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aerc/widgets/terminal.go
Jeffas f6216bb621 Add Mouseable
This adds the Mouseable interface. When this is implemented for a
component that item can accept and process mouseevents.

At the top level when a mouse event is received it is passed to the
grid's handler and then it trickles down until it reaches a component
that can actually handle it, such as the tablist, dirlist or msglist.

A mouse event is passed so that components can handle other things such
as scrolling with the mousewheel. The components themselves then perform
the necessary actions.

Clicking emails in the messagelist opens them in a new tab.

Textinputs can be clicked to position the cursor inside them.

Mouseevents are not forwarded to the terminal at the moment.

Elements which do not handle mouse events are not required to implement
the Mouseable interface.
2019-09-11 11:41:34 -04:00

471 lines
11 KiB
Go

package widgets
import (
"os"
"os/exec"
"sync"
"git.sr.ht/~sircmpwn/aerc/lib/ui"
"git.sr.ht/~sircmpwn/pty"
"github.com/ddevault/go-libvterm"
"github.com/gdamore/tcell"
)
type vtermKey struct {
Key vterm.Key
Rune rune
Mod vterm.Modifier
}
var keyMap map[tcell.Key]vtermKey
func directKey(key vterm.Key) vtermKey {
return vtermKey{key, 0, vterm.ModNone}
}
func runeMod(r rune, mod vterm.Modifier) vtermKey {
return vtermKey{vterm.KeyNone, r, mod}
}
func keyMod(key vterm.Key, mod vterm.Modifier) vtermKey {
return vtermKey{key, 0, mod}
}
func init() {
keyMap = make(map[tcell.Key]vtermKey)
keyMap[tcell.KeyCtrlSpace] = runeMod(' ', vterm.ModCtrl)
keyMap[tcell.KeyCtrlA] = runeMod('a', vterm.ModCtrl)
keyMap[tcell.KeyCtrlB] = runeMod('b', vterm.ModCtrl)
keyMap[tcell.KeyCtrlC] = runeMod('c', vterm.ModCtrl)
keyMap[tcell.KeyCtrlD] = runeMod('d', vterm.ModCtrl)
keyMap[tcell.KeyCtrlE] = runeMod('e', vterm.ModCtrl)
keyMap[tcell.KeyCtrlF] = runeMod('f', vterm.ModCtrl)
keyMap[tcell.KeyCtrlG] = runeMod('g', vterm.ModCtrl)
keyMap[tcell.KeyCtrlH] = runeMod('h', vterm.ModCtrl)
keyMap[tcell.KeyCtrlI] = runeMod('i', vterm.ModCtrl)
keyMap[tcell.KeyCtrlJ] = runeMod('j', vterm.ModCtrl)
keyMap[tcell.KeyCtrlK] = runeMod('k', vterm.ModCtrl)
keyMap[tcell.KeyCtrlL] = runeMod('l', vterm.ModCtrl)
keyMap[tcell.KeyCtrlM] = runeMod('m', vterm.ModCtrl)
keyMap[tcell.KeyCtrlN] = runeMod('n', vterm.ModCtrl)
keyMap[tcell.KeyCtrlO] = runeMod('o', vterm.ModCtrl)
keyMap[tcell.KeyCtrlP] = runeMod('p', vterm.ModCtrl)
keyMap[tcell.KeyCtrlQ] = runeMod('q', vterm.ModCtrl)
keyMap[tcell.KeyCtrlR] = runeMod('r', vterm.ModCtrl)
keyMap[tcell.KeyCtrlS] = runeMod('s', vterm.ModCtrl)
keyMap[tcell.KeyCtrlT] = runeMod('t', vterm.ModCtrl)
keyMap[tcell.KeyCtrlU] = runeMod('u', vterm.ModCtrl)
keyMap[tcell.KeyCtrlV] = runeMod('v', vterm.ModCtrl)
keyMap[tcell.KeyCtrlW] = runeMod('w', vterm.ModCtrl)
keyMap[tcell.KeyCtrlX] = runeMod('x', vterm.ModCtrl)
keyMap[tcell.KeyCtrlY] = runeMod('y', vterm.ModCtrl)
keyMap[tcell.KeyCtrlZ] = runeMod('z', vterm.ModCtrl)
keyMap[tcell.KeyCtrlBackslash] = runeMod('\\', vterm.ModCtrl)
keyMap[tcell.KeyCtrlCarat] = runeMod('^', vterm.ModCtrl)
keyMap[tcell.KeyCtrlUnderscore] = runeMod('_', vterm.ModCtrl)
keyMap[tcell.KeyEnter] = directKey(vterm.KeyEnter)
keyMap[tcell.KeyTab] = directKey(vterm.KeyTab)
keyMap[tcell.KeyBackspace] = directKey(vterm.KeyBackspace)
keyMap[tcell.KeyEscape] = directKey(vterm.KeyEscape)
keyMap[tcell.KeyUp] = directKey(vterm.KeyUp)
keyMap[tcell.KeyDown] = directKey(vterm.KeyDown)
keyMap[tcell.KeyLeft] = directKey(vterm.KeyLeft)
keyMap[tcell.KeyRight] = directKey(vterm.KeyRight)
keyMap[tcell.KeyInsert] = directKey(vterm.KeyIns)
keyMap[tcell.KeyDelete] = directKey(vterm.KeyDel)
keyMap[tcell.KeyHome] = directKey(vterm.KeyHome)
keyMap[tcell.KeyEnd] = directKey(vterm.KeyEnd)
keyMap[tcell.KeyPgUp] = directKey(vterm.KeyPageUp)
keyMap[tcell.KeyPgDn] = directKey(vterm.KeyPageDown)
for i := 0; i < 64; i++ {
keyMap[tcell.Key(int(tcell.KeyF1)+i)] =
directKey(vterm.Key(int(vterm.KeyFunction0) + i))
}
keyMap[tcell.KeyTAB] = directKey(vterm.KeyTab)
keyMap[tcell.KeyESC] = directKey(vterm.KeyEscape)
keyMap[tcell.KeyDEL] = directKey(vterm.KeyBackspace)
}
type Terminal struct {
ui.Invalidatable
closed bool
cmd *exec.Cmd
ctx *ui.Context
cursorPos vterm.Pos
cursorShown bool
destroyed bool
err error
focus bool
pty *os.File
start chan interface{}
vterm *vterm.VTerm
damage []vterm.Rect // protected by damageMutex
damageMutex sync.Mutex
writeMutex sync.Mutex
OnClose func(err error)
OnEvent func(event tcell.Event) bool
OnStart func()
OnTitle func(title string)
}
func NewTerminal(cmd *exec.Cmd) (*Terminal, error) {
term := &Terminal{
cursorShown: true,
}
term.cmd = cmd
term.vterm = vterm.New(24, 80)
term.vterm.SetUTF8(true)
term.start = make(chan interface{})
screen := term.vterm.ObtainScreen()
go func() {
<-term.start
buf := make([]byte, 4096)
for {
n, err := term.pty.Read(buf)
if err != nil || term.closed {
// These are generally benine errors when the process exits
term.Close(nil)
return
}
term.writeMutex.Lock()
n, err = term.vterm.Write(buf[:n])
term.writeMutex.Unlock()
if err != nil {
term.Close(err)
return
}
screen.Flush()
term.flushTerminal()
term.invalidate()
}
}()
screen.OnDamage = term.onDamage
screen.OnMoveCursor = term.onMoveCursor
screen.OnSetTermProp = term.onSetTermProp
screen.EnableAltScreen(true)
screen.Reset(true)
return term, nil
}
func (term *Terminal) flushTerminal() {
buf := make([]byte, 4096)
for {
n, err := term.vterm.Read(buf)
if err != nil {
term.Close(err)
return
}
if n == 0 {
break
}
n, err = term.pty.Write(buf[:n])
if err != nil {
term.Close(err)
return
}
}
}
func (term *Terminal) Close(err error) {
if term.closed {
return
}
term.err = err
if term.pty != nil {
term.pty.Close()
term.pty = nil
}
if term.cmd != nil && term.cmd.Process != nil {
term.cmd.Process.Kill()
term.cmd = nil
}
if !term.closed && term.OnClose != nil {
term.OnClose(err)
}
term.closed = true
term.ctx.HideCursor()
}
func (term *Terminal) Destroy() {
if term.destroyed {
return
}
if term.vterm != nil {
term.vterm.Close()
term.vterm = nil
}
if term.ctx != nil {
term.ctx.HideCursor()
}
term.destroyed = true
}
func (term *Terminal) Invalidate() {
if term.vterm != nil {
width, height := term.vterm.Size()
rect := vterm.NewRect(0, width, 0, height)
term.damageMutex.Lock()
term.damage = append(term.damage, *rect)
term.damageMutex.Unlock()
}
term.invalidate()
}
func (term *Terminal) invalidate() {
term.DoInvalidate(term)
}
func (term *Terminal) Draw(ctx *ui.Context) {
if term.destroyed {
return
}
term.ctx = ctx // gross
if !term.closed {
winsize := pty.Winsize{
Cols: uint16(ctx.Width()),
Rows: uint16(ctx.Height()),
}
if winsize.Cols == 0 || winsize.Rows == 0 || term.cmd == nil {
return
}
if term.pty == nil {
term.vterm.SetSize(ctx.Height(), ctx.Width())
tty, err := pty.StartWithSize(term.cmd, &winsize)
term.pty = tty
if err != nil {
term.Close(err)
return
}
term.start <- nil
if term.OnStart != nil {
term.OnStart()
}
}
rows, cols, err := pty.Getsize(term.pty)
if err != nil {
return
}
if ctx.Width() != cols || ctx.Height() != rows {
term.writeMutex.Lock()
pty.Setsize(term.pty, &winsize)
term.vterm.SetSize(ctx.Height(), ctx.Width())
term.writeMutex.Unlock()
rect := vterm.NewRect(0, ctx.Width(), 0, ctx.Height())
term.damageMutex.Lock()
term.damage = append(term.damage, *rect)
term.damageMutex.Unlock()
return
}
}
screen := term.vterm.ObtainScreen()
type coords struct {
x int
y int
}
// naive optimization
visited := make(map[coords]interface{})
term.damageMutex.Lock()
for _, rect := range term.damage {
for x := rect.StartCol(); x < rect.EndCol() && x < ctx.Width(); x += 1 {
for y := rect.StartRow(); y < rect.EndRow() && y < ctx.Height(); y += 1 {
coords := coords{x, y}
if _, ok := visited[coords]; ok {
continue
}
visited[coords] = nil
cell, err := screen.GetCellAt(y, x)
if err != nil {
continue
}
style := term.styleFromCell(cell)
ctx.Printf(x, y, style, "%s", string(cell.Chars()))
}
}
}
term.damage = nil
term.damageMutex.Unlock()
if term.focus && !term.closed {
if !term.cursorShown {
ctx.HideCursor()
} else {
state := term.vterm.ObtainState()
row, col := state.GetCursorPos()
ctx.SetCursor(col, row)
}
}
}
func (term *Terminal) MouseEvent(localX int, localY int, event tcell.Event) {
switch event := event.(type) {
case *tcell.EventMouse:
if term.OnEvent != nil {
if term.OnEvent(event) {
return
}
}
if term.closed {
return
}
}
}
func (term *Terminal) Focus(focus bool) {
if term.closed {
return
}
term.focus = focus
if term.ctx != nil {
if !term.focus {
term.ctx.HideCursor()
} else {
state := term.vterm.ObtainState()
row, col := state.GetCursorPos()
term.ctx.SetCursor(col, row)
term.Invalidate()
}
}
}
func convertMods(mods tcell.ModMask) vterm.Modifier {
var (
ret uint = 0
mask uint = uint(mods)
)
if mask&uint(tcell.ModShift) > 0 {
ret |= uint(vterm.ModShift)
}
if mask&uint(tcell.ModCtrl) > 0 {
ret |= uint(vterm.ModCtrl)
}
if mask&uint(tcell.ModAlt) > 0 {
ret |= uint(vterm.ModAlt)
}
return vterm.Modifier(ret)
}
func (term *Terminal) Event(event tcell.Event) bool {
if term.OnEvent != nil {
if term.OnEvent(event) {
return true
}
}
if term.closed {
return false
}
switch event := event.(type) {
case *tcell.EventKey:
if event.Key() == tcell.KeyRune {
term.vterm.KeyboardUnichar(
event.Rune(), convertMods(event.Modifiers()))
} else {
if key, ok := keyMap[event.Key()]; ok {
if key.Key == vterm.KeyNone {
term.vterm.KeyboardUnichar(
key.Rune, key.Mod)
} else if key.Mod == vterm.ModNone {
term.vterm.KeyboardKey(key.Key,
convertMods(event.Modifiers()))
} else {
term.vterm.KeyboardKey(key.Key, key.Mod)
}
}
}
term.flushTerminal()
}
return false
}
func (term *Terminal) styleFromCell(cell *vterm.ScreenCell) tcell.Style {
style := tcell.StyleDefault
background := cell.Bg()
foreground := cell.Fg()
var (
bg tcell.Color
fg tcell.Color
)
if background.IsDefaultBg() {
bg = tcell.ColorDefault
} else if background.IsIndexed() {
bg = tcell.Color(background.GetIndex())
} else if background.IsRgb() {
r, g, b := background.GetRGB()
bg = tcell.NewRGBColor(int32(r), int32(g), int32(b))
}
if foreground.IsDefaultFg() {
fg = tcell.ColorDefault
} else if foreground.IsIndexed() {
fg = tcell.Color(foreground.GetIndex())
} else if foreground.IsRgb() {
r, g, b := foreground.GetRGB()
fg = tcell.NewRGBColor(int32(r), int32(g), int32(b))
}
style = style.Background(bg).Foreground(fg)
if cell.Attrs().Bold != 0 {
style = style.Bold(true)
}
if cell.Attrs().Underline != 0 {
style = style.Underline(true)
}
if cell.Attrs().Blink != 0 {
style = style.Blink(true)
}
if cell.Attrs().Reverse != 0 {
style = style.Reverse(true)
}
return style
}
func (term *Terminal) onDamage(rect *vterm.Rect) int {
term.damageMutex.Lock()
term.damage = append(term.damage, *rect)
term.damageMutex.Unlock()
term.invalidate()
return 1
}
func (term *Terminal) onMoveCursor(old *vterm.Pos,
pos *vterm.Pos, visible bool) int {
rows, cols, _ := pty.Getsize(term.pty)
if pos.Row() >= rows || pos.Col() >= cols {
return 1
}
term.cursorPos = *pos
term.invalidate()
return 1
}
func (term *Terminal) onSetTermProp(prop int, val *vterm.VTermValue) int {
switch prop {
case vterm.VTERM_PROP_TITLE:
if term.OnTitle != nil {
term.OnTitle(val.String)
}
case vterm.VTERM_PROP_CURSORVISIBLE:
term.cursorShown = val.Boolean
term.invalidate()
}
return 1
}