package main import ( "io/ioutil" "os" "strconv" "strings" "time" "github.com/mitchellh/go-homedir" "github.com/zyedidia/clipboard" ) // CursorUp moves the cursor up func (v *View) CursorUp() bool { if v.Cursor.HasSelection() { v.Cursor.Loc = v.Cursor.CurSelection[0] v.Cursor.ResetSelection() } v.Cursor.Up() return true } // CursorDown moves the cursor down func (v *View) CursorDown() bool { if v.Cursor.HasSelection() { v.Cursor.Loc = v.Cursor.CurSelection[1] v.Cursor.ResetSelection() } v.Cursor.Down() return true } // CursorLeft moves the cursor left func (v *View) CursorLeft() bool { if v.Cursor.HasSelection() { v.Cursor.Loc = v.Cursor.CurSelection[0] v.Cursor.ResetSelection() } else { v.Cursor.Left() } return true } // CursorRight moves the cursor right func (v *View) CursorRight() bool { if v.Cursor.HasSelection() { v.Cursor.Loc = v.Cursor.CurSelection[1].Move(-1, v.Buf) v.Cursor.ResetSelection() } else { v.Cursor.Right() } return true } // WordRight moves the cursor one word to the right func (v *View) WordRight() bool { v.Cursor.WordRight() return true } // WordLeft moves the cursor one word to the left func (v *View) WordLeft() bool { v.Cursor.WordLeft() return true } // SelectUp selects up one line func (v *View) SelectUp() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.Cursor.Up() v.Cursor.SelectTo(v.Cursor.Loc) return true } // SelectDown selects down one line func (v *View) SelectDown() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.Cursor.Down() v.Cursor.SelectTo(v.Cursor.Loc) return true } // SelectLeft selects the character to the left of the cursor func (v *View) SelectLeft() bool { loc := v.Cursor.Loc count := v.Buf.End().Move(-1, v.Buf) if loc.GreaterThan(count) { loc = count } if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = loc } v.Cursor.Left() v.Cursor.SelectTo(v.Cursor.Loc) return true } // SelectRight selects the character to the right of the cursor func (v *View) SelectRight() bool { loc := v.Cursor.Loc count := v.Buf.End().Move(-1, v.Buf) if loc.GreaterThan(count) { loc = count } if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = loc } v.Cursor.Right() v.Cursor.SelectTo(v.Cursor.Loc) return true } // SelectWordRight selects the word to the right of the cursor func (v *View) SelectWordRight() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.Cursor.WordRight() v.Cursor.SelectTo(v.Cursor.Loc) return true } // SelectWordLeft selects the word to the left of the cursor func (v *View) SelectWordLeft() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.Cursor.WordLeft() v.Cursor.SelectTo(v.Cursor.Loc) return true } // StartOfLine moves the cursor to the start of the line func (v *View) StartOfLine() bool { v.Cursor.Start() return true } // EndOfLine moves the cursor to the end of the line func (v *View) EndOfLine() bool { v.Cursor.End() return true } // SelectToStartOfLine selects to the start of the current line func (v *View) SelectToStartOfLine() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.Cursor.Start() v.Cursor.SelectTo(v.Cursor.Loc) return true } // SelectToEndOfLine selects to the end of the current line func (v *View) SelectToEndOfLine() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.Cursor.End() v.Cursor.SelectTo(v.Cursor.Loc) return true } // CursorStart moves the cursor to the start of the buffer func (v *View) CursorStart() bool { v.Cursor.X = 0 v.Cursor.Y = 0 return true } // CursorEnd moves the cursor to the end of the buffer func (v *View) CursorEnd() bool { v.Cursor.Loc = v.Buf.End() return true } // SelectToStart selects the text from the cursor to the start of the buffer func (v *View) SelectToStart() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.CursorStart() v.Cursor.SelectTo(v.Buf.Start()) return true } // SelectToEnd selects the text from the cursor to the end of the buffer func (v *View) SelectToEnd() bool { if !v.Cursor.HasSelection() { v.Cursor.OrigSelection[0] = v.Cursor.Loc } v.CursorEnd() v.Cursor.SelectTo(v.Buf.End()) return true } // InsertSpace inserts a space func (v *View) InsertSpace() bool { if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } v.Buf.Insert(v.Cursor.Loc, " ") v.Cursor.Right() return true } // InsertEnter inserts a newline plus possible some whitespace if autoindent is on func (v *View) InsertEnter() bool { // Insert a newline if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } v.Buf.Insert(v.Cursor.Loc, "\n") ws := GetLeadingWhitespace(v.Buf.Line(v.Cursor.Y)) v.Cursor.Right() if settings["autoindent"].(bool) { v.Buf.Insert(v.Cursor.Loc, ws) for i := 0; i < len(ws); i++ { v.Cursor.Right() } } v.Cursor.LastVisualX = v.Cursor.GetVisualX() return true } // Backspace deletes the previous character func (v *View) Backspace() bool { // Delete a character if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } else if v.Cursor.Loc.GreaterThan(v.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 its a // tab (tabSize number of spaces) lineStart := v.Buf.Line(v.Cursor.Y)[:v.Cursor.X] tabSize := int(settings["tabsize"].(float64)) if settings["tabstospaces"].(bool) && IsSpaces(lineStart) && len(lineStart) != 0 && len(lineStart)%tabSize == 0 { loc := v.Cursor.Loc v.Cursor.Loc = loc.Move(-tabSize, v.Buf) cx, cy := v.Cursor.X, v.Cursor.Y v.Cursor.Loc = loc v.Buf.Remove(loc.Move(-tabSize, v.Buf), loc) v.Cursor.X, v.Cursor.Y = cx, cy } else { v.Cursor.Left() cx, cy := v.Cursor.X, v.Cursor.Y v.Cursor.Right() loc := v.Cursor.Loc v.Buf.Remove(loc.Move(-1, v.Buf), loc) v.Cursor.X, v.Cursor.Y = cx, cy } } v.Cursor.LastVisualX = v.Cursor.GetVisualX() return true } // DeleteWordRight deletes the word to the right of the cursor func (v *View) DeleteWordRight() bool { v.SelectWordRight() if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } return true } // DeleteWordLeft deletes the word to the left of the cursor func (v *View) DeleteWordLeft() bool { v.SelectWordLeft() if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } return true } // Delete deletes the next character func (v *View) Delete() bool { if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } else { loc := v.Cursor.Loc if loc.LessThan(v.Buf.End()) { v.Buf.Remove(loc, loc.Move(1, v.Buf)) } } return true } // IndentSelection indents the current selection func (v *View) IndentSelection() bool { if v.Cursor.HasSelection() { start := v.Cursor.CurSelection[0].Y end := v.Cursor.CurSelection[1].Move(-1, v.Buf).Y endX := v.Cursor.CurSelection[1].Move(-1, v.Buf).X for i := start; i <= end; i++ { if settings["tabstospaces"].(bool) { tabsize := int(settings["tabsize"].(float64)) v.Buf.Insert(Loc{0, i}, Spaces(tabsize)) if i == start { if v.Cursor.CurSelection[0].X > 0 { v.Cursor.CurSelection[0] = v.Cursor.CurSelection[0].Move(tabsize, v.Buf) } } if i == end { v.Cursor.CurSelection[1] = Loc{endX + tabsize + 1, end} } } else { v.Buf.Insert(Loc{0, i}, "\t") if i == start { if v.Cursor.CurSelection[0].X > 0 { v.Cursor.CurSelection[0] = v.Cursor.CurSelection[0].Move(1, v.Buf) } } if i == end { v.Cursor.CurSelection[1] = Loc{endX + 2, end} } } } v.Cursor.Relocate() return true } return false } // OutdentSelection takes the current selection and moves it back one indent level func (v *View) OutdentSelection() bool { if v.Cursor.HasSelection() { start := v.Cursor.CurSelection[0].Y end := v.Cursor.CurSelection[1].Move(-1, v.Buf).Y endX := v.Cursor.CurSelection[1].Move(-1, v.Buf).X for i := start; i <= end; i++ { if len(GetLeadingWhitespace(v.Buf.Line(i))) > 0 { if settings["tabstospaces"].(bool) { tabsize := int(settings["tabsize"].(float64)) for j := 0; j < tabsize; j++ { if len(GetLeadingWhitespace(v.Buf.Line(i))) == 0 { break } v.Buf.Remove(Loc{0, i}, Loc{1, i}) if i == start { if v.Cursor.CurSelection[0].X > 0 { v.Cursor.CurSelection[0] = v.Cursor.CurSelection[0].Move(-1, v.Buf) } } if i == end { v.Cursor.CurSelection[1] = Loc{endX, end} } } } else { v.Buf.Remove(Loc{0, i}, Loc{1, i}) if i == start { if v.Cursor.CurSelection[0].X > 0 { v.Cursor.CurSelection[0] = v.Cursor.CurSelection[0].Move(-1, v.Buf) } } if i == end { v.Cursor.CurSelection[1] = Loc{endX, end} } } } } v.Cursor.Relocate() return true } return false } // InsertTab inserts a tab or spaces func (v *View) InsertTab() bool { if v.Cursor.HasSelection() { return false } // Insert a tab if settings["tabstospaces"].(bool) { tabSize := int(settings["tabsize"].(float64)) v.Buf.Insert(v.Cursor.Loc, Spaces(tabSize)) for i := 0; i < tabSize; i++ { v.Cursor.Right() } } else { v.Buf.Insert(v.Cursor.Loc, "\t") v.Cursor.Right() } return true } // Save the buffer to disk func (v *View) Save() bool { if v.Help { // We can't save the help text return false } // If this is an empty buffer, ask for a filename if v.Buf.Path == "" { filename, canceled := messenger.Prompt("Filename: ", "Save", NoCompletion) if !canceled { v.Buf.Path = filename v.Buf.Name = filename } else { return false } } err := v.Buf.Save() if err != nil { if strings.HasSuffix(err.Error(), "permission denied") { choice, _ := messenger.YesNoPrompt("Permission denied. Do you want to save this file using sudo? (y,n)") if choice { err = v.Buf.SaveWithSudo() if err != nil { messenger.Error(err.Error()) return false } messenger.Message("Saved " + v.Buf.Path) } messenger.Reset() messenger.Clear() } else { messenger.Error(err.Error()) } } else { messenger.Message("Saved " + v.Buf.Path) } return false } // Find opens a prompt and searches forward for the input func (v *View) Find() bool { if v.Cursor.HasSelection() { searchStart = ToCharPos(v.Cursor.CurSelection[1], v.Buf) } else { searchStart = ToCharPos(v.Cursor.Loc, v.Buf) } BeginSearch() return true } // FindNext searches forwards for the last used search term func (v *View) FindNext() bool { if v.Cursor.HasSelection() { searchStart = ToCharPos(v.Cursor.CurSelection[1], v.Buf) } else { searchStart = ToCharPos(v.Cursor.Loc, v.Buf) } messenger.Message("Finding: " + lastSearch) Search(lastSearch, v, true) return true } // FindPrevious searches backwards for the last used search term func (v *View) FindPrevious() bool { if v.Cursor.HasSelection() { searchStart = ToCharPos(v.Cursor.CurSelection[0], v.Buf) } else { searchStart = ToCharPos(v.Cursor.Loc, v.Buf) } messenger.Message("Finding: " + lastSearch) Search(lastSearch, v, false) return true } // Undo undoes the last action func (v *View) Undo() bool { v.Buf.Undo() messenger.Message("Undid action") return true } // Redo redoes the last action func (v *View) Redo() bool { v.Buf.Redo() messenger.Message("Redid action") return true } // Copy the selection to the system clipboard func (v *View) Copy() bool { if v.Cursor.HasSelection() { clipboard.WriteAll(v.Cursor.GetSelection()) v.freshClip = true messenger.Message("Copied selection") } return true } // CutLine cuts the current line to the clipboard func (v *View) CutLine() bool { v.Cursor.SelectLine() if !v.Cursor.HasSelection() { return false } if v.freshClip == true { if v.Cursor.HasSelection() { if clip, err := clipboard.ReadAll(); err != nil { messenger.Error(err) } else { clipboard.WriteAll(clip + v.Cursor.GetSelection()) } } } else if time.Since(v.lastCutTime)/time.Second > 10*time.Second || v.freshClip == false { v.Copy() } v.freshClip = true v.lastCutTime = time.Now() v.Cursor.DeleteSelection() v.Cursor.ResetSelection() messenger.Message("Cut line") return true } // Cut the selection to the system clipboard func (v *View) Cut() bool { if v.Cursor.HasSelection() { clipboard.WriteAll(v.Cursor.GetSelection()) v.Cursor.DeleteSelection() v.Cursor.ResetSelection() v.freshClip = true messenger.Message("Cut selection") } return true } // DuplicateLine duplicates the current line func (v *View) DuplicateLine() bool { v.Cursor.End() v.Buf.Insert(v.Cursor.Loc, "\n"+v.Buf.Line(v.Cursor.Y)) v.Cursor.Right() messenger.Message("Duplicated line") return true } // DeleteLine deletes the current line func (v *View) DeleteLine() bool { v.Cursor.SelectLine() if !v.Cursor.HasSelection() { return false } v.Cursor.DeleteSelection() v.Cursor.ResetSelection() messenger.Message("Deleted line") return true } // Paste whatever is in the system clipboard into the buffer // Delete and paste if the user has a selection func (v *View) Paste() bool { if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } clip, _ := clipboard.ReadAll() v.Buf.Insert(v.Cursor.Loc, clip) v.Cursor.Loc = v.Cursor.Loc.Move(Count(clip), v.Buf) v.freshClip = false messenger.Message("Pasted clipboard") return true } // SelectAll selects the entire buffer func (v *View) SelectAll() bool { v.Cursor.CurSelection[0] = v.Buf.Start() v.Cursor.CurSelection[1] = v.Buf.End() // Put the cursor at the beginning v.Cursor.X = 0 v.Cursor.Y = 0 return true } // OpenFile opens a new file in the buffer func (v *View) OpenFile() bool { if v.CanClose("Continue? (yes, no, save) ") { filename, canceled := messenger.Prompt("File to open: ", "Open", FileCompletion) if canceled { return false } home, _ := homedir.Dir() filename = strings.Replace(filename, "~", home, 1) file, err := ioutil.ReadFile(filename) var buf *Buffer if err != nil { // File does not exist -- create an empty buffer with that name buf = NewBuffer([]byte{}, filename) } else { buf = NewBuffer(file, filename) } v.OpenBuffer(buf) return true } return false } // Start moves the viewport to the start of the buffer func (v *View) Start() bool { v.Topline = 0 return false } // End moves the viewport to the end of the buffer func (v *View) End() bool { if v.height > v.Buf.NumLines { v.Topline = 0 } else { v.Topline = v.Buf.NumLines - v.height } return false } // PageUp scrolls the view up a page func (v *View) PageUp() bool { if v.Topline > v.height { v.ScrollUp(v.height) } else { v.Topline = 0 } return false } // PageDown scrolls the view down a page func (v *View) PageDown() bool { if v.Buf.NumLines-(v.Topline+v.height) > v.height { v.ScrollDown(v.height) } else if v.Buf.NumLines >= v.height { v.Topline = v.Buf.NumLines - v.height } return false } // CursorPageUp places the cursor a page up func (v *View) CursorPageUp() bool { if v.Cursor.HasSelection() { v.Cursor.Loc = v.Cursor.CurSelection[0] v.Cursor.ResetSelection() } v.Cursor.UpN(v.height) return true } // CursorPageDown places the cursor a page up func (v *View) CursorPageDown() bool { if v.Cursor.HasSelection() { v.Cursor.Loc = v.Cursor.CurSelection[1] v.Cursor.ResetSelection() } v.Cursor.DownN(v.height) return true } // HalfPageUp scrolls the view up half a page func (v *View) HalfPageUp() bool { if v.Topline > v.height/2 { v.ScrollUp(v.height / 2) } else { v.Topline = 0 } return false } // HalfPageDown scrolls the view down half a page func (v *View) HalfPageDown() bool { if v.Buf.NumLines-(v.Topline+v.height) > v.height/2 { v.ScrollDown(v.height / 2) } else { if v.Buf.NumLines >= v.height { v.Topline = v.Buf.NumLines - v.height } } return false } // ToggleRuler turns line numbers off and on func (v *View) ToggleRuler() bool { if settings["ruler"] == false { settings["ruler"] = true messenger.Message("Enabled ruler") } else { settings["ruler"] = false messenger.Message("Disabled ruler") } return false } // JumpLine jumps to a line and moves the view accordingly. func (v *View) JumpLine() bool { // Prompt for line number linestring, canceled := messenger.Prompt("Jump to line # ", "LineNumber", NoCompletion) if canceled { return false } lineint, err := strconv.Atoi(linestring) lineint = lineint - 1 // fix offset if err != nil { messenger.Error(err) // return errors return false } // Move cursor and view if possible. if lineint < v.Buf.NumLines && lineint >= 0 { v.Cursor.X = 0 v.Cursor.Y = lineint return true } messenger.Error("Only ", v.Buf.NumLines, " lines to jump") return false } // ClearStatus clears the messenger bar func (v *View) ClearStatus() bool { messenger.Message("") return false } // ToggleHelp toggles the help screen func (v *View) ToggleHelp() bool { if !CurView().Help { helpBuffer := NewBuffer([]byte(helpTxt), "help.md") helpBuffer.Name = "Help" v.HSplit(helpBuffer) CurView().Help = true } else { v.Quit() } return true } // ShellMode opens a terminal to run a shell command func (v *View) ShellMode() bool { input, canceled := messenger.Prompt("$ ", "Shell", NoCompletion) if !canceled { // The true here is for openTerm to make the command interactive HandleShellCommand(input, true) } return false } // CommandMode lets the user enter a command func (v *View) CommandMode() bool { input, canceled := messenger.Prompt("> ", "Command", FileCompletion) if !canceled { HandleCommand(input) } return false } // Quit quits the editor // This behavior needs to be changed and should really only quit the editor if this // is the last view // However, since micro only supports one view for now, it doesn't really matter func (v *View) Quit() bool { // Make sure not to quit if there are unsaved changes if v.CanClose("Quit anyway? (yes, no, save) ") { v.CloseBuffer() if len(tabs[curTab].views) > 1 { var view *View if v.splitChild != nil { view = v.splitChild view.splitParent = v.splitParent } else if v.splitParent != nil { view = v.splitParent v.splitParent.splitChild = nil } view.x, view.y = view.splitOrigPos[0], view.splitOrigPos[1] view.widthPercent, view.heightPercent = view.splitOrigDimensions[0], view.splitOrigDimensions[1] view.Resize(screen.Size()) if settings["syntax"].(bool) { view.matches = Match(view) } tabs[curTab].views = tabs[curTab].views[:v.Num+copy(tabs[curTab].views[v.Num:], tabs[curTab].views[v.Num+1:])] for i, v := range tabs[curTab].views { v.Num = i } tabs[curTab].curView = view.Num } else if len(tabs) > 1 { if len(tabs[v.TabNum].views) == 1 { tabs = tabs[:v.TabNum+copy(tabs[v.TabNum:], tabs[v.TabNum+1:])] for i, t := range tabs { t.SetNum(i) } if curTab >= len(tabs) { curTab-- } if curTab == 0 { CurView().Resize(screen.Size()) CurView().matches = Match(CurView()) } } } else { screen.Fini() os.Exit(0) } } return false } // AddTab adds a new tab with an empty buffer func (v *View) AddTab() bool { tab := NewTabFromView(NewView(NewBuffer([]byte{}, ""))) tab.SetNum(len(tabs)) tabs = append(tabs, tab) curTab++ if len(tabs) == 2 { for _, t := range tabs { for _, v := range t.views { v.Resize(screen.Size()) } } } return true } // PreviousTab switches to the previous tab in the tab list func (v *View) PreviousTab() bool { if curTab > 0 { curTab-- } else if curTab == 0 { curTab = len(tabs) - 1 } return false } // NextTab switches to the next tab in the tab list func (v *View) NextTab() bool { if curTab < len(tabs)-1 { curTab++ } else if curTab == len(tabs)-1 { curTab = 0 } return false } // Changes the view to the next split func (v *View) NextSplit() bool { tab := tabs[curTab] if tab.curView < len(tab.views)-1 { tab.curView++ } else { tab.curView = 0 } return false } // Changes the view to the previous split func (v *View) PreviousSplit() bool { tab := tabs[curTab] if tab.curView > 0 { tab.curView-- } else { tab.curView = len(tab.views) - 1 } return false } // None is no action func None() bool { return false }