill, syscall.SIGTERM) go func() { <-intChan t.reqBox.Set(reqQuit, nil) }() resizeChan := make(chan os.Signal, 1) notifyOnResize(resizeChan) // Non-portable go func() { for { <-resizeChan t.reqBox.Set(reqRedraw, nil) } }() t.mutex.Lock() t.initFunc() t.resizeWindows() t.printPrompt() t.placeCursor() t.refresh() t.printInfo() t.printHeader() t.mutex.Unlock() go func() { timer := time.NewTimer(t.initDelay) <-timer.C t.reqBox.Set(reqRefresh, nil) }() // Keep the spinner spinning go func() { for { t.mutex.Lock() reading := t.reading t.mutex.Unlock() if !reading { break } time.Sleep(spinnerDuration) t.reqBox.Set(reqInfo, nil) } }() } if t.hasPreviewWindow() { go func() { for { var request *Item t.previewBox.Wait(func(events *util.Events) { for req, value := range *events { switch req { case reqPreviewEnqueue: request = value.(*Item) } } events.Clear() }) if request != nil { command := replacePlaceholder(t.preview.command, t.ansi, t.delimiter, string(t.input), []*Item{request}) cmd := util.ExecCommand(command) out, _ := cmd.CombinedOutput() t.reqBox.Set(reqPreviewDisplay, string(out)) } else { t.reqBox.Set(reqPreviewDisplay, "") } } }() } exit := func(code int) { if code <= exitNoMatch && t.history != nil { t.history.append(string(t.input)) } // prof.Stop() os.Exit(code) } go func() { var focused *Item for { t.reqBox.Wait(func(events *util.Events) { defer events.Clear() t.mutex.Lock() for req, value := range *events { switch req { case reqPrompt: t.printPrompt() if t.inlineInfo { t.printInfo() } case reqInfo: t.printInfo() case reqList: t.printList() cnt := t.merger.Length() var currentFocus *Item if cnt > 0 && cnt > t.cy { currentFocus = t.currentItem() } else { currentFocus = nil } if currentFocus != focused { focused = currentFocus if t.isPreviewEnabled() { t.previewBox.Set(reqPreviewEnqueue, focused) } } case reqJump: if t.merger.Length() == 0 { t.jumping = jumpDisabled } t.printList() case reqHeader: t.printHeader() case reqRefresh: t.suppress = false case reqRedraw: t.tui.Clear() t.tui.Refresh() t.printAll() case reqClose: t.tui.Close() if t.output() { exit(exitOk) } exit(exitNoMatch) case reqPreviewDisplay: t.previewer.text = value.(string) t.previewer.lines = strings.Count(t.previewer.text, "\n") t.previewer.offset = 0 t.printPreview() case reqPreviewRefresh: t.printPreview() case reqPrintQuery: t.tui.Close() t.printer(string(t.input)) exit(exitOk) case reqQuit: t.tui.Close() exit(exitInterrupt) } } t.placeCursor() t.mutex.Unlock() }) t.refresh() } }() looping := true for looping { event := t.tui.GetChar() t.mutex.Lock() previousInput := t.input events := []util.EventType{reqPrompt} req := func(evts ...util.EventType) { for _, event := range evts { events = append(events, event) if event == reqClose || event == reqQuit { looping = false } } } selectItem := func(item *Item) bool { if _, found := t.selected[item.Index()]; !found { t.selected[item.Index()] = selectedItem{time.Now(), item} return true } return false } toggleY := func(y int) { item := t.merger.Get(y).item if !selectItem(item) { delete(t.selected, item.Index()) } } toggle := func() { if t.cy < t.merger.Length() { toggleY(t.cy) req(reqInfo) } } scrollPreview := func(amount int) { t.previewer.offset = util.Constrain( t.previewer.offset+amount, 0, t.previewer.lines-1) req(reqPreviewRefresh) } for key, ret := range t.expect { if keyMatch(key, event) { t.pressed = ret t.reqBox.Set(reqClose, nil) t.mutex.Unlock() return } } var doAction func(actionType, int) bool doAction = func(action actionType, mapkey int) bool { switch action { case actIgnore: case actExecute: if t.cy >= 0 && t.cy < t.merger.Length() { t.executeCommand(t.execmap[mapkey], []*Item{t.currentItem()}) } case actExecuteMulti: if len(t.selected) > 0 { sels := make([]*Item, len(t.selected)) for i, sel := range t.sortSelected() { sels[i] = sel.item } t.executeCommand(t.execmap[mapkey], sels) } else { return doAction(actExecute, mapkey) } case actInvalid: t.mutex.Unlock() return false case actTogglePreview: if t.hasPreviewWindow() { t.previewer.enabled = !t.previewer.enabled t.resizeWindows() cnt := t.merger.Length() if t.previewer.enabled && cnt > 0 && cnt > t.cy { t.previewBox.Set(reqPreviewEnqueue, t.currentItem()) } req(reqList, reqInfo, reqHeader) } case actToggleSort: t.sort = !t.sort t.eventBox.Set(EvtSearchNew, t.sort) t.mutex.Unlock() return false case actPreviewUp: if t.isPreviewEnabled() { scrollPreview(-1) } case actPreviewDown: if t.isPreviewEnabled() { scrollPreview(1) } case actPreviewPageUp: if t.isPreviewEnabled() { scrollPreview(-t.pwindow.Height()) } case actPreviewPageDown: if t.isPreviewEnabled() { scrollPreview(t.pwindow.Height()) } case actBeginningOfLine: t.cx = 0 case actBackwardChar: if t.cx > 0 { t.cx-- } case actPrintQuery: req(reqPrintQuery) case actAbort: req(reqQuit) case actDeleteChar: t.delChar() case actDeleteCharEOF: if !t.delChar() && t.cx == 0 { req(reqQuit) } case actEndOfLine: t.cx = len(t.input) case actCancel: if len(t.input) == 0 { req(reqQuit) } else { t.yanked = t.input t.input = []rune{} t.cx = 0 } case actForwardChar: if t.cx < len(t.input) { t.cx++ } case actBackwardDeleteChar: if t.cx > 0 { t.input = append(t.input[:t.cx-1], t.input[t.cx:]...) t.cx-- } case actSelectAll: if t.multi { for i := 0; i < t.merger.Length(); i++ { item := t.merger.Get(i).item selectItem(item) } req(reqList, reqInfo) } case actDeselectAll: if t.multi { for i := 0; i < t.merger.Length(); i++ { item := t.merger.Get(i) delete(t.selected, item.Index()) } req(reqList, reqInfo) } case actToggle: if t.multi && t.merger.Length() > 0 { toggle() req(reqList) } case actToggleAll: if t.multi { for i := 0; i < t.merger.Length(); i++ { toggleY(i) } req(reqList, reqInfo) } case actToggleIn: if t.reverse { return doAction(actToggleUp, mapkey) } return doAction(actToggleDown, mapkey) case actToggleOut: if t.reverse { return doAction(actToggleDown, mapkey) } return doAction(actToggleUp, mapkey) case actToggleDown: if t.multi && t.merger.Length() > 0 { toggle() t.vmove(-1) req(reqList) } case actToggleUp: if t.multi && t.merger.Length() > 0 { toggle() t.vmove(1) req(reqList) } case actDown: t.vmove(-1) req(reqList) case actUp: t.vmove(1) req(reqList) case actAccept: req(reqClose) case actClearScreen: req(reqRedraw) case actUnixLineDiscard: if t.cx > 0 { t.yanked = copySlice(t.input[:t.cx]) t.input = t.input[t.cx:] t.cx = 0 } case actUnixWordRubout: if t.cx > 0 { t.rubout("\\s\\S") } case actBackwardKillWord: if t.cx > 0 { t.rubout(t.wordRubout) } case actYank: suffix := copySlice(t.input[t.cx:]) t.input = append(append(t.input[:t.cx], t.yanked...), suffix...) t.cx += len(t.yanked) case actPageUp: t.vmove(t.maxItems() - 1) req(reqList) case actPageDown: t.vmove(-(t.maxItems() - 1)) req(reqList) case actHalfPageUp: t.vmove(t.maxItems() / 2) req(reqList) case actHalfPageDown: t.vmove(-(t.maxItems() / 2)) req(reqList) case actJump: t.jumping = jumpEnabled req(reqJump) case actJumpAccept: t.jumping = jumpAcceptEnabled req(reqJump) case actBackwardWord: t.cx = findLastMatch(t.wordRubout, string(t.input[:t.cx])) + 1 case actForwardWord: t.cx += findFirstMatch(t.wordNext, string(t.input[t.cx:])) + 1 case actKillWord: ncx := t.cx + findFirstMatch(t.wordNext, string(t.input[t.cx:])) + 1 if ncx > t.cx { t.yanked = copySlice(t.input[t.cx:ncx]) t.input = append(t.input[:t.cx], t.input[ncx:]...) } case actKillLine: if t.cx < len(t.input) { t.yanked = copySlice(t.input[t.cx:]) t.input = t.input[:t.cx] } case actRune: prefix := copySlice(t.input[:t.cx]) t.input = append(append(prefix, event.Char), t.input[t.cx:]...) t.cx++ case actPreviousHistory: if t.history != nil { t.history.override(string(t.input)) t.input = []rune(t.history.previous()) t.cx = len(t.input) } case actNextHistory: if t.history != nil { t.history.override(string(t.input)) t.input = []rune(t.history.next()) t.cx = len(t.input) } case actMouse: me := event.MouseEvent mx, my := me.X, me.Y if me.S != 0 { // Scroll if t.window.Enclose(my, mx) && t.merger.Length() > 0 { if t.multi && me.Mod { toggle() } t.vmove(me.S) req(reqList) } else if t.isPreviewEnabled() && t.pwindow.Enclose(my, mx) { scrollPreview(-me.S) } } else if t.window.Enclose(my, mx) { mx -= t.window.Left() my -= t.window.Top() mx = util.Constrain(mx-t.displayWidth([]rune(t.prompt)), 0, len(t.input)) if !t.reverse { my = t.window.Height() - my - 1 } min := 2 + len(t.header) if t.inlineInfo { min-- } if me.Double { // Double-click if my >= min { if t.vset(t.offset+my-min) && t.cy < t.merger.Length() { return doAction(t.keymap[tui.DoubleClick], tui.DoubleClick) } } } else if me.Down { if my == 0 && mx >= 0 { // Prompt t.cx = mx } else if my >= min { // List if t.vset(t.offset+my-min) && t.multi && me.Mod { toggle() } req(reqList) } } } } return true } changed := false mapkey := event.Type if t.jumping == jumpDisabled { action := t.keymap[mapkey] if mapkey == tui.Rune { mapkey = int(event.Char) + int(tui.AltZ) if act, prs := t.keymap[mapkey]; prs { action = act } } if !doAction(action, mapkey) { continue } // Truncate the query if it's too long if len(t.input) > maxPatternLength { t.input = t.input[:maxPatternLength] t.cx = util.Constrain(t.cx, 0, maxPatternLength) } changed = string(previousInput) != string(t.input) } else { if mapkey == tui.Rune { if idx := strings.IndexRune(t.jumpLabels, event.Char); idx >= 0 && idx < t.maxItems() && idx < t.merger.Length() { t.cy = idx + t.offset if t.jumping == jumpAcceptEnabled { req(reqClose) } } } t.jumping = jumpDisabled req(reqList) } t.mutex.Unlock() // Must be unlocked before touching reqBox if changed { t.eventBox.Set(EvtSearchNew, t.sort) } for _, event := range events { t.reqBox.Set(event, nil) } } } func (t *Terminal) constrain() { count := t.merger.Length() height := t.maxItems() diffpos := t.cy - t.offset t.cy = util.Constrain(t.cy, 0, count-1) t.offset = util.Constrain(t.offset, t.cy-height+1, t.cy) // Adjustment if count-t.offset < height { t.offset = util.Max(0, count-height) t.cy = util.Constrain(t.offset+diffpos, 0, count-1) } t.offset = util.Max(0, t.offset) } func (t *Terminal) vmove(o int) { if t.reverse { o *= -1 } dest := t.cy + o if t.cycle { max := t.merger.Length() - 1 if dest > max { if t.cy == max { dest = 0 } } else if dest < 0 { if t.cy == 0 { dest = max } } } t.vset(dest) } func (t *Terminal) vset(o int) bool { t.cy = util.Constrain(o, 0, t.merger.Length()-1) return t.cy == o } func (t *Terminal) maxItems() int { max := t.window.Height() - 2 - len(t.header) if t.inlineInfo { max++ } return util.Max(max, 0) }