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console_win.go
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console_win.go
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//go:build windows
// +build windows
// Copyright 2024 The TCell Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use file except in compliance with the License.
// You may obtain a copy of the license at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package tcell
import (
"errors"
"fmt"
"os"
"strings"
"sync"
"syscall"
"unicode/utf16"
"unsafe"
)
type cScreen struct {
in syscall.Handle
out syscall.Handle
cancelflag syscall.Handle
scandone chan struct{}
quit chan struct{}
curx int
cury int
style Style
fini bool
vten bool
truecolor bool
running bool
disableAlt bool // disable the alternate screen
title string
w int
h int
oscreen consoleInfo
ocursor cursorInfo
cursorStyle CursorStyle
cursorColor Color
oimode uint32
oomode uint32
cells CellBuffer
focusEnable bool
mouseEnabled bool
wg sync.WaitGroup
eventQ chan Event
stopQ chan struct{}
finiOnce sync.Once
sync.Mutex
}
var winLock sync.Mutex
var winPalette = []Color{
ColorBlack,
ColorMaroon,
ColorGreen,
ColorNavy,
ColorOlive,
ColorPurple,
ColorTeal,
ColorSilver,
ColorGray,
ColorRed,
ColorLime,
ColorBlue,
ColorYellow,
ColorFuchsia,
ColorAqua,
ColorWhite,
}
var winColors = map[Color]Color{
ColorBlack: ColorBlack,
ColorMaroon: ColorMaroon,
ColorGreen: ColorGreen,
ColorNavy: ColorNavy,
ColorOlive: ColorOlive,
ColorPurple: ColorPurple,
ColorTeal: ColorTeal,
ColorSilver: ColorSilver,
ColorGray: ColorGray,
ColorRed: ColorRed,
ColorLime: ColorLime,
ColorBlue: ColorBlue,
ColorYellow: ColorYellow,
ColorFuchsia: ColorFuchsia,
ColorAqua: ColorAqua,
ColorWhite: ColorWhite,
}
var (
k32 = syscall.NewLazyDLL("kernel32.dll")
u32 = syscall.NewLazyDLL("user32.dll")
)
// We have to bring in the kernel32 and user32 DLLs directly, so we can get
// access to some system calls that the core Go API lacks.
//
// Note that Windows appends some functions with W to indicate that wide
// characters (Unicode) are in use. The documentation refers to them
// without this suffix, as the resolution is made via preprocessor.
var (
procReadConsoleInput = k32.NewProc("ReadConsoleInputW")
procWaitForMultipleObjects = k32.NewProc("WaitForMultipleObjects")
procCreateEvent = k32.NewProc("CreateEventW")
procSetEvent = k32.NewProc("SetEvent")
procGetConsoleCursorInfo = k32.NewProc("GetConsoleCursorInfo")
procSetConsoleCursorInfo = k32.NewProc("SetConsoleCursorInfo")
procSetConsoleCursorPosition = k32.NewProc("SetConsoleCursorPosition")
procSetConsoleMode = k32.NewProc("SetConsoleMode")
procGetConsoleMode = k32.NewProc("GetConsoleMode")
procGetConsoleScreenBufferInfo = k32.NewProc("GetConsoleScreenBufferInfo")
procFillConsoleOutputAttribute = k32.NewProc("FillConsoleOutputAttribute")
procFillConsoleOutputCharacter = k32.NewProc("FillConsoleOutputCharacterW")
procSetConsoleWindowInfo = k32.NewProc("SetConsoleWindowInfo")
procSetConsoleScreenBufferSize = k32.NewProc("SetConsoleScreenBufferSize")
procSetConsoleTextAttribute = k32.NewProc("SetConsoleTextAttribute")
procGetLargestConsoleWindowSize = k32.NewProc("GetLargestConsoleWindowSize")
procMessageBeep = u32.NewProc("MessageBeep")
)
const (
w32Infinite = ^uintptr(0)
w32WaitObject0 = uintptr(0)
)
const (
// VT100/XTerm escapes understood by the console
vtShowCursor = "\x1b[?25h"
vtHideCursor = "\x1b[?25l"
vtCursorPos = "\x1b[%d;%dH" // Note that it is Y then X
vtSgr0 = "\x1b[0m"
vtBold = "\x1b[1m"
vtUnderline = "\x1b[4m"
vtBlink = "\x1b[5m" // Not sure if this is processed
vtReverse = "\x1b[7m"
vtSetFg = "\x1b[38;5;%dm"
vtSetBg = "\x1b[48;5;%dm"
vtSetFgRGB = "\x1b[38;2;%d;%d;%dm" // RGB
vtSetBgRGB = "\x1b[48;2;%d;%d;%dm" // RGB
vtCursorDefault = "\x1b[0 q"
vtCursorBlinkingBlock = "\x1b[1 q"
vtCursorSteadyBlock = "\x1b[2 q"
vtCursorBlinkingUnderline = "\x1b[3 q"
vtCursorSteadyUnderline = "\x1b[4 q"
vtCursorBlinkingBar = "\x1b[5 q"
vtCursorSteadyBar = "\x1b[6 q"
vtDisableAm = "\x1b[?7l"
vtEnableAm = "\x1b[?7h"
vtEnterCA = "\x1b[?1049h\x1b[22;0;0t"
vtExitCA = "\x1b[?1049l\x1b[23;0;0t"
vtDoubleUnderline = "\x1b[4:2m"
vtCurlyUnderline = "\x1b[4:3m"
vtDottedUnderline = "\x1b[4:4m"
vtDashedUnderline = "\x1b[4:5m"
vtUnderColor = "\x1b[58:5:%dm"
vtUnderColorRGB = "\x1b[58:2::%d:%d:%dm"
vtUnderColorReset = "\x1b[59m"
vtEnterUrl = "\x1b]8;%s;%s\x1b\\" // NB arg 1 is id, arg 2 is url
vtExitUrl = "\x1b]8;;\x1b\\"
vtCursorColorRGB = "\x1b]12;#%02x%02x%02x\007"
vtCursorColorReset = "\x1b]112\007"
vtSaveTitle = "\x1b[22;2t"
vtRestoreTitle = "\x1b[23;2t"
vtSetTitle = "\x1b]2;%s\x1b\\"
)
var vtCursorStyles = map[CursorStyle]string{
CursorStyleDefault: vtCursorDefault,
CursorStyleBlinkingBlock: vtCursorBlinkingBlock,
CursorStyleSteadyBlock: vtCursorSteadyBlock,
CursorStyleBlinkingUnderline: vtCursorBlinkingUnderline,
CursorStyleSteadyUnderline: vtCursorSteadyUnderline,
CursorStyleBlinkingBar: vtCursorBlinkingBar,
CursorStyleSteadyBar: vtCursorSteadyBar,
}
// NewConsoleScreen returns a Screen for the Windows console associated
// with the current process. The Screen makes use of the Windows Console
// API to display content and read events.
func NewConsoleScreen() (Screen, error) {
return &baseScreen{screenImpl: &cScreen{}}, nil
}
func (s *cScreen) Init() error {
s.eventQ = make(chan Event, 10)
s.quit = make(chan struct{})
s.scandone = make(chan struct{})
in, e := syscall.Open("CONIN$", syscall.O_RDWR, 0)
if e != nil {
return e
}
s.in = in
out, e := syscall.Open("CONOUT$", syscall.O_RDWR, 0)
if e != nil {
_ = syscall.Close(s.in)
return e
}
s.out = out
s.truecolor = true
// ConEmu handling of colors and scrolling when in VT output mode is extremely poor.
// The color palette will scroll even though characters do not, when
// emitting stuff for the last character. In the future we might change this to
// look at specific versions of ConEmu if they fix the bug.
// We can also try disabling auto margin mode.
tryVt := true
if os.Getenv("ConEmuPID") != "" {
s.truecolor = false
tryVt = false
}
switch os.Getenv("TCELL_TRUECOLOR") {
case "disable":
s.truecolor = false
case "enable":
s.truecolor = true
tryVt = true
}
s.Lock()
s.curx = -1
s.cury = -1
s.style = StyleDefault
s.getCursorInfo(&s.ocursor)
s.getConsoleInfo(&s.oscreen)
s.getOutMode(&s.oomode)
s.getInMode(&s.oimode)
s.resize()
s.fini = false
s.setInMode(modeResizeEn | modeExtendFlg)
// If a user needs to force old style console, they may do so
// by setting TCELL_VTMODE to disable. This is an undocumented safety net for now.
// It may be removed in the future. (This mostly exists because of ConEmu.)
switch os.Getenv("TCELL_VTMODE") {
case "disable":
tryVt = false
case "enable":
tryVt = true
}
switch os.Getenv("TCELL_ALTSCREEN") {
case "enable":
s.disableAlt = false // also the default
case "disable":
s.disableAlt = true
}
if tryVt {
s.setOutMode(modeVtOutput | modeNoAutoNL | modeCookedOut | modeUnderline)
var om uint32
s.getOutMode(&om)
if om&modeVtOutput == modeVtOutput {
s.vten = true
} else {
s.truecolor = false
s.setOutMode(0)
}
} else {
s.setOutMode(0)
}
s.Unlock()
return s.engage()
}
func (s *cScreen) CharacterSet() string {
// We are always UTF-16LE on Windows
return "UTF-16LE"
}
func (s *cScreen) EnableMouse(...MouseFlags) {
s.Lock()
s.mouseEnabled = true
s.enableMouse(true)
s.Unlock()
}
func (s *cScreen) DisableMouse() {
s.Lock()
s.mouseEnabled = false
s.enableMouse(false)
s.Unlock()
}
func (s *cScreen) enableMouse(on bool) {
if on {
s.setInMode(modeResizeEn | modeMouseEn | modeExtendFlg)
} else {
s.setInMode(modeResizeEn | modeExtendFlg)
}
}
// Windows lacks bracketed paste (for now)
func (s *cScreen) EnablePaste() {}
func (s *cScreen) DisablePaste() {}
func (s *cScreen) EnableFocus() {
s.Lock()
s.focusEnable = true
s.Unlock()
}
func (s *cScreen) DisableFocus() {
s.Lock()
s.focusEnable = false
s.Unlock()
}
func (s *cScreen) Fini() {
s.finiOnce.Do(func() {
close(s.quit)
s.disengage()
})
}
func (s *cScreen) disengage() {
s.Lock()
if !s.running {
s.Unlock()
return
}
s.running = false
stopQ := s.stopQ
_, _, _ = procSetEvent.Call(uintptr(s.cancelflag))
close(stopQ)
s.Unlock()
s.wg.Wait()
if s.vten {
s.emitVtString(vtCursorStyles[CursorStyleDefault])
s.emitVtString(vtCursorColorReset)
s.emitVtString(vtEnableAm)
if !s.disableAlt {
s.emitVtString(vtRestoreTitle)
s.emitVtString(vtExitCA)
}
} else if !s.disableAlt {
s.clearScreen(StyleDefault, s.vten)
s.setCursorPos(0, 0, false)
}
s.setCursorInfo(&s.ocursor)
s.setBufferSize(int(s.oscreen.size.x), int(s.oscreen.size.y))
s.setInMode(s.oimode)
s.setOutMode(s.oomode)
_, _, _ = procSetConsoleTextAttribute.Call(
uintptr(s.out),
uintptr(s.mapStyle(StyleDefault)))
}
func (s *cScreen) engage() error {
s.Lock()
defer s.Unlock()
if s.running {
return errors.New("already engaged")
}
s.stopQ = make(chan struct{})
cf, _, e := procCreateEvent.Call(
uintptr(0),
uintptr(1),
uintptr(0),
uintptr(0))
if cf == uintptr(0) {
return e
}
s.running = true
s.cancelflag = syscall.Handle(cf)
s.enableMouse(s.mouseEnabled)
if s.vten {
s.setOutMode(modeVtOutput | modeNoAutoNL | modeCookedOut | modeUnderline)
if !s.disableAlt {
s.emitVtString(vtSaveTitle)
s.emitVtString(vtEnterCA)
}
s.emitVtString(vtDisableAm)
if s.title != "" {
s.emitVtString(fmt.Sprintf(vtSetTitle, s.title))
}
} else {
s.setOutMode(0)
}
s.clearScreen(s.style, s.vten)
s.hideCursor()
s.cells.Invalidate()
s.hideCursor()
s.resize()
s.draw()
s.doCursor()
s.wg.Add(1)
go s.scanInput(s.stopQ)
return nil
}
type cursorInfo struct {
size uint32
visible uint32
}
type coord struct {
x int16
y int16
}
func (c coord) uintptr() uintptr {
// little endian, put x first
return uintptr(c.x) | (uintptr(c.y) << 16)
}
type rect struct {
left int16
top int16
right int16
bottom int16
}
func (s *cScreen) emitVtString(vs string) {
esc := utf16.Encode([]rune(vs))
_ = syscall.WriteConsole(s.out, &esc[0], uint32(len(esc)), nil, nil)
}
func (s *cScreen) showCursor() {
if s.vten {
s.emitVtString(vtShowCursor)
s.emitVtString(vtCursorStyles[s.cursorStyle])
if s.cursorColor == ColorReset {
s.emitVtString(vtCursorColorReset)
} else if s.cursorColor.Valid() {
r, g, b := s.cursorColor.RGB()
s.emitVtString(fmt.Sprintf(vtCursorColorRGB, r, g, b))
}
} else {
s.setCursorInfo(&cursorInfo{size: 100, visible: 1})
}
}
func (s *cScreen) hideCursor() {
if s.vten {
s.emitVtString(vtHideCursor)
} else {
s.setCursorInfo(&cursorInfo{size: 1, visible: 0})
}
}
func (s *cScreen) ShowCursor(x, y int) {
s.Lock()
if !s.fini {
s.curx = x
s.cury = y
}
s.doCursor()
s.Unlock()
}
func (s *cScreen) SetCursor(cs CursorStyle, cc Color) {
s.Lock()
if !s.fini {
if _, ok := vtCursorStyles[cs]; ok {
s.cursorStyle = cs
s.cursorColor = cc
s.doCursor()
}
}
s.Unlock()
}
func (s *cScreen) doCursor() {
x, y := s.curx, s.cury
if x < 0 || y < 0 || x >= s.w || y >= s.h {
s.hideCursor()
} else {
s.setCursorPos(x, y, s.vten)
s.showCursor()
}
}
func (s *cScreen) HideCursor() {
s.ShowCursor(-1, -1)
}
type inputRecord struct {
typ uint16
_ uint16
data [16]byte
}
const (
keyEvent uint16 = 1
mouseEvent uint16 = 2
resizeEvent uint16 = 4
menuEvent uint16 = 8 // don't use
focusEvent uint16 = 16
)
type mouseRecord struct {
x int16
y int16
btns uint32
mod uint32
flags uint32
}
type focusRecord struct {
focused int32 // actually BOOL
}
const (
mouseHWheeled uint32 = 0x8
mouseVWheeled uint32 = 0x4
// mouseDoubleClick uint32 = 0x2
// mouseMoved uint32 = 0x1
)
type resizeRecord struct {
x int16
y int16
}
type keyRecord struct {
isdown int32
repeat uint16
kcode uint16
scode uint16
ch uint16
mod uint32
}
const (
// Constants per Microsoft. We don't put the modifiers
// here.
vkCancel = 0x03
vkBack = 0x08 // Backspace
vkTab = 0x09
vkClear = 0x0c
vkReturn = 0x0d
vkPause = 0x13
vkEscape = 0x1b
vkSpace = 0x20
vkPrior = 0x21 // PgUp
vkNext = 0x22 // PgDn
vkEnd = 0x23
vkHome = 0x24
vkLeft = 0x25
vkUp = 0x26
vkRight = 0x27
vkDown = 0x28
vkPrint = 0x2a
vkPrtScr = 0x2c
vkInsert = 0x2d
vkDelete = 0x2e
vkHelp = 0x2f
vkF1 = 0x70
vkF2 = 0x71
vkF3 = 0x72
vkF4 = 0x73
vkF5 = 0x74
vkF6 = 0x75
vkF7 = 0x76
vkF8 = 0x77
vkF9 = 0x78
vkF10 = 0x79
vkF11 = 0x7a
vkF12 = 0x7b
vkF13 = 0x7c
vkF14 = 0x7d
vkF15 = 0x7e
vkF16 = 0x7f
vkF17 = 0x80
vkF18 = 0x81
vkF19 = 0x82
vkF20 = 0x83
vkF21 = 0x84
vkF22 = 0x85
vkF23 = 0x86
vkF24 = 0x87
)
var vkKeys = map[uint16]Key{
vkCancel: KeyCancel,
vkBack: KeyBackspace,
vkTab: KeyTab,
vkClear: KeyClear,
vkPause: KeyPause,
vkPrint: KeyPrint,
vkPrtScr: KeyPrint,
vkPrior: KeyPgUp,
vkNext: KeyPgDn,
vkReturn: KeyEnter,
vkEnd: KeyEnd,
vkHome: KeyHome,
vkLeft: KeyLeft,
vkUp: KeyUp,
vkRight: KeyRight,
vkDown: KeyDown,
vkInsert: KeyInsert,
vkDelete: KeyDelete,
vkHelp: KeyHelp,
vkEscape: KeyEscape,
vkSpace: ' ',
vkF1: KeyF1,
vkF2: KeyF2,
vkF3: KeyF3,
vkF4: KeyF4,
vkF5: KeyF5,
vkF6: KeyF6,
vkF7: KeyF7,
vkF8: KeyF8,
vkF9: KeyF9,
vkF10: KeyF10,
vkF11: KeyF11,
vkF12: KeyF12,
vkF13: KeyF13,
vkF14: KeyF14,
vkF15: KeyF15,
vkF16: KeyF16,
vkF17: KeyF17,
vkF18: KeyF18,
vkF19: KeyF19,
vkF20: KeyF20,
vkF21: KeyF21,
vkF22: KeyF22,
vkF23: KeyF23,
vkF24: KeyF24,
}
// NB: All Windows platforms are little endian. We assume this
// never, ever change. The following code is endian safe. and does
// not use unsafe pointers.
func getu32(v []byte) uint32 {
return uint32(v[0]) + (uint32(v[1]) << 8) + (uint32(v[2]) << 16) + (uint32(v[3]) << 24)
}
func geti32(v []byte) int32 {
return int32(getu32(v))
}
func getu16(v []byte) uint16 {
return uint16(v[0]) + (uint16(v[1]) << 8)
}
func geti16(v []byte) int16 {
return int16(getu16(v))
}
// Convert windows dwControlKeyState to modifier mask
func mod2mask(cks uint32) ModMask {
mm := ModNone
// Left or right control
ctrl := (cks & (0x0008 | 0x0004)) != 0
// Left or right alt
alt := (cks & (0x0002 | 0x0001)) != 0
// Filter out ctrl+alt (it means AltGr)
if !(ctrl && alt) {
if ctrl {
mm |= ModCtrl
}
if alt {
mm |= ModAlt
}
}
// Any shift
if (cks & 0x0010) != 0 {
mm |= ModShift
}
return mm
}
func mrec2btns(mbtns, flags uint32) ButtonMask {
btns := ButtonNone
if mbtns&0x1 != 0 {
btns |= Button1
}
if mbtns&0x2 != 0 {
btns |= Button2
}
if mbtns&0x4 != 0 {
btns |= Button3
}
if mbtns&0x8 != 0 {
btns |= Button4
}
if mbtns&0x10 != 0 {
btns |= Button5
}
if mbtns&0x20 != 0 {
btns |= Button6
}
if mbtns&0x40 != 0 {
btns |= Button7
}
if mbtns&0x80 != 0 {
btns |= Button8
}
if flags&mouseVWheeled != 0 {
if mbtns&0x80000000 == 0 {
btns |= WheelUp
} else {
btns |= WheelDown
}
}
if flags&mouseHWheeled != 0 {
if mbtns&0x80000000 == 0 {
btns |= WheelRight
} else {
btns |= WheelLeft
}
}
return btns
}
func (s *cScreen) postEvent(ev Event) {
select {
case s.eventQ <- ev:
case <-s.quit:
}
}
func (s *cScreen) getConsoleInput() error {
// cancelFlag comes first as WaitForMultipleObjects returns the lowest index
// in the event that both events are signalled.
waitObjects := []syscall.Handle{s.cancelflag, s.in}
// As arrays are contiguous in memory, a pointer to the first object is the
// same as a pointer to the array itself.
pWaitObjects := unsafe.Pointer(&waitObjects[0])
rv, _, er := procWaitForMultipleObjects.Call(
uintptr(len(waitObjects)),
uintptr(pWaitObjects),
uintptr(0),
w32Infinite)
// WaitForMultipleObjects returns WAIT_OBJECT_0 + the index.
switch rv {
case w32WaitObject0: // s.cancelFlag
return errors.New("cancelled")
case w32WaitObject0 + 1: // s.in
rec := &inputRecord{}
var nrec int32
rv, _, er := procReadConsoleInput.Call(
uintptr(s.in),
uintptr(unsafe.Pointer(rec)),
uintptr(1),
uintptr(unsafe.Pointer(&nrec)))
if rv == 0 {
return er
}
if nrec != 1 {
return nil
}
switch rec.typ {
case keyEvent:
krec := &keyRecord{}
krec.isdown = geti32(rec.data[0:])
krec.repeat = getu16(rec.data[4:])
krec.kcode = getu16(rec.data[6:])
krec.scode = getu16(rec.data[8:])
krec.ch = getu16(rec.data[10:])
krec.mod = getu32(rec.data[12:])
if krec.isdown == 0 || krec.repeat < 1 {
// it's a key release event, ignore it
return nil
}
if krec.ch != 0 {
// synthesized key code
for krec.repeat > 0 {
// convert shift+tab to backtab
if mod2mask(krec.mod) == ModShift && krec.ch == vkTab {
s.postEvent(NewEventKey(KeyBacktab, 0, ModNone))
} else {
s.postEvent(NewEventKey(KeyRune, rune(krec.ch), mod2mask(krec.mod)))
}
krec.repeat--
}
return nil
}
key := KeyNUL // impossible on Windows
ok := false
if key, ok = vkKeys[krec.kcode]; !ok {
return nil
}
for krec.repeat > 0 {
s.postEvent(NewEventKey(key, rune(krec.ch), mod2mask(krec.mod)))
krec.repeat--
}
case mouseEvent:
var mrec mouseRecord
mrec.x = geti16(rec.data[0:])
mrec.y = geti16(rec.data[2:])
mrec.btns = getu32(rec.data[4:])
mrec.mod = getu32(rec.data[8:])
mrec.flags = getu32(rec.data[12:])
btns := mrec2btns(mrec.btns, mrec.flags)
// we ignore double click, events are delivered normally
s.postEvent(NewEventMouse(int(mrec.x), int(mrec.y), btns, mod2mask(mrec.mod)))
case resizeEvent:
var rrec resizeRecord
rrec.x = geti16(rec.data[0:])
rrec.y = geti16(rec.data[2:])
s.postEvent(NewEventResize(int(rrec.x), int(rrec.y)))
case focusEvent:
var focus focusRecord
focus.focused = geti32(rec.data[0:])
s.Lock()
enabled := s.focusEnable
s.Unlock()
if enabled {
s.postEvent(NewEventFocus(focus.focused != 0))
}
default:
}
default:
return er
}
return nil
}
func (s *cScreen) scanInput(stopQ chan struct{}) {
defer s.wg.Done()
for {
select {
case <-stopQ:
return
default:
}
if e := s.getConsoleInput(); e != nil {
return
}
}
}
func (s *cScreen) Colors() int {
if s.vten {
return 1 << 24
}
// Windows console can display 8 colors, in either low or high intensity
return 16
}
var vgaColors = map[Color]uint16{
ColorBlack: 0,
ColorMaroon: 0x4,
ColorGreen: 0x2,
ColorNavy: 0x1,
ColorOlive: 0x6,
ColorPurple: 0x5,
ColorTeal: 0x3,
ColorSilver: 0x7,
ColorGrey: 0x8,
ColorRed: 0xc,
ColorLime: 0xa,
ColorBlue: 0x9,
ColorYellow: 0xe,
ColorFuchsia: 0xd,
ColorAqua: 0xb,
ColorWhite: 0xf,
}
// Windows uses RGB signals
func mapColor2RGB(c Color) uint16 {
winLock.Lock()
if v, ok := winColors[c]; ok {
c = v
} else {
v = FindColor(c, winPalette)
winColors[c] = v
c = v
}
winLock.Unlock()
if vc, ok := vgaColors[c]; ok {
return vc
}
return 0
}
// Map a tcell style to Windows attributes
func (s *cScreen) mapStyle(style Style) uint16 {
f, b, a := style.fg, style.bg, style.attrs
fa := s.oscreen.attrs & 0xf
ba := (s.oscreen.attrs) >> 4 & 0xf
if f != ColorDefault && f != ColorReset {
fa = mapColor2RGB(f)
}
if b != ColorDefault && b != ColorReset {
ba = mapColor2RGB(b)
}
var attr uint16
// We simulate reverse by doing the color swap ourselves.
// Apparently windows cannot really do this except in DBCS
// views.
if a&AttrReverse != 0 {
attr = ba
attr |= fa << 4
} else {
attr = fa
attr |= ba << 4
}
if a&AttrBold != 0 {
attr |= 0x8
}
if a&AttrDim != 0 {
attr &^= 0x8
}
if a&AttrUnderline != 0 {
// Best effort -- doesn't seem to work though.
attr |= 0x8000
}
// Blink is unsupported
return attr
}
func (s *cScreen) sendVtStyle(style Style) {
esc := &strings.Builder{}
fg, bg, attrs := style.fg, style.bg, style.attrs
us, uc := style.ulStyle, style.ulColor
esc.WriteString(vtSgr0)
if attrs&(AttrBold|AttrDim) == AttrBold {
esc.WriteString(vtBold)
}
if attrs&AttrBlink != 0 {
esc.WriteString(vtBlink)
}
if us != UnderlineStyleNone {
if uc == ColorReset {
esc.WriteString(vtUnderColorReset)
} else if uc.IsRGB() {
r, g, b := uc.RGB()
_, _ = fmt.Fprintf(esc, vtUnderColorRGB, int(r), int(g), int(b))
} else if uc.Valid() {
_, _ = fmt.Fprintf(esc, vtUnderColor, uc&0xff)
}
esc.WriteString(vtUnderline)
// legacy ConHost does not understand these but Terminal does
switch us {
case UnderlineStyleSolid:
case UnderlineStyleDouble:
esc.WriteString(vtDoubleUnderline)
case UnderlineStyleCurly:
esc.WriteString(vtCurlyUnderline)
case UnderlineStyleDotted:
esc.WriteString(vtDottedUnderline)
case UnderlineStyleDashed:
esc.WriteString(vtDashedUnderline)
}
}
if attrs&AttrReverse != 0 {
esc.WriteString(vtReverse)
}
if fg.IsRGB() {
r, g, b := fg.RGB()
_, _ = fmt.Fprintf(esc, vtSetFgRGB, r, g, b)
} else if fg.Valid() {
_, _ = fmt.Fprintf(esc, vtSetFg, fg&0xff)
}
if bg.IsRGB() {
r, g, b := bg.RGB()
_, _ = fmt.Fprintf(esc, vtSetBgRGB, r, g, b)
} else if bg.Valid() {
_, _ = fmt.Fprintf(esc, vtSetBg, bg&0xff)
}
// URL string can be long, so don't send it unless we really need to
if style.url != "" {
_, _ = fmt.Fprintf(esc, vtEnterUrl, style.urlId, style.url)
} else {
esc.WriteString(vtExitUrl)
}