dotool/dotool.go

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package main
import (
"bufio"
"errors"
"fmt"
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"git.sr.ht/~geb/dotool/xkb"
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"git.sr.ht/~geb/opt"
"github.com/bendahl/uinput"
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"math"
"os"
"strconv"
"strings"
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"time"
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"unicode"
)
var Version string
func usage() {
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fmt.Println(`dotool reads actions from stdin and simulates input using uinput.
The supported actions are:
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key CHORD...
keydown CHORD...
keyup CHORD...
type TEXT
click left/middle/right
buttondown left/middle/right
buttonup left/middle/right
wheel AMOUNT
hwheel AMOUNT
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mouseto X Y (where X and Y are percentages between 0.0 and 1.0)
mousemove X Y (where X and Y are amounts to move)
keydelay MILLISECONDS
keyhold MILLISECONDS
typedelay MILLISECONDS
typehold MILLISECONDS
--list-keys Print the possible Linux keys and exit.
--list-x-keys Print the possible XKB keys and exit.
--version Print the version and exit.
See 'man dotool' for the documentation.`)
}
func fatal(a ...any) {
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fmt.Fprintln(os.Stderr, "dotool:", fmt.Sprint(a...))
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os.Exit(1)
}
func warn(a ...any) {
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fmt.Fprintln(os.Stderr, "dotool: WARNING:", fmt.Sprint(a...))
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}
func log(err error) {
if err != nil {
warn(err.Error())
}
}
type Chord struct {
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Super, AltGr, Ctrl, Alt, Shift bool
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Key int
level uint32 // just for initKeys
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}
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func parseChord(keymap *xkb.Keymap, chord string) (Chord, error) {
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var c Chord
keys := strings.Split(chord, "+")
k := keys[len(keys)-1]
if strings.HasPrefix(k, "k:") {
code, err := strconv.Atoi(k[2:])
if err != nil {
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return c, errors.New("invalid keycode: " + k[2:])
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}
c.Key = code
} else if strings.HasPrefix(k, "x:") {
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var ok bool
c, ok = XKeys[k[2:]]
if !ok {
return c, errors.New("impossible XKB key for layout: " + k[2:])
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}
} else {
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var ok bool
c, ok = LinuxKeys[strings.ToLower(k)]
if !ok {
return c, errors.New("impossible key for layout: " + k)
}
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if len(k) == 1 && unicode.IsUpper(rune(k[0])) {
c.Shift = true
}
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}
for i := 0; i < len(keys) - 1; i++ {
switch strings.ToLower(keys[i]) {
case "super":
c.Super = true
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case "altgr":
c.AltGr = true
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case "ctrl", "control":
c.Ctrl = true
case "alt":
c.Alt = true
case "shift":
c.Shift = true
default:
return c, errors.New("unknown modifier: " + keys[i])
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}
}
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return c, nil
}
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func (c Chord) KeyDown(kb uinput.Keyboard) {
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if c.Super {
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log(kb.KeyDown(super))
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}
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if c.AltGr {
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log(kb.KeyDown(altgr))
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}
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if c.Ctrl {
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log(kb.KeyDown(ctrl))
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}
if c.Alt {
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log(kb.KeyDown(alt))
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}
if c.Shift {
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log(kb.KeyDown(shift))
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}
log(kb.KeyDown(c.Key))
}
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func (c Chord) KeyUp(kb uinput.Keyboard) {
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if c.Super {
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log(kb.KeyUp(super))
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}
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if c.AltGr {
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log(kb.KeyUp(altgr))
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}
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if c.Ctrl {
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log(kb.KeyUp(ctrl))
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}
if c.Alt {
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log(kb.KeyUp(alt))
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}
if c.Shift {
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log(kb.KeyUp(shift))
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}
log(kb.KeyUp(c.Key))
}
func (c *Chord) String() string {
var sb strings.Builder
if c.Super {
sb.WriteString("super+")
}
if c.AltGr {
sb.WriteString("altgr+")
}
if c.Ctrl {
sb.WriteString("ctrl+")
}
if c.Alt {
sb.WriteString("alt+")
}
if c.Shift {
sb.WriteString("shift+")
}
sb.WriteString("k:")
sb.WriteString(strconv.Itoa(c.Key))
return sb.String()
}
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func listKeys(keymap *xkb.Keymap, keys map[string]Chord) {
var margin int
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for code := 1; code < 256; code++ {
for name := range keys {
if len(name) > margin {
margin = len(name)
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}
}
}
for code := 1; code < 256; code++ {
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for name, chord := range keys {
if chord.Key == code {
fmt.Printf("%-*s %s\n", margin, name, chord.String())
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}
}
}
}
func cutWord(s, word string) (string, bool) {
if s == word {
return "", true
}
if strings.HasPrefix(s, word + " ") || strings.HasPrefix(s, word + "\t") {
return s[len(word)+1:], true
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}
return "", false
}
func main() {
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var keymap *xkb.Keymap
{
layout := os.Getenv("DOTOOL_XKB_LAYOUT")
if layout == "" {
layout = os.Getenv("XKB_DEFAULT_LAYOUT")
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}
variant := os.Getenv("DOTOOL_XKB_VARIANT")
if variant == "" {
variant = os.Getenv("XKB_DEFAULT_VARIANT")
}
if variant != "" && layout == "" {
// Otherwise xkbcommon just ignores the variant.
fatal("you need to set $DOTOOL_XKB_LAYOUT or $XKB_DEFAULT_LAYOUT if the variant is set")
}
names := xkb.RuleNames{Layout: layout, Variant: variant}
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ctx := xkb.ContextNew(xkb.ContextNoFlags)
defer ctx.Unref()
keymap = ctx.KeymapNewFromNames(&names, xkb.KeymapCompileNoFlags)
if keymap == nil {
fatal("failed to compile keymap")
}
defer keymap.Unref()
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initKeys(keymap)
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}
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{
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o := opt.NewOptSet()
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o.FlagFunc("h", func() error {
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usage()
os.Exit(0)
panic("unreachable")
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})
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o.Alias("h", "help")
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o.FlagFunc("list-keys", func() error {
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listKeys(keymap, LinuxKeys)
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os.Exit(0)
panic("unreachable")
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})
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o.FlagFunc("list-x-keys", func() error {
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listKeys(keymap, XKeys)
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os.Exit(0)
panic("unreachable")
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})
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o.FlagFunc("version", func() error {
fmt.Println(Version)
os.Exit(0)
panic("unreachable")
})
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err := o.Parse(true, os.Args[1:])
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if err != nil {
fatal(err.Error())
}
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if len(o.Args()) > 0 {
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fatal("there should be no arguments, commands are read from stdin")
}
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}
keyboardName := []byte(os.Getenv("DOTOOL_KEYBOARD_NAME"))
if len(keyboardName) == 0 {
keyboardName = []byte("dotool keyboard")
}
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keyboard, err := uinput.CreateKeyboard("/dev/uinput", keyboardName)
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if err != nil {
fatal(err.Error())
}
defer keyboard.Close()
const precision = 10000
touchpad, err := uinput.CreateTouchPad("/dev/uinput", []byte("dotool absolute pointer"), 0, precision, 0, precision)
if err != nil {
fatal(err.Error())
}
defer touchpad.Close()
mouse, err := uinput.CreateMouse("/dev/uinput", []byte("dotool relative pointer"))
if err != nil {
fatal(err.Error())
}
defer mouse.Close()
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keydelay := time.Duration(2)*time.Millisecond
keyhold := time.Duration(8)*time.Millisecond
typedelay := time.Duration(2)*time.Millisecond
typehold := time.Duration(8)*time.Millisecond
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sc := bufio.NewScanner(os.Stdin)
for sc.Scan() {
text := strings.TrimLeftFunc(sc.Text(), unicode.IsSpace)
if text == "" {
continue
}
if s, ok := cutWord(text, "key"); ok {
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for _, field := range strings.Fields(s) {
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if chord, err := parseChord(keymap, field); err == nil {
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chord.KeyDown(keyboard)
time.Sleep(keyhold)
chord.KeyUp(keyboard)
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} else {
warn(err.Error())
}
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time.Sleep(keydelay)
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}
} else if s, ok := cutWord(text, "keydown"); ok {
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for _, field := range strings.Fields(s) {
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if chord, err := parseChord(keymap, field); err == nil {
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chord.KeyDown(keyboard)
} else {
warn(err.Error())
}
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time.Sleep(keydelay)
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}
} else if s, ok := cutWord(text, "keyup"); ok {
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for _, field := range strings.Fields(s) {
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if chord, err := parseChord(keymap, field); err == nil {
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chord.KeyUp(keyboard)
} else {
warn(err.Error())
}
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time.Sleep(keydelay)
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}
} else if s, ok := cutWord(text, "keydelay"); ok {
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var d float64
_, err := fmt.Sscanf(s + "\n", "%f\n", &d)
if err == nil {
keydelay = time.Duration(d)*time.Millisecond
} else {
warn("invalid delay: " + sc.Text())
}
} else if s, ok := cutWord(text, "keyhold"); ok {
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var d float64
_, err := fmt.Sscanf(s + "\n", "%f\n", &d)
if err == nil {
keyhold = time.Duration(d)*time.Millisecond
} else {
warn("invalid hold time: " + sc.Text())
}
} else if s, ok := cutWord(text, "type"); ok {
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for _, r := range s {
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sym := xkb.Utf32ToKeysym(uint32(r))
if sym == 0 {
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warn("invalid character: " + string(r))
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} else if c := getChord(keymap, sym); c.Key != 0 {
c.KeyDown(keyboard)
time.Sleep(typehold)
c.KeyUp(keyboard)
} else if c1, c2 := getDeadChords(keymap, r); c1.Key != 0 {
c1.KeyDown(keyboard)
time.Sleep(typehold)
c1.KeyUp(keyboard)
time.Sleep(typedelay)
c2.KeyDown(keyboard)
time.Sleep(typehold)
c2.KeyUp(keyboard)
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} else {
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warn("impossible character for layout: " + string(r))
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}
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time.Sleep(typedelay)
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}
} else if s, ok := cutWord(text, "typedelay"); ok {
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var d float64
_, err := fmt.Sscanf(s + "\n", "%f\n", &d)
if err == nil {
typedelay = time.Duration(d)*time.Millisecond
} else {
warn("invalid delay: " + sc.Text())
}
} else if s, ok := cutWord(text, "typehold"); ok {
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var d float64
_, err := fmt.Sscanf(s + "\n", "%f\n", &d)
if err == nil {
typehold = time.Duration(d)*time.Millisecond
} else {
warn("invalid hold time: " + sc.Text())
}
} else if s, ok := cutWord(text, "click"); ok {
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for _, button := range strings.Fields(s) {
switch button {
case "left", "1":
log(mouse.LeftClick())
case "middle", "2":
log(mouse.MiddleClick())
case "right", "3":
log(mouse.RightClick())
default:
warn("unknown button: " + button)
}
}
} else if s, ok := cutWord(text, "buttondown"); ok {
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for _, button := range strings.Fields(s) {
switch button {
case "left", "1":
log(mouse.LeftPress())
case "middle", "2":
log(mouse.MiddlePress())
case "right", "3":
log(mouse.RightPress())
default:
warn("unknown button: " + button)
}
}
} else if s, ok := cutWord(text, "buttonup"); ok {
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for _, button := range strings.Fields(s) {
switch button {
case "left", "1":
log(mouse.LeftRelease())
case "middle", "2":
log(mouse.MiddleRelease())
case "right", "3":
log(mouse.RightRelease())
default:
warn("unknown button: " + button)
}
}
} else if s, ok := cutWord(text, "wheel"); ok {
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var n float64
_, err := fmt.Sscanf(s + "\n", "%f\n", &n)
if err == nil {
log(mouse.Wheel(false, int32(n)))
} else {
warn("invalid wheel amount: " + sc.Text())
}
} else if s, ok := cutWord(text, "hwheel"); ok {
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var n float64
_, err := fmt.Sscanf(s + "\n", "%f\n", &n)
if err == nil {
log(mouse.Wheel(true, int32(n)))
} else {
warn("invalid hwheel amount: " + sc.Text())
}
} else if s, ok := cutWord(text, "scroll"); ok {
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var n float64
_, err := fmt.Sscanf(s + "\n", "%f\n", &n)
if err == nil {
log(mouse.Wheel(false, int32(-n)))
} else {
warn("invalid scroll amount: " + sc.Text())
}
} else if s, ok := cutWord(text, "mouseto"); ok {
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var x, y float64
_, err := fmt.Sscanf(s + "\n", "%f %f\n", &x, &y)
if err == nil {
if x < 0.0 || x > 1.0 || y < 0.0 || y > 1.0 {
warn("clamping percentages between 0.0 and 1.0: " + sc.Text())
x = math.Max(0, math.Min(x, 1.0))
y = math.Min(0, math.Min(y, 1.0))
}
x, y := int32(x * float64(precision)), int32(y * float64(precision))
err := touchpad.MoveTo(x, y)
if err != nil {
warn(err.Error())
}
} else {
warn("invalid coordinate: " + sc.Text())
}
} else if s, ok := cutWord(text, "mousemove"); ok {
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var x, y float64
_, err := fmt.Sscanf(s + "\n", "%f %f\n", &x, &y)
if err == nil {
err := mouse.Move(int32(x), int32(y))
if err != nil {
warn(err.Error())
}
} else {
warn("invalid coordinate: " + sc.Text())
}
} else {
warn("unknown command: " + sc.Text())
}
}
if sc.Err() != nil {
fatal(sc.Err().Error())
}
}