package action import ( "errors" "fmt" "io/fs" "regexp" "runtime" "strings" "time" shellquote "github.com/kballard/go-shellquote" "github.com/zyedidia/micro/v2/internal/buffer" "github.com/zyedidia/micro/v2/internal/clipboard" "github.com/zyedidia/micro/v2/internal/config" "github.com/zyedidia/micro/v2/internal/display" "github.com/zyedidia/micro/v2/internal/screen" "github.com/zyedidia/micro/v2/internal/shell" "github.com/zyedidia/micro/v2/internal/util" "github.com/zyedidia/tcell/v2" ) // ScrollUp is not an action func (h *BufPane) ScrollUp(n int) { v := h.GetView() v.StartLine = h.Scroll(v.StartLine, -n) h.SetView(v) } // ScrollDown is not an action func (h *BufPane) ScrollDown(n int) { v := h.GetView() v.StartLine = h.Scroll(v.StartLine, n) h.SetView(v) } // ScrollAdjust can be used to shift the view so that the last line is at the // bottom if the user has scrolled past the last line. func (h *BufPane) ScrollAdjust() { v := h.GetView() end := h.SLocFromLoc(h.Buf.End()) if h.Diff(v.StartLine, end) < h.BufView().Height-1 { v.StartLine = h.Scroll(end, -h.BufView().Height+1) } h.SetView(v) } // MousePress is the event that should happen when a normal click happens // This is almost always bound to left click func (h *BufPane) MousePress(e *tcell.EventMouse) bool { b := h.Buf mx, my := e.Position() mouseLoc := h.LocFromVisual(buffer.Loc{mx, my}) h.Cursor.Loc = mouseLoc if h.mouseReleased { if b.NumCursors() > 1 { b.ClearCursors() h.Relocate() h.Cursor = h.Buf.GetActiveCursor() h.Cursor.Loc = mouseLoc } if time.Since(h.lastClickTime)/time.Millisecond < config.DoubleClickThreshold && (mouseLoc.X == h.lastLoc.X && mouseLoc.Y == h.lastLoc.Y) { if h.doubleClick { // Triple click h.lastClickTime = time.Now() h.tripleClick = true h.doubleClick = false h.Cursor.SelectLine() h.Cursor.CopySelection(clipboard.PrimaryReg) } else { // Double click h.lastClickTime = time.Now() h.doubleClick = true h.tripleClick = false h.Cursor.SelectWord() h.Cursor.CopySelection(clipboard.PrimaryReg) } } else { h.doubleClick = false h.tripleClick = false h.lastClickTime = time.Now() h.Cursor.OrigSelection[0] = h.Cursor.Loc h.Cursor.CurSelection[0] = h.Cursor.Loc h.Cursor.CurSelection[1] = h.Cursor.Loc } h.mouseReleased = false } else if !h.mouseReleased { if h.tripleClick { h.Cursor.AddLineToSelection() } else if h.doubleClick { h.Cursor.AddWordToSelection() } else { h.Cursor.SetSelectionEnd(h.Cursor.Loc) } } h.Cursor.StoreVisualX() h.lastLoc = mouseLoc h.Relocate() return true } // ScrollUpAction scrolls the view up func (h *BufPane) ScrollUpAction() bool { h.ScrollUp(util.IntOpt(h.Buf.Settings["scrollspeed"])) return true } // ScrollDownAction scrolls the view up func (h *BufPane) ScrollDownAction() bool { h.ScrollDown(util.IntOpt(h.Buf.Settings["scrollspeed"])) return true } // Center centers the view on the cursor func (h *BufPane) Center() bool { v := h.GetView() v.StartLine = h.Scroll(h.SLocFromLoc(h.Cursor.Loc), -h.BufView().Height/2) h.SetView(v) h.ScrollAdjust() return true } // MoveCursorUp is not an action func (h *BufPane) MoveCursorUp(n int) { if !h.Buf.Settings["softwrap"].(bool) { h.Cursor.UpN(n) } else { vloc := h.VLocFromLoc(h.Cursor.Loc) sloc := h.Scroll(vloc.SLoc, -n) if sloc == vloc.SLoc { // we are at the beginning of buffer h.Cursor.Loc = h.Buf.Start() h.Cursor.LastVisualX = 0 } else { vloc.SLoc = sloc vloc.VisualX = h.Cursor.LastVisualX h.Cursor.Loc = h.LocFromVLoc(vloc) } } } // MoveCursorDown is not an action func (h *BufPane) MoveCursorDown(n int) { if !h.Buf.Settings["softwrap"].(bool) { h.Cursor.DownN(n) } else { vloc := h.VLocFromLoc(h.Cursor.Loc) sloc := h.Scroll(vloc.SLoc, n) if sloc == vloc.SLoc { // we are at the end of buffer h.Cursor.Loc = h.Buf.End() vloc = h.VLocFromLoc(h.Cursor.Loc) h.Cursor.LastVisualX = vloc.VisualX } else { vloc.SLoc = sloc vloc.VisualX = h.Cursor.LastVisualX h.Cursor.Loc = h.LocFromVLoc(vloc) } } } // CursorUp moves the cursor up func (h *BufPane) CursorUp() bool { h.Cursor.Deselect(true) h.MoveCursorUp(1) h.Relocate() return true } // CursorDown moves the cursor down func (h *BufPane) CursorDown() bool { h.Cursor.Deselect(true) h.MoveCursorDown(1) h.Relocate() return true } // CursorLeft moves the cursor left func (h *BufPane) CursorLeft() bool { if h.Cursor.HasSelection() { h.Cursor.Deselect(true) } else { tabstospaces := h.Buf.Settings["tabstospaces"].(bool) tabmovement := h.Buf.Settings["tabmovement"].(bool) if tabstospaces && tabmovement { tabsize := int(h.Buf.Settings["tabsize"].(float64)) line := h.Buf.LineBytes(h.Cursor.Y) if h.Cursor.X-tabsize >= 0 && util.IsSpaces(line[h.Cursor.X-tabsize:h.Cursor.X]) && util.IsBytesWhitespace(line[0:h.Cursor.X-tabsize]) { for i := 0; i < tabsize; i++ { h.Cursor.Left() } } else { h.Cursor.Left() } } else { h.Cursor.Left() } } h.Relocate() return true } // CursorRight moves the cursor right func (h *BufPane) CursorRight() bool { if h.Cursor.HasSelection() { h.Cursor.Deselect(false) h.Cursor.Loc = h.Cursor.Loc.Move(1, h.Buf) } else { tabstospaces := h.Buf.Settings["tabstospaces"].(bool) tabmovement := h.Buf.Settings["tabmovement"].(bool) if tabstospaces && tabmovement { tabsize := int(h.Buf.Settings["tabsize"].(float64)) line := h.Buf.LineBytes(h.Cursor.Y) if h.Cursor.X+tabsize < util.CharacterCount(line) && util.IsSpaces(line[h.Cursor.X:h.Cursor.X+tabsize]) && util.IsBytesWhitespace(line[0:h.Cursor.X]) { for i := 0; i < tabsize; i++ { h.Cursor.Right() } } else { h.Cursor.Right() } } else { h.Cursor.Right() } } h.Relocate() return true } // WordRight moves the cursor one word to the right func (h *BufPane) WordRight() bool { h.Cursor.Deselect(false) h.Cursor.WordRight() h.Relocate() return true } // WordLeft moves the cursor one word to the left func (h *BufPane) WordLeft() bool { h.Cursor.Deselect(true) h.Cursor.WordLeft() h.Relocate() return true } // SelectUp selects up one line func (h *BufPane) SelectUp() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.MoveCursorUp(1) h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectDown selects down one line func (h *BufPane) SelectDown() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.MoveCursorDown(1) h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectLeft selects the character to the left of the cursor func (h *BufPane) SelectLeft() bool { loc := h.Cursor.Loc count := h.Buf.End() if loc.GreaterThan(count) { loc = count } if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = loc } h.Cursor.Left() h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectRight selects the character to the right of the cursor func (h *BufPane) SelectRight() bool { loc := h.Cursor.Loc count := h.Buf.End() if loc.GreaterThan(count) { loc = count } if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = loc } h.Cursor.Right() h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectWordRight selects the word to the right of the cursor func (h *BufPane) SelectWordRight() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.Cursor.WordRight() h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectWordLeft selects the word to the left of the cursor func (h *BufPane) SelectWordLeft() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.Cursor.WordLeft() h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // StartOfText moves the cursor to the start of the text of the line func (h *BufPane) StartOfText() bool { h.Cursor.Deselect(true) h.Cursor.StartOfText() h.Relocate() return true } // StartOfTextToggle toggles the cursor between the start of the text of the line // and the start of the line func (h *BufPane) StartOfTextToggle() bool { h.Cursor.Deselect(true) if h.Cursor.IsStartOfText() { h.Cursor.Start() } else { h.Cursor.StartOfText() } h.Relocate() return true } // StartOfLine moves the cursor to the start of the line func (h *BufPane) StartOfLine() bool { h.Cursor.Deselect(true) h.Cursor.Start() h.Relocate() return true } // EndOfLine moves the cursor to the end of the line func (h *BufPane) EndOfLine() bool { h.Cursor.Deselect(true) h.Cursor.End() h.Relocate() return true } // SelectLine selects the entire current line func (h *BufPane) SelectLine() bool { h.Cursor.SelectLine() h.Relocate() return true } // SelectToStartOfText selects to the start of the text on the current line func (h *BufPane) SelectToStartOfText() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.Cursor.StartOfText() h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectToStartOfTextToggle toggles the selection between the start of the text // on the current line and the start of the line func (h *BufPane) SelectToStartOfTextToggle() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } if h.Cursor.IsStartOfText() { h.Cursor.Start() } else { h.Cursor.StartOfText() } h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectToStartOfLine selects to the start of the current line func (h *BufPane) SelectToStartOfLine() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.Cursor.Start() h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectToEndOfLine selects to the end of the current line func (h *BufPane) SelectToEndOfLine() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.Cursor.End() h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // ParagraphPrevious moves the cursor to the previous empty line, or beginning of the buffer if there's none func (h *BufPane) ParagraphPrevious() bool { var line int for line = h.Cursor.Y; line > 0; line-- { if len(h.Buf.LineBytes(line)) == 0 && line != h.Cursor.Y { h.Cursor.X = 0 h.Cursor.Y = line break } } // If no empty line found. move cursor to end of buffer if line == 0 { h.Cursor.Loc = h.Buf.Start() } h.Relocate() return true } // ParagraphNext moves the cursor to the next empty line, or end of the buffer if there's none func (h *BufPane) ParagraphNext() bool { var line int for line = h.Cursor.Y; line < h.Buf.LinesNum(); line++ { if len(h.Buf.LineBytes(line)) == 0 && line != h.Cursor.Y { h.Cursor.X = 0 h.Cursor.Y = line break } } // If no empty line found. move cursor to end of buffer if line == h.Buf.LinesNum() { h.Cursor.Loc = h.Buf.End() } h.Relocate() return true } // Retab changes all tabs to spaces or all spaces to tabs depending // on the user's settings func (h *BufPane) Retab() bool { h.Buf.Retab() h.Relocate() return true } // CursorStart moves the cursor to the start of the buffer func (h *BufPane) CursorStart() bool { h.Cursor.Deselect(true) h.Cursor.X = 0 h.Cursor.Y = 0 h.Cursor.StoreVisualX() h.Relocate() return true } // CursorEnd moves the cursor to the end of the buffer func (h *BufPane) CursorEnd() bool { h.Cursor.Deselect(true) h.Cursor.Loc = h.Buf.End() h.Cursor.StoreVisualX() h.Relocate() return true } // SelectToStart selects the text from the cursor to the start of the buffer func (h *BufPane) SelectToStart() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.CursorStart() h.Cursor.SelectTo(h.Buf.Start()) h.Relocate() return true } // SelectToEnd selects the text from the cursor to the end of the buffer func (h *BufPane) SelectToEnd() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.CursorEnd() h.Cursor.SelectTo(h.Buf.End()) h.Relocate() return true } // InsertNewline inserts a newline plus possible some whitespace if autoindent is on func (h *BufPane) InsertNewline() bool { // Insert a newline if h.Cursor.HasSelection() { h.Cursor.DeleteSelection() h.Cursor.ResetSelection() } ws := util.GetLeadingWhitespace(h.Buf.LineBytes(h.Cursor.Y)) cx := h.Cursor.X h.Buf.Insert(h.Cursor.Loc, "\n") // h.Cursor.Right() if h.Buf.Settings["autoindent"].(bool) { if cx < len(ws) { ws = ws[0:cx] } h.Buf.Insert(h.Cursor.Loc, string(ws)) // for i := 0; i < len(ws); i++ { // h.Cursor.Right() // } // Remove the whitespaces if keepautoindent setting is off if util.IsSpacesOrTabs(h.Buf.LineBytes(h.Cursor.Y-1)) && !h.Buf.Settings["keepautoindent"].(bool) { line := h.Buf.LineBytes(h.Cursor.Y - 1) h.Buf.Remove(buffer.Loc{X: 0, Y: h.Cursor.Y - 1}, buffer.Loc{X: util.CharacterCount(line), Y: h.Cursor.Y - 1}) } } h.Cursor.LastVisualX = h.Cursor.GetVisualX() h.Relocate() return true } // Backspace deletes the previous character func (h *BufPane) Backspace() bool { if h.Cursor.HasSelection() { h.Cursor.DeleteSelection() h.Cursor.ResetSelection() } else if h.Cursor.Loc.GreaterThan(h.Buf.Start()) { // We have to do something a bit hacky here because we want to // delete the line by first moving left and then deleting backwards // but the undo redo would place the cursor in the wrong place // So instead we move left, save the position, move back, delete // and restore the position // If the user is using spaces instead of tabs and they are deleting // whitespace at the start of the line, we should delete as if it's a // tab (tabSize number of spaces) lineStart := util.SliceStart(h.Buf.LineBytes(h.Cursor.Y), h.Cursor.X) tabSize := int(h.Buf.Settings["tabsize"].(float64)) if h.Buf.Settings["tabstospaces"].(bool) && util.IsSpaces(lineStart) && len(lineStart) != 0 && util.CharacterCount(lineStart)%tabSize == 0 { loc := h.Cursor.Loc h.Buf.Remove(loc.Move(-tabSize, h.Buf), loc) } else { loc := h.Cursor.Loc h.Buf.Remove(loc.Move(-1, h.Buf), loc) } } h.Cursor.LastVisualX = h.Cursor.GetVisualX() h.Relocate() return true } // DeleteWordRight deletes the word to the right of the cursor func (h *BufPane) DeleteWordRight() bool { h.SelectWordRight() if h.Cursor.HasSelection() { h.Cursor.DeleteSelection() h.Cursor.ResetSelection() } h.Relocate() return true } // DeleteWordLeft deletes the word to the left of the cursor func (h *BufPane) DeleteWordLeft() bool { h.SelectWordLeft() if h.Cursor.HasSelection() { h.Cursor.DeleteSelection() h.Cursor.ResetSelection() } h.Relocate() return true } // Delete deletes the next character func (h *BufPane) Delete() bool { if h.Cursor.HasSelection() { h.Cursor.DeleteSelection() h.Cursor.ResetSelection() } else { loc := h.Cursor.Loc if loc.LessThan(h.Buf.End()) { h.Buf.Remove(loc, loc.Move(1, h.Buf)) } } h.Relocate() return true } // IndentSelection indents the current selection func (h *BufPane) IndentSelection() bool { if h.Cursor.HasSelection() { start := h.Cursor.CurSelection[0] end := h.Cursor.CurSelection[1] if end.Y < start.Y { start, end = end, start h.Cursor.SetSelectionStart(start) h.Cursor.SetSelectionEnd(end) } startY := start.Y endY := end.Move(-1, h.Buf).Y endX := end.Move(-1, h.Buf).X tabsize := int(h.Buf.Settings["tabsize"].(float64)) indentsize := len(h.Buf.IndentString(tabsize)) for y := startY; y <= endY; y++ { if len(h.Buf.LineBytes(y)) > 0 { h.Buf.Insert(buffer.Loc{X: 0, Y: y}, h.Buf.IndentString(tabsize)) if y == startY && start.X > 0 { h.Cursor.SetSelectionStart(start.Move(indentsize, h.Buf)) } if y == endY { h.Cursor.SetSelectionEnd(buffer.Loc{X: endX + indentsize + 1, Y: endY}) } } } h.Buf.RelocateCursors() h.Relocate() return true } return false } // IndentLine moves the current line forward one indentation func (h *BufPane) IndentLine() bool { if h.Cursor.HasSelection() { return false } tabsize := int(h.Buf.Settings["tabsize"].(float64)) indentstr := h.Buf.IndentString(tabsize) h.Buf.Insert(buffer.Loc{X: 0, Y: h.Cursor.Y}, indentstr) h.Buf.RelocateCursors() h.Relocate() return true } // OutdentLine moves the current line back one indentation func (h *BufPane) OutdentLine() bool { if h.Cursor.HasSelection() { return false } for x := 0; x < len(h.Buf.IndentString(util.IntOpt(h.Buf.Settings["tabsize"]))); x++ { if len(util.GetLeadingWhitespace(h.Buf.LineBytes(h.Cursor.Y))) == 0 { break } h.Buf.Remove(buffer.Loc{X: 0, Y: h.Cursor.Y}, buffer.Loc{X: 1, Y: h.Cursor.Y}) } h.Buf.RelocateCursors() h.Relocate() return true } // OutdentSelection takes the current selection and moves it back one indent level func (h *BufPane) OutdentSelection() bool { if h.Cursor.HasSelection() { start := h.Cursor.CurSelection[0] end := h.Cursor.CurSelection[1] if end.Y < start.Y { start, end = end, start h.Cursor.SetSelectionStart(start) h.Cursor.SetSelectionEnd(end) } startY := start.Y endY := end.Move(-1, h.Buf).Y for y := startY; y <= endY; y++ { for x := 0; x < len(h.Buf.IndentString(util.IntOpt(h.Buf.Settings["tabsize"]))); x++ { if len(util.GetLeadingWhitespace(h.Buf.LineBytes(y))) == 0 { break } h.Buf.Remove(buffer.Loc{X: 0, Y: y}, buffer.Loc{X: 1, Y: y}) } } h.Buf.RelocateCursors() h.Relocate() return true } return false } // Autocomplete cycles the suggestions and performs autocompletion if there are suggestions func (h *BufPane) Autocomplete() bool { b := h.Buf if h.Cursor.HasSelection() { return false } if h.Cursor.X == 0 { return false } r := h.Cursor.RuneUnder(h.Cursor.X) prev := h.Cursor.RuneUnder(h.Cursor.X - 1) if !util.IsAutocomplete(prev) || !util.IsNonAlphaNumeric(r) { // don't autocomplete if cursor is on alpha numeric character (middle of a word) return false } if b.HasSuggestions { b.CycleAutocomplete(true) return true } return b.Autocomplete(buffer.BufferComplete) } // CycleAutocompleteBack cycles back in the autocomplete suggestion list func (h *BufPane) CycleAutocompleteBack() bool { if h.Cursor.HasSelection() { return false } if h.Buf.HasSuggestions { h.Buf.CycleAutocomplete(false) return true } return false } // InsertTab inserts a tab or spaces func (h *BufPane) InsertTab() bool { b := h.Buf indent := b.IndentString(util.IntOpt(b.Settings["tabsize"])) tabBytes := len(indent) bytesUntilIndent := tabBytes - (h.Cursor.GetVisualX() % tabBytes) b.Insert(h.Cursor.Loc, indent[:bytesUntilIndent]) h.Relocate() return true } // SaveAll saves all open buffers func (h *BufPane) SaveAll() bool { for _, b := range buffer.OpenBuffers { b.Save() } return true } // SaveCB performs a save and does a callback at the very end (after all prompts have been resolved) func (h *BufPane) SaveCB(action string, callback func()) bool { // If this is an empty buffer, ask for a filename if h.Buf.Path == "" { h.SaveAsCB(action, callback) } else { noPrompt := h.saveBufToFile(h.Buf.Path, action, callback) if noPrompt { return true } } return false } // Save the buffer to disk func (h *BufPane) Save() bool { return h.SaveCB("Save", nil) } // SaveAsCB performs a save as and does a callback at the very end (after all prompts have been resolved) // The callback is only called if the save was successful func (h *BufPane) SaveAsCB(action string, callback func()) bool { InfoBar.Prompt("Filename: ", "", "Save", nil, func(resp string, canceled bool) { if !canceled { // the filename might or might not be quoted, so unquote first then join the strings. args, err := shellquote.Split(resp) if err != nil { InfoBar.Error("Error parsing arguments: ", err) return } if len(args) == 0 { InfoBar.Error("No filename given") return } filename := strings.Join(args, " ") noPrompt := h.saveBufToFile(filename, action, callback) if noPrompt { h.completeAction(action) } } }) return false } // SaveAs saves the buffer to disk with the given name func (h *BufPane) SaveAs() bool { return h.SaveAsCB("SaveAs", nil) } // This function saves the buffer to `filename` and changes the buffer's path and name // to `filename` if the save is successful // The callback is only called if the save was successful func (h *BufPane) saveBufToFile(filename string, action string, callback func()) bool { err := h.Buf.SaveAs(filename) if err != nil { if errors.Is(err, fs.ErrPermission) { saveWithSudo := func() { err = h.Buf.SaveAsWithSudo(filename) if err != nil { InfoBar.Error(err) } else { h.Buf.Path = filename h.Buf.SetName(filename) InfoBar.Message("Saved " + filename) if callback != nil { callback() } } } if h.Buf.Settings["autosu"].(bool) { saveWithSudo() } else { InfoBar.YNPrompt( fmt.Sprintf("Permission denied. Do you want to save this file using %s? (y,n)", config.GlobalSettings["sucmd"].(string)), func(yes, canceled bool) { if yes && !canceled { saveWithSudo() h.completeAction(action) } }, ) return false } } else { InfoBar.Error(err) } } else { h.Buf.Path = filename h.Buf.SetName(filename) InfoBar.Message("Saved " + filename) if callback != nil { callback() } } return true } // Find opens a prompt and searches forward for the input func (h *BufPane) Find() bool { return h.find(true) } // FindLiteral is the same as Find() but does not support regular expressions func (h *BufPane) FindLiteral() bool { return h.find(false) } // Search searches for a given string/regex in the buffer and selects the next // match if a match is found // This function behaves the same way as Find and FindLiteral actions: // it affects the buffer's LastSearch and LastSearchRegex (saved searches) // for use with FindNext and FindPrevious, and turns HighlightSearch on or off // according to hlsearch setting func (h *BufPane) Search(str string, useRegex bool, searchDown bool) error { match, found, err := h.Buf.FindNext(str, h.Buf.Start(), h.Buf.End(), h.Cursor.Loc, searchDown, useRegex) if err != nil { return err } if found { h.Cursor.SetSelectionStart(match[0]) h.Cursor.SetSelectionEnd(match[1]) h.Cursor.OrigSelection[0] = h.Cursor.CurSelection[0] h.Cursor.OrigSelection[1] = h.Cursor.CurSelection[1] h.Cursor.GotoLoc(h.Cursor.CurSelection[1]) h.Buf.LastSearch = str h.Buf.LastSearchRegex = useRegex h.Buf.HighlightSearch = h.Buf.Settings["hlsearch"].(bool) h.Relocate() } else { h.Cursor.ResetSelection() } return nil } func (h *BufPane) find(useRegex bool) bool { h.searchOrig = h.Cursor.Loc prompt := "Find: " if useRegex { prompt = "Find (regex): " } var eventCallback func(resp string) if h.Buf.Settings["incsearch"].(bool) { eventCallback = func(resp string) { match, found, _ := h.Buf.FindNext(resp, h.Buf.Start(), h.Buf.End(), h.searchOrig, true, useRegex) if found { h.Cursor.SetSelectionStart(match[0]) h.Cursor.SetSelectionEnd(match[1]) h.Cursor.OrigSelection[0] = h.Cursor.CurSelection[0] h.Cursor.OrigSelection[1] = h.Cursor.CurSelection[1] h.Cursor.GotoLoc(match[1]) } else { h.Cursor.GotoLoc(h.searchOrig) h.Cursor.ResetSelection() } h.Relocate() } } findCallback := func(resp string, canceled bool) { // Finished callback if !canceled { match, found, err := h.Buf.FindNext(resp, h.Buf.Start(), h.Buf.End(), h.searchOrig, true, useRegex) if err != nil { InfoBar.Error(err) } if found { h.Cursor.SetSelectionStart(match[0]) h.Cursor.SetSelectionEnd(match[1]) h.Cursor.OrigSelection[0] = h.Cursor.CurSelection[0] h.Cursor.OrigSelection[1] = h.Cursor.CurSelection[1] h.Cursor.GotoLoc(h.Cursor.CurSelection[1]) h.Buf.LastSearch = resp h.Buf.LastSearchRegex = useRegex h.Buf.HighlightSearch = h.Buf.Settings["hlsearch"].(bool) } else { h.Cursor.ResetSelection() InfoBar.Message("No matches found") } } else { h.Cursor.ResetSelection() } h.Relocate() } pattern := string(h.Cursor.GetSelection()) if eventCallback != nil && pattern != "" { eventCallback(pattern) } InfoBar.Prompt(prompt, pattern, "Find", eventCallback, findCallback) if pattern != "" { InfoBar.SelectAll() } return true } // ToggleHighlightSearch toggles highlighting all instances of the last used search term func (h *BufPane) ToggleHighlightSearch() bool { h.Buf.HighlightSearch = !h.Buf.HighlightSearch return true } // UnhighlightSearch unhighlights all instances of the last used search term func (h *BufPane) UnhighlightSearch() bool { h.Buf.HighlightSearch = false return true } // FindNext searches forwards for the last used search term func (h *BufPane) FindNext() bool { // If the cursor is at the start of a selection and we search we want // to search from the end of the selection in the case that // the selection is a search result in which case we wouldn't move at // at all which would be bad searchLoc := h.Cursor.Loc if h.Cursor.HasSelection() { searchLoc = h.Cursor.CurSelection[1] } match, found, err := h.Buf.FindNext(h.Buf.LastSearch, h.Buf.Start(), h.Buf.End(), searchLoc, true, h.Buf.LastSearchRegex) if err != nil { InfoBar.Error(err) } if found { h.Cursor.SetSelectionStart(match[0]) h.Cursor.SetSelectionEnd(match[1]) h.Cursor.OrigSelection[0] = h.Cursor.CurSelection[0] h.Cursor.OrigSelection[1] = h.Cursor.CurSelection[1] h.Cursor.Loc = h.Cursor.CurSelection[1] } else { h.Cursor.ResetSelection() } h.Relocate() return true } // FindPrevious searches backwards for the last used search term func (h *BufPane) FindPrevious() bool { // If the cursor is at the end of a selection and we search we want // to search from the beginning of the selection in the case that // the selection is a search result in which case we wouldn't move at // at all which would be bad searchLoc := h.Cursor.Loc if h.Cursor.HasSelection() { searchLoc = h.Cursor.CurSelection[0] } match, found, err := h.Buf.FindNext(h.Buf.LastSearch, h.Buf.Start(), h.Buf.End(), searchLoc, false, h.Buf.LastSearchRegex) if err != nil { InfoBar.Error(err) } if found { h.Cursor.SetSelectionStart(match[0]) h.Cursor.SetSelectionEnd(match[1]) h.Cursor.OrigSelection[0] = h.Cursor.CurSelection[0] h.Cursor.OrigSelection[1] = h.Cursor.CurSelection[1] h.Cursor.Loc = h.Cursor.CurSelection[1] } else { h.Cursor.ResetSelection() } h.Relocate() return true } // Undo undoes the last action func (h *BufPane) Undo() bool { h.Buf.Undo() InfoBar.Message("Undid action") h.Relocate() return true } // Redo redoes the last action func (h *BufPane) Redo() bool { h.Buf.Redo() InfoBar.Message("Redid action") h.Relocate() return true } // Copy the selection to the system clipboard func (h *BufPane) Copy() bool { if h.Cursor.HasSelection() { h.Cursor.CopySelection(clipboard.ClipboardReg) h.freshClip = true InfoBar.Message("Copied selection") } h.Relocate() return true } // CopyLine copies the current line to the clipboard func (h *BufPane) CopyLine() bool { if h.Cursor.HasSelection() { return false } h.Cursor.SelectLine() h.Cursor.CopySelection(clipboard.ClipboardReg) h.freshClip = true InfoBar.Message("Copied line") h.Cursor.Deselect(true) h.Relocate() return true } // CutLine cuts the current line to the clipboard func (h *BufPane) CutLine() bool { h.Cursor.SelectLine() if !h.Cursor.HasSelection() { return false } if h.freshClip { if h.Cursor.HasSelection() { if clip, err := clipboard.Read(clipboard.ClipboardReg); err != nil { InfoBar.Error(err) } else { clipboard.WriteMulti(clip+string(h.Cursor.GetSelection()), clipboard.ClipboardReg, h.Cursor.Num, h.Buf.NumCursors()) } } } else if time.Since(h.lastCutTime)/time.Second > 10*time.Second || !h.freshClip { h.Copy() } h.freshClip = true h.lastCutTime = time.Now() h.Cursor.DeleteSelection() h.Cursor.ResetSelection() InfoBar.Message("Cut line") h.Relocate() return true } // Cut the selection to the system clipboard func (h *BufPane) Cut() bool { if h.Cursor.HasSelection() { h.Cursor.CopySelection(clipboard.ClipboardReg) h.Cursor.DeleteSelection() h.Cursor.ResetSelection() h.freshClip = true InfoBar.Message("Cut selection") h.Relocate() return true } return h.CutLine() } // DuplicateLine duplicates the current line or selection func (h *BufPane) DuplicateLine() bool { var infoMessage = "Duplicated line" if h.Cursor.HasSelection() { infoMessage = "Duplicated selection" h.Buf.Insert(h.Cursor.CurSelection[1], string(h.Cursor.GetSelection())) } else { h.Cursor.End() h.Buf.Insert(h.Cursor.Loc, "\n"+string(h.Buf.LineBytes(h.Cursor.Y))) // h.Cursor.Right() } InfoBar.Message(infoMessage) h.Relocate() return true } // DeleteLine deletes the current line func (h *BufPane) DeleteLine() bool { h.Cursor.SelectLine() if !h.Cursor.HasSelection() { return false } h.Cursor.DeleteSelection() h.Cursor.ResetSelection() InfoBar.Message("Deleted line") h.Relocate() return true } // MoveLinesUp moves up the current line or selected lines if any func (h *BufPane) MoveLinesUp() bool { if h.Cursor.HasSelection() { if h.Cursor.CurSelection[0].Y == 0 { InfoBar.Message("Cannot move further up") return false } start := h.Cursor.CurSelection[0].Y end := h.Cursor.CurSelection[1].Y sel := 1 if start > end { end, start = start, end sel = 0 } compensate := false if h.Cursor.CurSelection[sel].X != 0 { end++ } else { compensate = true } h.Buf.MoveLinesUp( start, end, ) if compensate { h.Cursor.CurSelection[sel].Y -= 1 } } else { if h.Cursor.Loc.Y == 0 { InfoBar.Message("Cannot move further up") return false } h.Buf.MoveLinesUp( h.Cursor.Loc.Y, h.Cursor.Loc.Y+1, ) } h.Relocate() return true } // MoveLinesDown moves down the current line or selected lines if any func (h *BufPane) MoveLinesDown() bool { if h.Cursor.HasSelection() { if h.Cursor.CurSelection[1].Y >= h.Buf.LinesNum() { InfoBar.Message("Cannot move further down") return false } start := h.Cursor.CurSelection[0].Y end := h.Cursor.CurSelection[1].Y sel := 1 if start > end { end, start = start, end sel = 0 } if h.Cursor.CurSelection[sel].X != 0 { end++ } h.Buf.MoveLinesDown( start, end, ) } else { if h.Cursor.Loc.Y >= h.Buf.LinesNum()-1 { InfoBar.Message("Cannot move further down") return false } h.Buf.MoveLinesDown( h.Cursor.Loc.Y, h.Cursor.Loc.Y+1, ) } h.Relocate() return true } // Paste whatever is in the system clipboard into the buffer // Delete and paste if the user has a selection func (h *BufPane) Paste() bool { clip, err := clipboard.ReadMulti(clipboard.ClipboardReg, h.Cursor.Num, h.Buf.NumCursors()) if err != nil { InfoBar.Error(err) } else { h.paste(clip) } h.Relocate() return true } // PastePrimary pastes from the primary clipboard (only use on linux) func (h *BufPane) PastePrimary() bool { clip, err := clipboard.ReadMulti(clipboard.PrimaryReg, h.Cursor.Num, h.Buf.NumCursors()) if err != nil { InfoBar.Error(err) } else { h.paste(clip) } h.Relocate() return true } func (h *BufPane) paste(clip string) { if h.Buf.Settings["smartpaste"].(bool) { if h.Cursor.X > 0 && len(util.GetLeadingWhitespace([]byte(strings.TrimLeft(clip, "\r\n")))) == 0 { leadingWS := util.GetLeadingWhitespace(h.Buf.LineBytes(h.Cursor.Y)) clip = strings.ReplaceAll(clip, "\n", "\n"+string(leadingWS)) } } if h.Cursor.HasSelection() { h.Cursor.DeleteSelection() h.Cursor.ResetSelection() } h.Buf.Insert(h.Cursor.Loc, clip) // h.Cursor.Loc = h.Cursor.Loc.Move(Count(clip), h.Buf) h.freshClip = false InfoBar.Message("Pasted clipboard") } // JumpToMatchingBrace moves the cursor to the matching brace if it is // currently on a brace func (h *BufPane) JumpToMatchingBrace() bool { for _, bp := range buffer.BracePairs { r := h.Cursor.RuneUnder(h.Cursor.X) rl := h.Cursor.RuneUnder(h.Cursor.X - 1) if r == bp[0] || r == bp[1] || rl == bp[0] || rl == bp[1] { matchingBrace, left, found := h.Buf.FindMatchingBrace(bp, h.Cursor.Loc) if found { if left { h.Cursor.GotoLoc(matchingBrace) } else { h.Cursor.GotoLoc(matchingBrace.Move(1, h.Buf)) } break } else { return false } } } h.Relocate() return true } // SelectAll selects the entire buffer func (h *BufPane) SelectAll() bool { h.Cursor.SetSelectionStart(h.Buf.Start()) h.Cursor.SetSelectionEnd(h.Buf.End()) // Put the cursor at the beginning h.Cursor.X = 0 h.Cursor.Y = 0 h.Relocate() return true } // OpenFile opens a new file in the buffer func (h *BufPane) OpenFile() bool { InfoBar.Prompt("> ", "open ", "Open", nil, func(resp string, canceled bool) { if !canceled { h.HandleCommand(resp) } }) return true } // OpenFile opens a new file in the buffer func (h *BufPane) JumpLine() bool { InfoBar.Prompt("> ", "goto ", "Command", nil, func(resp string, canceled bool) { if !canceled { h.HandleCommand(resp) } }) return true } // Start moves the viewport to the start of the buffer func (h *BufPane) Start() bool { v := h.GetView() v.StartLine = display.SLoc{0, 0} h.SetView(v) return true } // End moves the viewport to the end of the buffer func (h *BufPane) End() bool { v := h.GetView() v.StartLine = h.Scroll(h.SLocFromLoc(h.Buf.End()), -h.BufView().Height+1) h.SetView(v) return true } // PageUp scrolls the view up a page func (h *BufPane) PageUp() bool { h.ScrollUp(h.BufView().Height) return true } // PageDown scrolls the view down a page func (h *BufPane) PageDown() bool { h.ScrollDown(h.BufView().Height) h.ScrollAdjust() return true } // SelectPageUp selects up one page func (h *BufPane) SelectPageUp() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.MoveCursorUp(h.BufView().Height) h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // SelectPageDown selects down one page func (h *BufPane) SelectPageDown() bool { if !h.Cursor.HasSelection() { h.Cursor.OrigSelection[0] = h.Cursor.Loc } h.MoveCursorDown(h.BufView().Height) h.Cursor.SelectTo(h.Cursor.Loc) h.Relocate() return true } // CursorPageUp places the cursor a page up func (h *BufPane) CursorPageUp() bool { h.Cursor.Deselect(true) if h.Cursor.HasSelection() { h.Cursor.Loc = h.Cursor.CurSelection[0] h.Cursor.ResetSelection() h.Cursor.StoreVisualX() } h.MoveCursorUp(h.BufView().Height) h.Relocate() return true } // CursorPageDown places the cursor a page up func (h *BufPane) CursorPageDown() bool { h.Cursor.Deselect(false) if h.Cursor.HasSelection() { h.Cursor.Loc = h.Cursor.CurSelection[1] h.Cursor.ResetSelection() h.Cursor.StoreVisualX() } h.MoveCursorDown(h.BufView().Height) h.Relocate() return true } // HalfPageUp scrolls the view up half a page func (h *BufPane) HalfPageUp() bool { h.ScrollUp(h.BufView().Height / 2) return true } // HalfPageDown scrolls the view down half a page func (h *BufPane) HalfPageDown() bool { h.ScrollDown(h.BufView().Height / 2) h.ScrollAdjust() return true } // ToggleDiffGutter turns the diff gutter off and on func (h *BufPane) ToggleDiffGutter() bool { if !h.Buf.Settings["diffgutter"].(bool) { h.Buf.Settings["diffgutter"] = true h.Buf.UpdateDiff(func(synchronous bool) { screen.Redraw() }) InfoBar.Message("Enabled diff gutter") } else { h.Buf.Settings["diffgutter"] = false InfoBar.Message("Disabled diff gutter") } return true } // ToggleRuler turns line numbers off and on func (h *BufPane) ToggleRuler() bool { if !h.Buf.Settings["ruler"].(bool) { h.Buf.Settings["ruler"] = true InfoBar.Message("Enabled ruler") } else { h.Buf.Settings["ruler"] = false InfoBar.Message("Disabled ruler") } return true } // ClearStatus clears the messenger bar func (h *BufPane) ClearStatus() bool { InfoBar.Message("") return true } // ToggleHelp toggles the help screen func (h *BufPane) ToggleHelp() bool { if h.Buf.Type == buffer.BTHelp { h.Quit() } else { h.openHelp("help") } return true } // ToggleKeyMenu toggles the keymenu option and resizes all tabs func (h *BufPane) ToggleKeyMenu() bool { config.GlobalSettings["keymenu"] = !config.GetGlobalOption("keymenu").(bool) Tabs.Resize() return true } // ShellMode opens a terminal to run a shell command func (h *BufPane) ShellMode() bool { InfoBar.Prompt("$ ", "", "Shell", nil, func(resp string, canceled bool) { if !canceled { // The true here is for openTerm to make the command interactive shell.RunInteractiveShell(resp, true, false) } }) return true } // CommandMode lets the user enter a command func (h *BufPane) CommandMode() bool { InfoBar.Prompt("> ", "", "Command", nil, func(resp string, canceled bool) { if !canceled { h.HandleCommand(resp) } }) return true } // ToggleOverwriteMode lets the user toggle the text overwrite mode func (h *BufPane) ToggleOverwriteMode() bool { h.isOverwriteMode = !h.isOverwriteMode return true } // Escape leaves current mode func (h *BufPane) Escape() bool { return true } // Deselect deselects on the current cursor func (h *BufPane) Deselect() bool { h.Cursor.Deselect(true) return true } // ClearInfo clears the infobar func (h *BufPane) ClearInfo() bool { InfoBar.Message("") return true } // ForceQuit closes the current tab or view even if there are unsaved changes // (no prompt) func (h *BufPane) ForceQuit() bool { h.Buf.Close() if len(MainTab().Panes) > 1 { h.Unsplit() } else if len(Tabs.List) > 1 { Tabs.RemoveTab(h.splitID) } else { screen.Screen.Fini() InfoBar.Close() runtime.Goexit() } return true } // Quit this will close the current tab or view that is open func (h *BufPane) Quit() bool { if h.Buf.Modified() { if config.GlobalSettings["autosave"].(float64) > 0 { // autosave on means we automatically save when quitting h.SaveCB("Quit", func() { h.ForceQuit() }) } else { InfoBar.YNPrompt("Save changes to "+h.Buf.GetName()+" before closing? (y,n,esc)", func(yes, canceled bool) { if !canceled && !yes { h.ForceQuit() } else if !canceled && yes { h.SaveCB("Quit", func() { h.ForceQuit() }) } }) } } else { h.ForceQuit() } return true } // QuitAll quits the whole editor; all splits and tabs func (h *BufPane) QuitAll() bool { anyModified := false for _, b := range buffer.OpenBuffers { if b.Modified() { anyModified = true break } } quit := func() { for _, b := range buffer.OpenBuffers { b.Close() } screen.Screen.Fini() InfoBar.Close() runtime.Goexit() } if anyModified { InfoBar.YNPrompt("Quit micro? (all open buffers will be closed without saving)", func(yes, canceled bool) { if !canceled && yes { quit() } }) } else { quit() } return true } // AddTab adds a new tab with an empty buffer func (h *BufPane) AddTab() bool { width, height := screen.Screen.Size() iOffset := config.GetInfoBarOffset() b := buffer.NewBufferFromString("", "", buffer.BTDefault) tp := NewTabFromBuffer(0, 0, width, height-iOffset, b) Tabs.AddTab(tp) Tabs.SetActive(len(Tabs.List) - 1) return true } // PreviousTab switches to the previous tab in the tab list func (h *BufPane) PreviousTab() bool { tabsLen := len(Tabs.List) a := Tabs.Active() + tabsLen Tabs.SetActive((a - 1) % tabsLen) return true } // NextTab switches to the next tab in the tab list func (h *BufPane) NextTab() bool { a := Tabs.Active() Tabs.SetActive((a + 1) % len(Tabs.List)) return true } // VSplitAction opens an empty vertical split func (h *BufPane) VSplitAction() bool { h.VSplitBuf(buffer.NewBufferFromString("", "", buffer.BTDefault)) return true } // HSplitAction opens an empty horizontal split func (h *BufPane) HSplitAction() bool { h.HSplitBuf(buffer.NewBufferFromString("", "", buffer.BTDefault)) return true } // Unsplit closes all splits in the current tab except the active one func (h *BufPane) Unsplit() bool { tab := h.tab n := tab.GetNode(h.splitID) ok := n.Unsplit() if ok { tab.RemovePane(tab.GetPane(h.splitID)) tab.Resize() tab.SetActive(len(tab.Panes) - 1) return true } return false } // NextSplit changes the view to the next split func (h *BufPane) NextSplit() bool { a := h.tab.active if a < len(h.tab.Panes)-1 { a++ } else { a = 0 } h.tab.SetActive(a) return true } // PreviousSplit changes the view to the previous split func (h *BufPane) PreviousSplit() bool { a := h.tab.active if a > 0 { a-- } else { a = len(h.tab.Panes) - 1 } h.tab.SetActive(a) return true } var curmacro []interface{} var recordingMacro bool // ToggleMacro toggles recording of a macro func (h *BufPane) ToggleMacro() bool { recordingMacro = !recordingMacro if recordingMacro { curmacro = []interface{}{} InfoBar.Message("Recording") } else { InfoBar.Message("Stopped recording") } h.Relocate() return true } // PlayMacro plays back the most recently recorded macro func (h *BufPane) PlayMacro() bool { if recordingMacro { return false } for _, action := range curmacro { switch t := action.(type) { case rune: h.DoRuneInsert(t) case func(*BufPane) bool: t(h) } } h.Relocate() return true } // SpawnMultiCursor creates a new multiple cursor at the next occurrence of the current selection or current word func (h *BufPane) SpawnMultiCursor() bool { spawner := h.Buf.GetCursor(h.Buf.NumCursors() - 1) if !spawner.HasSelection() { spawner.SelectWord() h.multiWord = true h.Relocate() return true } sel := spawner.GetSelection() searchStart := spawner.CurSelection[1] search := string(sel) search = regexp.QuoteMeta(search) if h.multiWord { search = "\\b" + search + "\\b" } match, found, err := h.Buf.FindNext(search, h.Buf.Start(), h.Buf.End(), searchStart, true, true) if err != nil { InfoBar.Error(err) } if found { c := buffer.NewCursor(h.Buf, buffer.Loc{}) c.SetSelectionStart(match[0]) c.SetSelectionEnd(match[1]) c.OrigSelection[0] = c.CurSelection[0] c.OrigSelection[1] = c.CurSelection[1] c.Loc = c.CurSelection[1] h.Buf.AddCursor(c) h.Buf.SetCurCursor(h.Buf.NumCursors() - 1) h.Buf.MergeCursors() } else { InfoBar.Message("No matches found") } h.Relocate() return true } // SpawnMultiCursorUp creates additional cursor, at the same X (if possible), one Y less. func (h *BufPane) SpawnMultiCursorUp() bool { if h.Cursor.Y == 0 { return false } h.Cursor.GotoLoc(buffer.Loc{h.Cursor.X, h.Cursor.Y - 1}) h.Cursor.Relocate() c := buffer.NewCursor(h.Buf, buffer.Loc{h.Cursor.X, h.Cursor.Y + 1}) h.Buf.AddCursor(c) h.Buf.SetCurCursor(h.Buf.NumCursors() - 1) h.Buf.MergeCursors() h.Relocate() return true } // SpawnMultiCursorDown creates additional cursor, at the same X (if possible), one Y more. func (h *BufPane) SpawnMultiCursorDown() bool { if h.Cursor.Y+1 == h.Buf.LinesNum() { return false } h.Cursor.GotoLoc(buffer.Loc{h.Cursor.X, h.Cursor.Y + 1}) h.Cursor.Relocate() c := buffer.NewCursor(h.Buf, buffer.Loc{h.Cursor.X, h.Cursor.Y - 1}) h.Buf.AddCursor(c) h.Buf.SetCurCursor(h.Buf.NumCursors() - 1) h.Buf.MergeCursors() h.Relocate() return true } // SpawnMultiCursorSelect adds a cursor at the beginning of each line of a selection func (h *BufPane) SpawnMultiCursorSelect() bool { // Avoid cases where multiple cursors already exist, that would create problems if h.Buf.NumCursors() > 1 { return false } var startLine int var endLine int a, b := h.Cursor.CurSelection[0].Y, h.Cursor.CurSelection[1].Y if a > b { startLine, endLine = b, a } else { startLine, endLine = a, b } if h.Cursor.HasSelection() { h.Cursor.ResetSelection() h.Cursor.GotoLoc(buffer.Loc{0, startLine}) for i := startLine; i <= endLine; i++ { c := buffer.NewCursor(h.Buf, buffer.Loc{0, i}) c.StoreVisualX() h.Buf.AddCursor(c) } h.Buf.MergeCursors() } else { return false } InfoBar.Message("Added cursors from selection") return true } // MouseMultiCursor is a mouse action which puts a new cursor at the mouse position func (h *BufPane) MouseMultiCursor(e *tcell.EventMouse) bool { b := h.Buf mx, my := e.Position() mouseLoc := h.LocFromVisual(buffer.Loc{X: mx, Y: my}) c := buffer.NewCursor(b, mouseLoc) b.AddCursor(c) b.MergeCursors() return true } // SkipMultiCursor moves the current multiple cursor to the next available position func (h *BufPane) SkipMultiCursor() bool { lastC := h.Buf.GetCursor(h.Buf.NumCursors() - 1) sel := lastC.GetSelection() searchStart := lastC.CurSelection[1] search := string(sel) search = regexp.QuoteMeta(search) if h.multiWord { search = "\\b" + search + "\\b" } match, found, err := h.Buf.FindNext(search, h.Buf.Start(), h.Buf.End(), searchStart, true, true) if err != nil { InfoBar.Error(err) } if found { lastC.SetSelectionStart(match[0]) lastC.SetSelectionEnd(match[1]) lastC.OrigSelection[0] = lastC.CurSelection[0] lastC.OrigSelection[1] = lastC.CurSelection[1] lastC.Loc = lastC.CurSelection[1] h.Buf.MergeCursors() h.Buf.SetCurCursor(h.Buf.NumCursors() - 1) } else { InfoBar.Message("No matches found") } h.Relocate() return true } // RemoveMultiCursor removes the latest multiple cursor func (h *BufPane) RemoveMultiCursor() bool { if h.Buf.NumCursors() > 1 { h.Buf.RemoveCursor(h.Buf.NumCursors() - 1) h.Buf.SetCurCursor(h.Buf.NumCursors() - 1) h.Buf.UpdateCursors() } else { h.multiWord = false } h.Relocate() return true } // RemoveAllMultiCursors removes all cursors except the base cursor func (h *BufPane) RemoveAllMultiCursors() bool { h.Buf.ClearCursors() h.multiWord = false h.Relocate() return true } // None is an action that does nothing func (h *BufPane) None() bool { return true }