package main import ( "os" "strconv" "strings" "time" "github.com/mattn/go-runewidth" "github.com/mitchellh/go-homedir" "github.com/zyedidia/tcell" ) type ViewType int const ( vtDefault ViewType = iota vtHelp vtLog ) // The View struct stores information about a view into a buffer. // It stores information about the cursor, and the viewport // that the user sees the buffer from. type View struct { // A pointer to the buffer's cursor for ease of access Cursor *Cursor // The topmost line, used for vertical scrolling Topline int // The leftmost column, used for horizontal scrolling leftCol int // Specifies whether or not this view holds a help buffer Type ViewType // Actual width and height Width int Height int LockWidth bool LockHeight bool // Where this view is located x, y int // How much to offset because of line numbers lineNumOffset int // Holds the list of gutter messages messages map[string][]GutterMessage // This is the index of this view in the views array Num int // What tab is this view stored in TabNum int // The buffer Buf *Buffer // The statusline sline Statusline // Since tcell doesn't differentiate between a mouse release event // and a mouse move event with no keys pressed, we need to keep // track of whether or not the mouse was pressed (or not released) last event to determine // mouse release events mouseReleased bool // This stores when the last click was // This is useful for detecting double and triple clicks lastClickTime time.Time // lastCutTime stores when the last ctrl+k was issued. // It is used for clearing the clipboard to replace it with fresh cut lines. lastCutTime time.Time // freshClip returns true if the clipboard has never been pasted. freshClip bool // Was the last mouse event actually a double click? // Useful for detecting triple clicks -- if a double click is detected // but the last mouse event was actually a double click, it's a triple click doubleClick bool // Same here, just to keep track for mouse move events tripleClick bool // Syntax highlighting matches matches SyntaxMatches splitNode *LeafNode } // NewView returns a new fullscreen view func NewView(buf *Buffer) *View { screenW, screenH := screen.Size() return NewViewWidthHeight(buf, screenW, screenH) } // NewViewWidthHeight returns a new view with the specified width and height // Note that w and h are raw column and row values func NewViewWidthHeight(buf *Buffer, w, h int) *View { v := new(View) v.x, v.y = 0, 0 v.Width = w v.Height = h v.ToggleTabbar() v.OpenBuffer(buf) v.messages = make(map[string][]GutterMessage) v.sline = Statusline{ view: v, } if v.Buf.Settings["statusline"].(bool) { v.Height-- } for pl := range loadedPlugins { _, err := Call(pl+".onViewOpen", v) if err != nil && !strings.HasPrefix(err.Error(), "function does not exist") { TermMessage(err) continue } } return v } // ToggleStatusLine creates an extra row for the statusline if necessary func (v *View) ToggleStatusLine() { if v.Buf.Settings["statusline"].(bool) { v.Height-- } else { v.Height++ } } // ToggleTabbar creates an extra row for the tabbar if necessary func (v *View) ToggleTabbar() { if len(tabs) > 1 { if v.y == 0 { // Include one line for the tab bar at the top v.Height-- v.y = 1 } } else { if v.y == 1 { v.y = 0 v.Height++ } } } func (v *View) paste(clip string) { leadingWS := GetLeadingWhitespace(v.Buf.Line(v.Cursor.Y)) if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } clip = strings.Replace(clip, "\n", "\n"+leadingWS, -1) 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") } // ScrollUp scrolls the view up n lines (if possible) func (v *View) ScrollUp(n int) { // Try to scroll by n but if it would overflow, scroll by 1 if v.Topline-n >= 0 { v.Topline -= n } else if v.Topline > 0 { v.Topline-- } } // ScrollDown scrolls the view down n lines (if possible) func (v *View) ScrollDown(n int) { // Try to scroll by n but if it would overflow, scroll by 1 if v.Topline+n <= v.Buf.NumLines-v.Height { v.Topline += n } else if v.Topline < v.Buf.NumLines-v.Height { v.Topline++ } } // CanClose returns whether or not the view can be closed // If there are unsaved changes, the user will be asked if the view can be closed // causing them to lose the unsaved changes func (v *View) CanClose() bool { if v.Type == vtDefault && v.Buf.IsModified { var char rune var canceled bool if v.Buf.Settings["autosave"].(bool) { char = 'y' } else { char, canceled = messenger.LetterPrompt("Save changes to "+v.Buf.GetName()+" before closing? (y,n,esc) ", 'y', 'n') } if !canceled { if char == 'y' { v.Save(true) return true } else if char == 'n' { return true } } } else { return true } return false } // OpenBuffer opens a new buffer in this view. // This resets the topline, event handler and cursor. func (v *View) OpenBuffer(buf *Buffer) { screen.Clear() v.CloseBuffer() v.Buf = buf v.Cursor = &buf.Cursor v.Topline = 0 v.leftCol = 0 v.Cursor.ResetSelection() v.Relocate() v.Center(false) v.messages = make(map[string][]GutterMessage) v.matches = Match(v) // Set mouseReleased to true because we assume the mouse is not being pressed when // the editor is opened v.mouseReleased = true v.lastClickTime = time.Time{} } // Open opens the given file in the view func (v *View) Open(filename string) { home, _ := homedir.Dir() filename = strings.Replace(filename, "~", home, 1) file, err := os.Open(filename) defer file.Close() var buf *Buffer if err != nil { messenger.Message(err.Error()) // File does not exist -- create an empty buffer with that name buf = NewBuffer(strings.NewReader(""), filename) } else { buf = NewBuffer(file, filename) } v.OpenBuffer(buf) } // CloseBuffer performs any closing functions on the buffer func (v *View) CloseBuffer() { if v.Buf != nil { v.Buf.Serialize() } } // ReOpen reloads the current buffer func (v *View) ReOpen() { if v.CanClose() { screen.Clear() v.Buf.ReOpen() v.Relocate() v.matches = Match(v) } } // HSplit opens a horizontal split with the given buffer func (v *View) HSplit(buf *Buffer) { i := 0 if v.Buf.Settings["splitBottom"].(bool) { i = 1 } v.splitNode.HSplit(buf, v.Num+i) } // VSplit opens a vertical split with the given buffer func (v *View) VSplit(buf *Buffer) { i := 0 if v.Buf.Settings["splitRight"].(bool) { i = 1 } v.splitNode.VSplit(buf, v.Num+i) } // HSplitIndex opens a horizontal split with the given buffer at the given index func (v *View) HSplitIndex(buf *Buffer, splitIndex int) { v.splitNode.HSplit(buf, splitIndex) } // VSplitIndex opens a vertical split with the given buffer at the given index func (v *View) VSplitIndex(buf *Buffer, splitIndex int) { v.splitNode.VSplit(buf, splitIndex) } // GetSoftWrapLocation gets the location of a visual click on the screen and converts it to col,line func (v *View) GetSoftWrapLocation(vx, vy int) (int, int) { if !v.Buf.Settings["softwrap"].(bool) { if vy >= v.Buf.NumLines { vy = v.Buf.NumLines - 1 } vx = v.Cursor.GetCharPosInLine(vy, vx) return vx, vy } screenX, screenY := 0, v.Topline for lineN := v.Topline; lineN < v.Bottomline(); lineN++ { line := v.Buf.Line(lineN) if lineN >= v.Buf.NumLines { return 0, v.Buf.NumLines - 1 } colN := 0 for _, ch := range line { if screenX >= v.Width-v.lineNumOffset { screenX = 0 screenY++ } if screenX == vx && screenY == vy { return colN, lineN } if ch == '\t' { screenX += int(v.Buf.Settings["tabsize"].(float64)) - 1 } screenX++ colN++ } if screenY == vy { return colN, lineN } screenX = 0 screenY++ } return 0, 0 } func (v *View) Bottomline() int { if !v.Buf.Settings["softwrap"].(bool) { return v.Topline + v.Height } screenX, screenY := 0, 0 numLines := 0 for lineN := v.Topline; lineN < v.Topline+v.Height; lineN++ { line := v.Buf.Line(lineN) colN := 0 for _, ch := range line { if screenX >= v.Width-v.lineNumOffset { screenX = 0 screenY++ } if ch == '\t' { screenX += int(v.Buf.Settings["tabsize"].(float64)) - 1 } screenX++ colN++ } screenX = 0 screenY++ numLines++ if screenY >= v.Height { break } } return numLines + v.Topline } // Relocate moves the view window so that the cursor is in view // This is useful if the user has scrolled far away, and then starts typing func (v *View) Relocate() bool { height := v.Bottomline() - v.Topline ret := false cy := v.Cursor.Y scrollmargin := int(v.Buf.Settings["scrollmargin"].(float64)) if cy < v.Topline+scrollmargin && cy > scrollmargin-1 { v.Topline = cy - scrollmargin ret = true } else if cy < v.Topline { v.Topline = cy ret = true } if cy > v.Topline+height-1-scrollmargin && cy < v.Buf.NumLines-scrollmargin { v.Topline = cy - height + 1 + scrollmargin ret = true } else if cy >= v.Buf.NumLines-scrollmargin && cy > height { v.Topline = v.Buf.NumLines - height ret = true } if !v.Buf.Settings["softwrap"].(bool) { cx := v.Cursor.GetVisualX() if cx < v.leftCol { v.leftCol = cx ret = true } if cx+v.lineNumOffset+1 > v.leftCol+v.Width { v.leftCol = cx - v.Width + v.lineNumOffset + 1 ret = true } } return ret } // MoveToMouseClick moves the cursor to location x, y assuming x, y were given // by a mouse click func (v *View) MoveToMouseClick(x, y int) { if y-v.Topline > v.Height-1 { v.ScrollDown(1) y = v.Height + v.Topline - 1 } if y < 0 { y = 0 } if x < 0 { x = 0 } x, y = v.GetSoftWrapLocation(x, y) // x = v.Cursor.GetCharPosInLine(y, x) if x > Count(v.Buf.Line(y)) { x = Count(v.Buf.Line(y)) } v.Cursor.X = x v.Cursor.Y = y v.Cursor.LastVisualX = v.Cursor.GetVisualX() } // HandleEvent handles an event passed by the main loop func (v *View) HandleEvent(event tcell.Event) { // This bool determines whether the view is relocated at the end of the function // By default it's true because most events should cause a relocate relocate := true v.Buf.CheckModTime() switch e := event.(type) { case *tcell.EventKey: // Check first if input is a key binding, if it is we 'eat' the input and don't insert a rune isBinding := false if e.Key() != tcell.KeyRune || e.Modifiers() != 0 { for key, actions := range bindings { if e.Key() == key.keyCode { if e.Key() == tcell.KeyRune { if e.Rune() != key.r { continue } } if e.Modifiers() == key.modifiers { relocate = false isBinding = true for _, action := range actions { relocate = action(v, true) || relocate funcName := FuncName(action) if funcName != "main.(*View).ToggleMacro" && funcName != "main.(*View).PlayMacro" { if recordingMacro { curMacro = append(curMacro, action) } } } break } } } } if !isBinding && e.Key() == tcell.KeyRune { // Insert a character if v.Cursor.HasSelection() { v.Cursor.DeleteSelection() v.Cursor.ResetSelection() } v.Buf.Insert(v.Cursor.Loc, string(e.Rune())) v.Cursor.Right() for pl := range loadedPlugins { _, err := Call(pl+".onRune", string(e.Rune()), v) if err != nil && !strings.HasPrefix(err.Error(), "function does not exist") { TermMessage(err) } } if recordingMacro { curMacro = append(curMacro, e.Rune()) } } case *tcell.EventPaste: if !PreActionCall("Paste", v) { break } v.paste(e.Text()) PostActionCall("Paste", v) case *tcell.EventMouse: x, y := e.Position() x -= v.lineNumOffset - v.leftCol + v.x y += v.Topline - v.y // Don't relocate for mouse events relocate = false button := e.Buttons() switch button { case tcell.Button1: // Left click if v.mouseReleased { v.MoveToMouseClick(x, y) if time.Since(v.lastClickTime)/time.Millisecond < doubleClickThreshold { if v.doubleClick { // Triple click v.lastClickTime = time.Now() v.tripleClick = true v.doubleClick = false v.Cursor.SelectLine() v.Cursor.CopySelection("primary") } else { // Double click v.lastClickTime = time.Now() v.doubleClick = true v.tripleClick = false v.Cursor.SelectWord() v.Cursor.CopySelection("primary") } } else { v.doubleClick = false v.tripleClick = false v.lastClickTime = time.Now() v.Cursor.OrigSelection[0] = v.Cursor.Loc v.Cursor.CurSelection[0] = v.Cursor.Loc v.Cursor.CurSelection[1] = v.Cursor.Loc } v.mouseReleased = false } else if !v.mouseReleased { v.MoveToMouseClick(x, y) if v.tripleClick { v.Cursor.AddLineToSelection() } else if v.doubleClick { v.Cursor.AddWordToSelection() } else { v.Cursor.SetSelectionEnd(v.Cursor.Loc) v.Cursor.CopySelection("primary") } } case tcell.Button2: // Middle mouse button was clicked, // We should paste primary v.PastePrimary(true) case tcell.ButtonNone: // Mouse event with no click if !v.mouseReleased { // Mouse was just released // Relocating here isn't really necessary because the cursor will // be in the right place from the last mouse event // However, if we are running in a terminal that doesn't support mouse motion // events, this still allows the user to make selections, except only after they // release the mouse if !v.doubleClick && !v.tripleClick { v.MoveToMouseClick(x, y) v.Cursor.SetSelectionEnd(v.Cursor.Loc) v.Cursor.CopySelection("primary") } v.mouseReleased = true } case tcell.WheelUp: // Scroll up scrollspeed := int(v.Buf.Settings["scrollspeed"].(float64)) v.ScrollUp(scrollspeed) case tcell.WheelDown: // Scroll down scrollspeed := int(v.Buf.Settings["scrollspeed"].(float64)) v.ScrollDown(scrollspeed) } } if relocate { v.Relocate() } } // GutterMessage creates a message in this view's gutter func (v *View) GutterMessage(section string, lineN int, msg string, kind int) { lineN-- gutterMsg := GutterMessage{ lineNum: lineN, msg: msg, kind: kind, } for _, v := range v.messages { for _, gmsg := range v { if gmsg.lineNum == lineN { return } } } messages := v.messages[section] v.messages[section] = append(messages, gutterMsg) } // ClearGutterMessages clears all gutter messages from a given section func (v *View) ClearGutterMessages(section string) { v.messages[section] = []GutterMessage{} } // ClearAllGutterMessages clears all the gutter messages func (v *View) ClearAllGutterMessages() { for k := range v.messages { v.messages[k] = []GutterMessage{} } } // Opens the given help page in a new horizontal split func (v *View) openHelp(helpPage string) { if data, err := FindRuntimeFile(RTHelp, helpPage).Data(); err != nil { TermMessage("Unable to load help text", helpPage, "\n", err) } else { helpBuffer := NewBuffer(strings.NewReader(string(data)), helpPage+".md") helpBuffer.name = "Help" if v.Type == vtHelp { v.OpenBuffer(helpBuffer) } else { v.HSplit(helpBuffer) CurView().Type = vtHelp } } } func (v *View) drawCell(x, y int, ch rune, combc []rune, style tcell.Style) { if x >= v.x && x < v.x+v.Width && y >= v.y && y < v.y+v.Height { screen.SetContent(x, y, ch, combc, style) } } // DisplayView renders the view to the screen func (v *View) DisplayView() { if v.Type == vtLog { // Log views should always follow the cursor... v.Relocate() } if v.Buf.Settings["syntax"].(bool) { v.matches = Match(v) } // The charNum we are currently displaying // starts at the start of the viewport charNum := Loc{0, v.Topline} // Convert the length of buffer to a string, and get the length of the string // We are going to have to offset by that amount maxLineLength := len(strconv.Itoa(v.Buf.NumLines)) if v.Buf.Settings["ruler"] == true { // + 1 for the little space after the line number v.lineNumOffset = maxLineLength + 1 } else { v.lineNumOffset = 0 } // We need to add to the line offset if there are gutter messages var hasGutterMessages bool for _, v := range v.messages { if len(v) > 0 { hasGutterMessages = true } } if hasGutterMessages { v.lineNumOffset += 2 } if v.x != 0 { // One space for the extra split divider v.lineNumOffset++ } // These represent the current screen coordinates screenX, screenY := v.x, v.y-1 highlightStyle := defStyle curLineN := 0 // ViewLine is the current line from the top of the viewport for viewLine := 0; viewLine < v.Height; viewLine++ { screenY++ screenX = v.x // This is the current line number of the buffer that we are drawing curLineN = viewLine + v.Topline if screenY-v.y >= v.Height { break } if v.x != 0 { dividerStyle := defStyle if style, ok := colorscheme["divider"]; ok { dividerStyle = style } // Draw the split divider v.drawCell(screenX, screenY, tcell.RuneVLine, nil, dividerStyle) screenX++ } // If the buffer is smaller than the view height we have to clear all this space if curLineN >= v.Buf.NumLines { for i := screenX; i < v.x+v.Width; i++ { v.drawCell(i, screenY, ' ', nil, defStyle) } continue } line := v.Buf.Line(curLineN) // If there are gutter messages we need to display the '>>' symbol here if hasGutterMessages { // msgOnLine stores whether or not there is a gutter message on this line in particular msgOnLine := false for k := range v.messages { for _, msg := range v.messages[k] { if msg.lineNum == curLineN { msgOnLine = true gutterStyle := defStyle switch msg.kind { case GutterInfo: if style, ok := colorscheme["gutter-info"]; ok { gutterStyle = style } case GutterWarning: if style, ok := colorscheme["gutter-warning"]; ok { gutterStyle = style } case GutterError: if style, ok := colorscheme["gutter-error"]; ok { gutterStyle = style } } v.drawCell(screenX, screenY, '>', nil, gutterStyle) screenX++ v.drawCell(screenX, screenY, '>', nil, gutterStyle) screenX++ if v.Cursor.Y == curLineN && !messenger.hasPrompt { messenger.Message(msg.msg) messenger.gutterMessage = true } } } } // If there is no message on this line we just display an empty offset if !msgOnLine { v.drawCell(screenX, screenY, ' ', nil, defStyle) screenX++ v.drawCell(screenX, screenY, ' ', nil, defStyle) screenX++ if v.Cursor.Y == curLineN && messenger.gutterMessage { messenger.Reset() messenger.gutterMessage = false } } } lineNumStyle := defStyle if v.Buf.Settings["ruler"] == true { // Write the line number if style, ok := colorscheme["line-number"]; ok { lineNumStyle = style } if style, ok := colorscheme["current-line-number"]; ok { if curLineN == v.Cursor.Y && tabs[curTab].CurView == v.Num && !v.Cursor.HasSelection() { lineNumStyle = style } } lineNum := strconv.Itoa(curLineN + 1) // Write the spaces before the line number if necessary for i := 0; i < maxLineLength-len(lineNum); i++ { v.drawCell(screenX, screenY, ' ', nil, lineNumStyle) screenX++ } // Write the actual line number for _, ch := range lineNum { v.drawCell(screenX, screenY, ch, nil, lineNumStyle) screenX++ } // Write the extra space v.drawCell(screenX, screenY, ' ', nil, lineNumStyle) screenX++ } // Now we actually draw the line colN := 0 strWidth := 0 tabSize := int(v.Buf.Settings["tabsize"].(float64)) for _, ch := range line { if v.Buf.Settings["softwrap"].(bool) { if screenX-v.x >= v.Width { screenY++ x := 0 if hasGutterMessages { v.drawCell(v.x+x, screenY, ' ', nil, defStyle) x++ v.drawCell(v.x+x, screenY, ' ', nil, defStyle) x++ } for i := 0; i < v.lineNumOffset; i++ { screen.SetContent(v.x+i+x, screenY, ' ', nil, lineNumStyle) } screenX = v.x + v.lineNumOffset } } if tabs[curTab].CurView == v.Num && !v.Cursor.HasSelection() && v.Cursor.Y == curLineN && colN == v.Cursor.X { v.DisplayCursor(screenX-v.leftCol, screenY) } lineStyle := defStyle if v.Buf.Settings["syntax"].(bool) { // Syntax highlighting is enabled highlightStyle = v.matches[viewLine][colN] } if v.Cursor.HasSelection() && (charNum.GreaterEqual(v.Cursor.CurSelection[0]) && charNum.LessThan(v.Cursor.CurSelection[1]) || charNum.LessThan(v.Cursor.CurSelection[0]) && charNum.GreaterEqual(v.Cursor.CurSelection[1])) { // The current character is selected lineStyle = defStyle.Reverse(true) if style, ok := colorscheme["selection"]; ok { lineStyle = style } } else { lineStyle = highlightStyle } // We need to display the background of the linestyle with the correct color if cursorline is enabled // and this is the current view and there is no selection on this line and the cursor is on this line if v.Buf.Settings["cursorline"].(bool) && tabs[curTab].CurView == v.Num && !v.Cursor.HasSelection() && v.Cursor.Y == curLineN { if style, ok := colorscheme["cursor-line"]; ok { fg, _, _ := style.Decompose() lineStyle = lineStyle.Background(fg) } } if ch == '\t' { // If the character we are displaying is a tab, we need to do a bunch of special things // First the user may have configured an `indent-char` to be displayed to show that this // is a tab character lineIndentStyle := defStyle if style, ok := colorscheme["indent-char"]; ok && v.Buf.Settings["indentchar"].(string) != " " { lineIndentStyle = style } if v.Cursor.HasSelection() && (charNum.GreaterEqual(v.Cursor.CurSelection[0]) && charNum.LessThan(v.Cursor.CurSelection[1]) || charNum.LessThan(v.Cursor.CurSelection[0]) && charNum.GreaterEqual(v.Cursor.CurSelection[1])) { lineIndentStyle = defStyle.Reverse(true) if style, ok := colorscheme["selection"]; ok { lineIndentStyle = style } } if v.Buf.Settings["cursorline"].(bool) && tabs[curTab].CurView == v.Num && !v.Cursor.HasSelection() && v.Cursor.Y == curLineN { if style, ok := colorscheme["cursor-line"]; ok { fg, _, _ := style.Decompose() lineIndentStyle = lineIndentStyle.Background(fg) } } // Here we get the indent char indentChar := []rune(v.Buf.Settings["indentchar"].(string)) if screenX-v.x-v.leftCol >= v.lineNumOffset { v.drawCell(screenX-v.leftCol, screenY, indentChar[0], nil, lineIndentStyle) } // Now the tab has to be displayed as a bunch of spaces visLoc := strWidth remainder := tabSize - (visLoc % tabSize) for i := 0; i < remainder-1; i++ { screenX++ if screenX-v.x-v.leftCol >= v.lineNumOffset { v.drawCell(screenX-v.leftCol, screenY, ' ', nil, lineStyle) } } strWidth += remainder } else if runewidth.RuneWidth(ch) > 1 { if screenX-v.x-v.leftCol >= v.lineNumOffset { v.drawCell(screenX, screenY, ch, nil, lineStyle) } for i := 0; i < runewidth.RuneWidth(ch)-1; i++ { screenX++ if screenX-v.x-v.leftCol >= v.lineNumOffset { v.drawCell(screenX-v.leftCol, screenY, '<', nil, lineStyle) } } strWidth += StringWidth(string(ch), tabSize) } else { if screenX-v.x-v.leftCol >= v.lineNumOffset { v.drawCell(screenX-v.leftCol, screenY, ch, nil, lineStyle) } strWidth += StringWidth(string(ch), tabSize) } charNum = charNum.Move(1, v.Buf) screenX++ colN++ } // Here we are at a newline if tabs[curTab].CurView == v.Num && !v.Cursor.HasSelection() && v.Cursor.Y == curLineN && colN == v.Cursor.X { v.DisplayCursor(screenX-v.leftCol, screenY) } // The newline may be selected, in which case we should draw the selection style // with a space to represent it if v.Cursor.HasSelection() && (charNum.GreaterEqual(v.Cursor.CurSelection[0]) && charNum.LessThan(v.Cursor.CurSelection[1]) || charNum.LessThan(v.Cursor.CurSelection[0]) && charNum.GreaterEqual(v.Cursor.CurSelection[1])) { selectStyle := defStyle.Reverse(true) if style, ok := colorscheme["selection"]; ok { selectStyle = style } v.drawCell(screenX, screenY, ' ', nil, selectStyle) screenX++ } charNum = charNum.Move(1, v.Buf) for i := 0; i < v.Width; i++ { lineStyle := defStyle if v.Buf.Settings["cursorline"].(bool) && tabs[curTab].CurView == v.Num && !v.Cursor.HasSelection() && v.Cursor.Y == curLineN { if style, ok := colorscheme["cursor-line"]; ok { fg, _, _ := style.Decompose() lineStyle = lineStyle.Background(fg) } } if screenX-v.x-v.leftCol+i >= v.lineNumOffset { colorcolumn := int(v.Buf.Settings["colorcolumn"].(float64)) if colorcolumn != 0 && screenX-v.lineNumOffset+i == colorcolumn-1 { if style, ok := colorscheme["color-column"]; ok { fg, _, _ := style.Decompose() lineStyle = lineStyle.Background(fg) } } v.drawCell(screenX-v.leftCol+i, screenY, ' ', nil, lineStyle) } } } } // DisplayCursor draws the current buffer's cursor to the screen func (v *View) DisplayCursor(x, y int) { // screen.ShowCursor(v.x+v.Cursor.GetVisualX()+v.lineNumOffset-v.leftCol, y) screen.ShowCursor(x, y) } // Display renders the view, the cursor, and statusline func (v *View) Display() { v.DisplayView() // Don't draw the cursor if it is out of the viewport or if it has a selection if (v.Cursor.Y-v.Topline < 0 || v.Cursor.Y-v.Topline > v.Height-1) || v.Cursor.HasSelection() { screen.HideCursor() } _, screenH := screen.Size() if v.Buf.Settings["statusline"].(bool) { v.sline.Display() } else if (v.y + v.Height) != screenH-1 { for x := 0; x < v.Width; x++ { screen.SetContent(v.x+x, v.y+v.Height, '-', nil, defStyle.Reverse(true)) } } }