func mkStyle(fg, bg Attribute) tcell.Style {
st := tcell.StyleDefault
f := int(fg) & 0x1ff
b := int(bg) & 0x1ff
switch outMode {
case Output256:
break
case Output216:
if f > 216 {
f = int(ColorDefault)
} else if f != int(ColorDefault) {
f += 16
}
if b > 216 {
b = int(ColorDefault)
} else if b != int(ColorDefault) {
b += 16
}
case OutputGrayscale:
if f > 24 {
f = int(ColorDefault)
} else if f != int(ColorDefault) {
f += 232
}
if b > 24 {
b = int(ColorDefault)
} else if b != int(ColorDefault) {
b += 232
}
case OutputNormal:
f &= 0xf
b &= 0xf
}
st = st.Foreground(tcell.Color(f))
st = st.Background(tcell.Color(b))
if (fg&AttrBold != 0) || (bg&AttrBold != 0) {
st = st.Bold(true)
}
if (fg&AttrUnderline != 0) || (bg&AttrUnderline != 0) {
st = st.Underline(true)
}
if (fg&AttrReverse != 0) || (bg&AttrReverse != 0) {
st = st.Reverse(true)
}
return st
}
func makebox(s tcell.Screen) {
w, h := s.Size()
if w == 0 || h == 0 {
return
}
glyphs := []rune{'@', '#', '&', '*', '=', '%', 'Z', 'A'}
lx := rand.Int() % w
ly := rand.Int() % h
lw := rand.Int() % (w - lx)
lh := rand.Int() % (h - ly)
st := tcell.StyleDefault
gl := ' '
if s.Colors() > 256 {
rgb := tcell.NewHexColor(int32(rand.Int() & 0xffffff))
st = st.Background(rgb)
} else if s.Colors() > 1 {
st = st.Background(tcell.Color(rand.Int() % s.Colors()))
} else {
st = st.Reverse(rand.Int()%2 == 0)
gl = glyphs[rand.Int()%len(glyphs)]
}
for row := 0; row < lh; row++ {
for col := 0; col < lw; col++ {
s.SetCell(lx+col, ly+row, st, gl)
}
}
s.Show()
}
func mkStyle(fg, bg Attribute) tcell.Style {
st := tcell.StyleDefault
f := tcell.Color(int(fg)&0x1ff) - 1
b := tcell.Color(int(bg)&0x1ff) - 1
f = fixColor(f)
b = fixColor(b)
st = st.Foreground(f).Background(b)
if (fg|bg)&AttrBold != 0 {
st = st.Bold(true)
}
if (fg|bg)&AttrUnderline != 0 {
st = st.Underline(true)
}
if (fg|bg)&AttrReverse != 0 {
st = st.Reverse(true)
}
return st
}
func fixColor(c tcell.Color) tcell.Color {
if c == tcell.ColorDefault {
return c
}
switch outMode {
case OutputNormal:
c %= tcell.Color(16)
case Output256:
c %= tcell.Color(256)
case Output216:
c %= tcell.Color(216)
c += tcell.Color(16)
case OutputGrayscale:
c %= tcell.Color(24)
c += tcell.Color(232)
default:
c = tcell.ColorDefault
}
return c
}
// This program just shows simple mouse and keyboard events. Press ESC twice to
// exit.
func main() {
encoding.Register()
s, e := tcell.NewScreen()
if e != nil {
fmt.Fprintf(os.Stderr, "%v\n", e)
os.Exit(1)
}
if e := s.Init(); e != nil {
fmt.Fprintf(os.Stderr, "%v\n", e)
os.Exit(1)
}
defStyle = tcell.StyleDefault.
Background(tcell.ColorBlack).
Foreground(tcell.ColorWhite)
s.SetStyle(defStyle)
s.EnableMouse()
s.Clear()
posfmt := "Mouse: %d, %d "
btnfmt := "Buttons: %s"
keyfmt := "Keys: %s"
white := tcell.StyleDefault.
Foreground(tcell.ColorBrightWhite).Background(tcell.ColorRed)
mx, my := -1, -1
ox, oy := -1, -1
bx, by := -1, -1
w, h := s.Size()
lchar := '*'
bstr := ""
lks := ""
ecnt := 0
for {
drawBox(s, 1, 1, 42, 6, white, ' ')
emitStr(s, 2, 2, white, "Press ESC twice to exit, C to clear.")
emitStr(s, 2, 3, white, fmt.Sprintf(posfmt, mx, my))
emitStr(s, 2, 4, white, fmt.Sprintf(btnfmt, bstr))
emitStr(s, 2, 5, white, fmt.Sprintf(keyfmt, lks))
s.Show()
bstr = ""
ev := s.PollEvent()
st := tcell.StyleDefault.Background(tcell.ColorBrightRed)
up := tcell.StyleDefault.
Background(tcell.ColorBrightBlue).
Foreground(tcell.ColorBrightGreen)
w, h = s.Size()
// always clear any old selection box
if ox >= 0 && oy >= 0 && bx >= 0 {
drawSelect(s, ox, oy, bx, by, false)
}
switch ev := ev.(type) {
case *tcell.EventResize:
s.Sync()
s.SetCell(w-1, h-1, st, 'R')
case *tcell.EventKey:
s.SetCell(w-2, h-2, st, ev.Rune())
s.SetCell(w-1, h-1, st, 'K')
if ev.Key() == tcell.KeyEscape {
ecnt++
if ecnt > 1 {
s.Fini()
os.Exit(0)
}
} else {
ecnt = 0
if ev.Rune() == 'C' || ev.Rune() == 'c' {
s.Clear()
}
}
lks = ev.Name()
case *tcell.EventMouse:
x, y := ev.Position()
button := ev.Buttons()
for i := uint(0); i < 8; i++ {
if int(button)&(1<<i) != 0 {
bstr += fmt.Sprintf(" Button%d", i+1)
}
}
if button&tcell.WheelUp != 0 {
bstr += " WheelUp"
}
if button&tcell.WheelDown != 0 {
bstr += " WheelDown"
}
if button&tcell.WheelLeft != 0 {
bstr += " WheelLeft"
}
if button&tcell.WheelRight != 0 {
bstr += " WheelRight"
}
// Only buttons, not wheel events
button &= tcell.ButtonMask(0xff)
ch := '*'
if button != tcell.ButtonNone && ox < 0 {
ox, oy = x, y
}
switch ev.Buttons() {
case tcell.ButtonNone:
if ox >= 0 {
bg := tcell.Color((lchar-'0')*2 + 1)
drawBox(s, ox, oy, x, y,
up.Background(bg),
lchar)
ox, oy = -1, -1
bx, by = -1, -1
}
case tcell.Button1:
ch = '1'
case tcell.Button2:
ch = '2'
case tcell.Button3:
ch = '3'
case tcell.Button4:
ch = '4'
case tcell.Button5:
ch = '5'
case tcell.Button6:
ch = '6'
case tcell.Button7:
ch = '7'
case tcell.Button8:
ch = '8'
default:
ch = '*'
}
if button != tcell.ButtonNone {
bx, by = x, y
}
lchar = ch
s.SetCell(w-1, h-1, st, 'M')
mx, my = x, y
default:
s.SetCell(w-1, h-1, st, 'X')
}
if ox >= 0 && bx >= 0 {
drawSelect(s, ox, oy, bx, by, true)
}
}
}
