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tscreen.go
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tscreen.go
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// 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.
//go:build !(js && wasm)
// +build !js !wasm
package tcell
import (
"bytes"
"encoding/base64"
"errors"
"io"
"os"
"strconv"
"strings"
"sync"
"time"
"unicode/utf8"
"golang.org/x/term"
"golang.org/x/text/transform"
"github.com/gdamore/tcell/v2/terminfo"
)
// NewTerminfoScreen returns a Screen that uses the stock TTY interface
// and POSIX terminal control, combined with a terminfo description taken from
// the $TERM environment variable. It returns an error if the terminal
// is not supported for any reason.
//
// For terminals that do not support dynamic resize events, the $LINES
// $COLUMNS environment variables can be set to the actual window size,
// otherwise defaults taken from the terminal database are used.
func NewTerminfoScreen() (Screen, error) {
return NewTerminfoScreenFromTty(nil)
}
// LookupTerminfo attempts to find a definition for the named $TERM falling
// back to attempting to parse the output from infocmp.
func LookupTerminfo(name string) (ti *terminfo.Terminfo, e error) {
ti, e = terminfo.LookupTerminfo(name)
if e != nil {
ti, e = loadDynamicTerminfo(name)
if e != nil {
return nil, e
}
terminfo.AddTerminfo(ti)
}
return
}
// NewTerminfoScreenFromTtyTerminfo returns a Screen using a custom Tty
// implementation and custom terminfo specification.
// If the passed in tty is nil, then a reasonable default (typically /dev/tty)
// is presumed, at least on UNIX hosts. (Windows hosts will typically fail this
// call altogether.)
// If passed terminfo is nil, then TERM environment variable is queried for
// terminal specification.
func NewTerminfoScreenFromTtyTerminfo(tty Tty, ti *terminfo.Terminfo) (s Screen, e error) {
if ti == nil {
ti, e = LookupTerminfo(os.Getenv("TERM"))
if e != nil {
return
}
}
t := &tScreen{ti: ti, tty: tty}
t.keyexist = make(map[Key]bool)
t.keycodes = make(map[string]*tKeyCode)
if len(ti.Mouse) > 0 {
t.mouse = []byte(ti.Mouse)
}
t.prepareKeys()
t.buildAcsMap()
t.resizeQ = make(chan bool, 1)
t.fallback = make(map[rune]string)
for k, v := range RuneFallbacks {
t.fallback[k] = v
}
return &baseScreen{screenImpl: t}, nil
}
// NewTerminfoScreenFromTty returns a Screen using a custom Tty implementation.
// If the passed in tty is nil, then a reasonable default (typically /dev/tty)
// is presumed, at least on UNIX hosts. (Windows hosts will typically fail this
// call altogether.)
func NewTerminfoScreenFromTty(tty Tty) (Screen, error) {
return NewTerminfoScreenFromTtyTerminfo(tty, nil)
}
// tKeyCode represents a combination of a key code and modifiers.
type tKeyCode struct {
key Key
mod ModMask
}
// tScreen represents a screen backed by a terminfo implementation.
type tScreen struct {
ti *terminfo.Terminfo
tty Tty
h int
w int
fini bool
cells CellBuffer
buffering bool // true if we are collecting writes to buf instead of sending directly to out
buf bytes.Buffer
curstyle Style
style Style
resizeQ chan bool
quit chan struct{}
keyexist map[Key]bool
keycodes map[string]*tKeyCode
keychan chan []byte
keytimer *time.Timer
keyexpire time.Time
cx int
cy int
mouse []byte
clear bool
cursorx int
cursory int
acs map[rune]string
charset string
encoder transform.Transformer
decoder transform.Transformer
fallback map[rune]string
colors map[Color]Color
palette []Color
truecolor bool
escaped bool
buttondn bool
finiOnce sync.Once
enablePaste string
disablePaste string
enterUrl string
exitUrl string
setWinSize string
enableFocus string
disableFocus string
doubleUnder string
curlyUnder string
dottedUnder string
dashedUnder string
underColor string
underRGB string
underFg string
cursorStyles map[CursorStyle]string
cursorStyle CursorStyle
cursorColor Color
cursorRGB string
cursorFg string
saved *term.State
stopQ chan struct{}
eventQ chan Event
running bool
wg sync.WaitGroup
mouseFlags MouseFlags
pasteEnabled bool
focusEnabled bool
setTitle string
saveTitle string
restoreTitle string
title string
setClipboard string
sync.Mutex
}
func (t *tScreen) Init() error {
if e := t.initialize(); e != nil {
return e
}
t.keychan = make(chan []byte, 10)
t.keytimer = time.NewTimer(time.Millisecond * 50)
t.charset = "UTF-8"
t.charset = getCharset()
if enc := GetEncoding(t.charset); enc != nil {
t.encoder = enc.NewEncoder()
t.decoder = enc.NewDecoder()
} else {
return ErrNoCharset
}
ti := t.ti
// environment overrides
w := ti.Columns
h := ti.Lines
if i, _ := strconv.Atoi(os.Getenv("LINES")); i != 0 {
h = i
}
if i, _ := strconv.Atoi(os.Getenv("COLUMNS")); i != 0 {
w = i
}
if t.ti.SetFgBgRGB != "" || t.ti.SetFgRGB != "" || t.ti.SetBgRGB != "" {
t.truecolor = true
}
// A user who wants to have his themes honored can
// set this environment variable.
if os.Getenv("TCELL_TRUECOLOR") == "disable" {
t.truecolor = false
}
nColors := t.nColors()
if nColors > 256 {
nColors = 256 // clip to reasonable limits
}
t.colors = make(map[Color]Color, nColors)
t.palette = make([]Color, nColors)
for i := 0; i < nColors; i++ {
t.palette[i] = Color(i) | ColorValid
// identity map for our builtin colors
t.colors[Color(i)|ColorValid] = Color(i) | ColorValid
}
t.quit = make(chan struct{})
t.eventQ = make(chan Event, 10)
t.Lock()
t.cx = -1
t.cy = -1
t.style = StyleDefault
t.cells.Resize(w, h)
t.cursorx = -1
t.cursory = -1
t.resize()
t.Unlock()
if err := t.engage(); err != nil {
return err
}
return nil
}
func (t *tScreen) prepareKeyMod(key Key, mod ModMask, val string) {
if val != "" {
// Do not override codes that already exist
if _, exist := t.keycodes[val]; !exist {
t.keyexist[key] = true
t.keycodes[val] = &tKeyCode{key: key, mod: mod}
}
}
}
func (t *tScreen) prepareKeyModReplace(key Key, replace Key, mod ModMask, val string) {
if val != "" {
// Do not override codes that already exist
if old, exist := t.keycodes[val]; !exist || old.key == replace {
t.keyexist[key] = true
t.keycodes[val] = &tKeyCode{key: key, mod: mod}
}
}
}
func (t *tScreen) prepareKeyModXTerm(key Key, val string) {
if strings.HasPrefix(val, "\x1b[") && strings.HasSuffix(val, "~") {
// Drop the trailing ~
val = val[:len(val)-1]
// These suffixes are calculated assuming Xterm style modifier suffixes.
// Please see https://invisible-island.net/xterm/ctlseqs/ctlseqs.pdf for
// more information (specifically "PC-Style Function Keys").
t.prepareKeyModReplace(key, key+12, ModShift, val+";2~")
t.prepareKeyModReplace(key, key+48, ModAlt, val+";3~")
t.prepareKeyModReplace(key, key+60, ModAlt|ModShift, val+";4~")
t.prepareKeyModReplace(key, key+24, ModCtrl, val+";5~")
t.prepareKeyModReplace(key, key+36, ModCtrl|ModShift, val+";6~")
t.prepareKeyMod(key, ModAlt|ModCtrl, val+";7~")
t.prepareKeyMod(key, ModShift|ModAlt|ModCtrl, val+";8~")
t.prepareKeyMod(key, ModMeta, val+";9~")
t.prepareKeyMod(key, ModMeta|ModShift, val+";10~")
t.prepareKeyMod(key, ModMeta|ModAlt, val+";11~")
t.prepareKeyMod(key, ModMeta|ModAlt|ModShift, val+";12~")
t.prepareKeyMod(key, ModMeta|ModCtrl, val+";13~")
t.prepareKeyMod(key, ModMeta|ModCtrl|ModShift, val+";14~")
t.prepareKeyMod(key, ModMeta|ModCtrl|ModAlt, val+";15~")
t.prepareKeyMod(key, ModMeta|ModCtrl|ModAlt|ModShift, val+";16~")
} else if strings.HasPrefix(val, "\x1bO") && len(val) == 3 {
val = val[2:]
t.prepareKeyModReplace(key, key+12, ModShift, "\x1b[1;2"+val)
t.prepareKeyModReplace(key, key+48, ModAlt, "\x1b[1;3"+val)
t.prepareKeyModReplace(key, key+24, ModCtrl, "\x1b[1;5"+val)
t.prepareKeyModReplace(key, key+36, ModCtrl|ModShift, "\x1b[1;6"+val)
t.prepareKeyModReplace(key, key+60, ModAlt|ModShift, "\x1b[1;4"+val)
t.prepareKeyMod(key, ModAlt|ModCtrl, "\x1b[1;7"+val)
t.prepareKeyMod(key, ModShift|ModAlt|ModCtrl, "\x1b[1;8"+val)
t.prepareKeyMod(key, ModMeta, "\x1b[1;9"+val)
t.prepareKeyMod(key, ModMeta|ModShift, "\x1b[1;10"+val)
t.prepareKeyMod(key, ModMeta|ModAlt, "\x1b[1;11"+val)
t.prepareKeyMod(key, ModMeta|ModAlt|ModShift, "\x1b[1;12"+val)
t.prepareKeyMod(key, ModMeta|ModCtrl, "\x1b[1;13"+val)
t.prepareKeyMod(key, ModMeta|ModCtrl|ModShift, "\x1b[1;14"+val)
t.prepareKeyMod(key, ModMeta|ModCtrl|ModAlt, "\x1b[1;15"+val)
t.prepareKeyMod(key, ModMeta|ModCtrl|ModAlt|ModShift, "\x1b[1;16"+val)
}
}
func (t *tScreen) prepareXtermModifiers() {
if t.ti.Modifiers != terminfo.ModifiersXTerm {
return
}
t.prepareKeyModXTerm(KeyRight, t.ti.KeyRight)
t.prepareKeyModXTerm(KeyLeft, t.ti.KeyLeft)
t.prepareKeyModXTerm(KeyUp, t.ti.KeyUp)
t.prepareKeyModXTerm(KeyDown, t.ti.KeyDown)
t.prepareKeyModXTerm(KeyInsert, t.ti.KeyInsert)
t.prepareKeyModXTerm(KeyDelete, t.ti.KeyDelete)
t.prepareKeyModXTerm(KeyPgUp, t.ti.KeyPgUp)
t.prepareKeyModXTerm(KeyPgDn, t.ti.KeyPgDn)
t.prepareKeyModXTerm(KeyHome, t.ti.KeyHome)
t.prepareKeyModXTerm(KeyEnd, t.ti.KeyEnd)
t.prepareKeyModXTerm(KeyF1, t.ti.KeyF1)
t.prepareKeyModXTerm(KeyF2, t.ti.KeyF2)
t.prepareKeyModXTerm(KeyF3, t.ti.KeyF3)
t.prepareKeyModXTerm(KeyF4, t.ti.KeyF4)
t.prepareKeyModXTerm(KeyF5, t.ti.KeyF5)
t.prepareKeyModXTerm(KeyF6, t.ti.KeyF6)
t.prepareKeyModXTerm(KeyF7, t.ti.KeyF7)
t.prepareKeyModXTerm(KeyF8, t.ti.KeyF8)
t.prepareKeyModXTerm(KeyF9, t.ti.KeyF9)
t.prepareKeyModXTerm(KeyF10, t.ti.KeyF10)
t.prepareKeyModXTerm(KeyF11, t.ti.KeyF11)
t.prepareKeyModXTerm(KeyF12, t.ti.KeyF12)
}
func (t *tScreen) prepareBracketedPaste() {
// Another workaround for lack of reporting in terminfo.
// We assume if the terminal has a mouse entry, that it
// offers bracketed paste. But we allow specific overrides
// via our terminal database.
if t.ti.EnablePaste != "" {
t.enablePaste = t.ti.EnablePaste
t.disablePaste = t.ti.DisablePaste
t.prepareKey(keyPasteStart, t.ti.PasteStart)
t.prepareKey(keyPasteEnd, t.ti.PasteEnd)
} else if t.ti.Mouse != "" || t.ti.XTermLike {
t.enablePaste = "\x1b[?2004h"
t.disablePaste = "\x1b[?2004l"
t.prepareKey(keyPasteStart, "\x1b[200~")
t.prepareKey(keyPasteEnd, "\x1b[201~")
}
}
func (t *tScreen) prepareUnderlines() {
if t.ti.DoubleUnderline != "" {
t.doubleUnder = t.ti.DoubleUnderline
} else if t.ti.XTermLike {
t.doubleUnder = "\x1b[4:2m"
}
if t.ti.CurlyUnderline != "" {
t.curlyUnder = t.ti.CurlyUnderline
} else if t.ti.XTermLike {
t.curlyUnder = "\x1b[4:3m"
}
if t.ti.DottedUnderline != "" {
t.dottedUnder = t.ti.DottedUnderline
} else if t.ti.XTermLike {
t.dottedUnder = "\x1b[4:4m"
}
if t.ti.DashedUnderline != "" {
t.dashedUnder = t.ti.DashedUnderline
} else if t.ti.XTermLike {
t.dashedUnder = "\x1b[4:5m"
}
// Underline colors. We're not going to rely upon terminfo for this
// Essentially all terminals that support the curly underlines are
// expected to also support coloring them too - which reflects actual
// practice since these were introduced at about the same time.
if t.ti.UnderlineColor != "" {
t.underColor = t.ti.UnderlineColor
} else if t.ti.CurlyUnderline != "" {
t.underColor = "\x1b[58:5:%p1%dm"
}
if t.ti.UnderlineColorRGB != "" {
// An interesting wart here is that in order to facilitate
// using just a single parameter, the Setulc parameter takes
// the 24-bit color as an integer rather than separate bytes.
// This matches the "new" style direct color approach that
// ncurses took, even though everyone else when another way.
t.underRGB = t.ti.UnderlineColorRGB
} else if t.ti.CurlyUnderline != "" {
t.underRGB = "\x1b[58:2::%p1%d:%p2%d:%p3%dm"
}
if t.ti.UnderlineColorReset != "" {
t.underFg = t.ti.UnderlineColorReset
} else if t.ti.CurlyUnderline != "" {
t.underFg = "\x1b[59m"
}
}
func (t *tScreen) prepareExtendedOSC() {
// Linux is a special beast - because it has a mouse entry, but does
// not swallow these OSC commands properly.
if strings.Contains(t.ti.Name, "linux") {
return
}
// More stuff for limits in terminfo. This time we are applying
// the most common OSC (operating system commands). Generally
// terminals that don't understand these will ignore them.
// Again, we condition this based on mouse capabilities.
if t.ti.EnterUrl != "" {
t.enterUrl = t.ti.EnterUrl
t.exitUrl = t.ti.ExitUrl
} else if t.ti.Mouse != "" || t.ti.XTermLike {
t.enterUrl = "\x1b]8;%p2%s;%p1%s\x1b\\"
t.exitUrl = "\x1b]8;;\x1b\\"
}
if t.ti.SetWindowSize != "" {
t.setWinSize = t.ti.SetWindowSize
} else if t.ti.Mouse != "" || t.ti.XTermLike {
t.setWinSize = "\x1b[8;%p1%p2%d;%dt"
}
if t.ti.EnableFocusReporting != "" {
t.enableFocus = t.ti.EnableFocusReporting
} else if t.ti.Mouse != "" || t.ti.XTermLike {
t.enableFocus = "\x1b[?1004h"
}
if t.ti.DisableFocusReporting != "" {
t.disableFocus = t.ti.DisableFocusReporting
} else if t.ti.Mouse != "" || t.ti.XTermLike {
t.disableFocus = "\x1b[?1004l"
}
if t.ti.SetWindowTitle != "" {
t.setTitle = t.ti.SetWindowTitle
} else if t.ti.XTermLike {
t.saveTitle = "\x1b[22;2t"
t.restoreTitle = "\x1b[23;2t"
// this also tries to request that UTF-8 is allowed in the title
t.setTitle = "\x1b[>2t\x1b]2;%p1%s\x1b\\"
}
if t.setClipboard == "" && t.ti.XTermLike {
// this string takes a base64 string and sends it to the clipboard.
// it will also be able to retrieve the clipboard using "?" as the
// sent string, when we support that.
t.setClipboard = "\x1b]52;c;%p1%s\x1b\\"
}
}
func (t *tScreen) prepareCursorStyles() {
// Another workaround for lack of reporting in terminfo.
// We assume if the terminal has a mouse entry, that it
// offers bracketed paste. But we allow specific overrides
// via our terminal database.
if t.ti.CursorDefault != "" {
t.cursorStyles = map[CursorStyle]string{
CursorStyleDefault: t.ti.CursorDefault,
CursorStyleBlinkingBlock: t.ti.CursorBlinkingBlock,
CursorStyleSteadyBlock: t.ti.CursorSteadyBlock,
CursorStyleBlinkingUnderline: t.ti.CursorBlinkingUnderline,
CursorStyleSteadyUnderline: t.ti.CursorSteadyUnderline,
CursorStyleBlinkingBar: t.ti.CursorBlinkingBar,
CursorStyleSteadyBar: t.ti.CursorSteadyBar,
}
} else if t.ti.Mouse != "" || t.ti.XTermLike {
t.cursorStyles = map[CursorStyle]string{
CursorStyleDefault: "\x1b[0 q",
CursorStyleBlinkingBlock: "\x1b[1 q",
CursorStyleSteadyBlock: "\x1b[2 q",
CursorStyleBlinkingUnderline: "\x1b[3 q",
CursorStyleSteadyUnderline: "\x1b[4 q",
CursorStyleBlinkingBar: "\x1b[5 q",
CursorStyleSteadyBar: "\x1b[6 q",
}
}
if t.ti.CursorColorRGB != "" {
// if it was X11 style with just a single %p1%s, then convert
t.cursorRGB = t.ti.CursorColorRGB
}
if t.ti.CursorColorReset != "" {
t.cursorFg = t.ti.CursorColorReset
}
if t.cursorRGB == "" {
t.cursorRGB = "\x1b]12;%p1%s\007"
t.cursorFg = "\x1b]112\007"
}
// convert XTERM style color names to RGB color code. We have no way to do palette colors
t.cursorRGB = strings.Replace(t.cursorRGB, "%p1%s", "#%p1%02x%p2%02x%p3%02x", 1)
}
func (t *tScreen) prepareKey(key Key, val string) {
t.prepareKeyMod(key, ModNone, val)
}
func (t *tScreen) prepareKeys() {
ti := t.ti
if strings.HasPrefix(ti.Name, "xterm") {
// assume its some form of XTerm clone
t.ti.XTermLike = true
ti.XTermLike = true
}
t.prepareKey(KeyBackspace, ti.KeyBackspace)
t.prepareKey(KeyF1, ti.KeyF1)
t.prepareKey(KeyF2, ti.KeyF2)
t.prepareKey(KeyF3, ti.KeyF3)
t.prepareKey(KeyF4, ti.KeyF4)
t.prepareKey(KeyF5, ti.KeyF5)
t.prepareKey(KeyF6, ti.KeyF6)
t.prepareKey(KeyF7, ti.KeyF7)
t.prepareKey(KeyF8, ti.KeyF8)
t.prepareKey(KeyF9, ti.KeyF9)
t.prepareKey(KeyF10, ti.KeyF10)
t.prepareKey(KeyF11, ti.KeyF11)
t.prepareKey(KeyF12, ti.KeyF12)
t.prepareKey(KeyF13, ti.KeyF13)
t.prepareKey(KeyF14, ti.KeyF14)
t.prepareKey(KeyF15, ti.KeyF15)
t.prepareKey(KeyF16, ti.KeyF16)
t.prepareKey(KeyF17, ti.KeyF17)
t.prepareKey(KeyF18, ti.KeyF18)
t.prepareKey(KeyF19, ti.KeyF19)
t.prepareKey(KeyF20, ti.KeyF20)
t.prepareKey(KeyF21, ti.KeyF21)
t.prepareKey(KeyF22, ti.KeyF22)
t.prepareKey(KeyF23, ti.KeyF23)
t.prepareKey(KeyF24, ti.KeyF24)
t.prepareKey(KeyF25, ti.KeyF25)
t.prepareKey(KeyF26, ti.KeyF26)
t.prepareKey(KeyF27, ti.KeyF27)
t.prepareKey(KeyF28, ti.KeyF28)
t.prepareKey(KeyF29, ti.KeyF29)
t.prepareKey(KeyF30, ti.KeyF30)
t.prepareKey(KeyF31, ti.KeyF31)
t.prepareKey(KeyF32, ti.KeyF32)
t.prepareKey(KeyF33, ti.KeyF33)
t.prepareKey(KeyF34, ti.KeyF34)
t.prepareKey(KeyF35, ti.KeyF35)
t.prepareKey(KeyF36, ti.KeyF36)
t.prepareKey(KeyF37, ti.KeyF37)
t.prepareKey(KeyF38, ti.KeyF38)
t.prepareKey(KeyF39, ti.KeyF39)
t.prepareKey(KeyF40, ti.KeyF40)
t.prepareKey(KeyF41, ti.KeyF41)
t.prepareKey(KeyF42, ti.KeyF42)
t.prepareKey(KeyF43, ti.KeyF43)
t.prepareKey(KeyF44, ti.KeyF44)
t.prepareKey(KeyF45, ti.KeyF45)
t.prepareKey(KeyF46, ti.KeyF46)
t.prepareKey(KeyF47, ti.KeyF47)
t.prepareKey(KeyF48, ti.KeyF48)
t.prepareKey(KeyF49, ti.KeyF49)
t.prepareKey(KeyF50, ti.KeyF50)
t.prepareKey(KeyF51, ti.KeyF51)
t.prepareKey(KeyF52, ti.KeyF52)
t.prepareKey(KeyF53, ti.KeyF53)
t.prepareKey(KeyF54, ti.KeyF54)
t.prepareKey(KeyF55, ti.KeyF55)
t.prepareKey(KeyF56, ti.KeyF56)
t.prepareKey(KeyF57, ti.KeyF57)
t.prepareKey(KeyF58, ti.KeyF58)
t.prepareKey(KeyF59, ti.KeyF59)
t.prepareKey(KeyF60, ti.KeyF60)
t.prepareKey(KeyF61, ti.KeyF61)
t.prepareKey(KeyF62, ti.KeyF62)
t.prepareKey(KeyF63, ti.KeyF63)
t.prepareKey(KeyF64, ti.KeyF64)
t.prepareKey(KeyInsert, ti.KeyInsert)
t.prepareKey(KeyDelete, ti.KeyDelete)
t.prepareKey(KeyHome, ti.KeyHome)
t.prepareKey(KeyEnd, ti.KeyEnd)
t.prepareKey(KeyUp, ti.KeyUp)
t.prepareKey(KeyDown, ti.KeyDown)
t.prepareKey(KeyLeft, ti.KeyLeft)
t.prepareKey(KeyRight, ti.KeyRight)
t.prepareKey(KeyPgUp, ti.KeyPgUp)
t.prepareKey(KeyPgDn, ti.KeyPgDn)
t.prepareKey(KeyHelp, ti.KeyHelp)
t.prepareKey(KeyPrint, ti.KeyPrint)
t.prepareKey(KeyCancel, ti.KeyCancel)
t.prepareKey(KeyExit, ti.KeyExit)
t.prepareKey(KeyBacktab, ti.KeyBacktab)
t.prepareKeyMod(KeyRight, ModShift, ti.KeyShfRight)
t.prepareKeyMod(KeyLeft, ModShift, ti.KeyShfLeft)
t.prepareKeyMod(KeyUp, ModShift, ti.KeyShfUp)
t.prepareKeyMod(KeyDown, ModShift, ti.KeyShfDown)
t.prepareKeyMod(KeyHome, ModShift, ti.KeyShfHome)
t.prepareKeyMod(KeyEnd, ModShift, ti.KeyShfEnd)
t.prepareKeyMod(KeyPgUp, ModShift, ti.KeyShfPgUp)
t.prepareKeyMod(KeyPgDn, ModShift, ti.KeyShfPgDn)
t.prepareKeyMod(KeyRight, ModCtrl, ti.KeyCtrlRight)
t.prepareKeyMod(KeyLeft, ModCtrl, ti.KeyCtrlLeft)
t.prepareKeyMod(KeyUp, ModCtrl, ti.KeyCtrlUp)
t.prepareKeyMod(KeyDown, ModCtrl, ti.KeyCtrlDown)
t.prepareKeyMod(KeyHome, ModCtrl, ti.KeyCtrlHome)
t.prepareKeyMod(KeyEnd, ModCtrl, ti.KeyCtrlEnd)
// Sadly, xterm handling of keycodes is somewhat erratic. In
// particular, different codes are sent depending on application
// mode is in use or not, and the entries for many of these are
// simply absent from terminfo on many systems. So we insert
// a number of escape sequences if they are not already used, in
// order to have the widest correct usage. Note that prepareKey
// will not inject codes if the escape sequence is already known.
// We also only do this for terminals that have the application
// mode present.
// Cursor mode
if ti.EnterKeypad != "" {
t.prepareKey(KeyUp, "\x1b[A")
t.prepareKey(KeyDown, "\x1b[B")
t.prepareKey(KeyRight, "\x1b[C")
t.prepareKey(KeyLeft, "\x1b[D")
t.prepareKey(KeyEnd, "\x1b[F")
t.prepareKey(KeyHome, "\x1b[H")
t.prepareKey(KeyDelete, "\x1b[3~")
t.prepareKey(KeyHome, "\x1b[1~")
t.prepareKey(KeyEnd, "\x1b[4~")
t.prepareKey(KeyPgUp, "\x1b[5~")
t.prepareKey(KeyPgDn, "\x1b[6~")
// Application mode
t.prepareKey(KeyUp, "\x1bOA")
t.prepareKey(KeyDown, "\x1bOB")
t.prepareKey(KeyRight, "\x1bOC")
t.prepareKey(KeyLeft, "\x1bOD")
t.prepareKey(KeyHome, "\x1bOH")
}
t.prepareKey(keyPasteStart, ti.PasteStart)
t.prepareKey(keyPasteEnd, ti.PasteEnd)
t.prepareXtermModifiers()
t.prepareBracketedPaste()
t.prepareCursorStyles()
t.prepareUnderlines()
t.prepareExtendedOSC()
outer:
// Add key mappings for control keys.
for i := 0; i < ' '; i++ {
// Do not insert direct key codes for ambiguous keys.
// For example, ESC is used for lots of other keys, so
// when parsing this we don't want to fast path handling
// of it, but instead wait a bit before parsing it as in
// isolation.
for esc := range t.keycodes {
if []byte(esc)[0] == byte(i) {
continue outer
}
}
t.keyexist[Key(i)] = true
mod := ModCtrl
switch Key(i) {
case KeyBS, KeyTAB, KeyESC, KeyCR:
// directly type-able- no control sequence
mod = ModNone
}
t.keycodes[string(rune(i))] = &tKeyCode{key: Key(i), mod: mod}
}
}
func (t *tScreen) Fini() {
t.finiOnce.Do(t.finish)
}
func (t *tScreen) finish() {
close(t.quit)
t.finalize()
}
func (t *tScreen) SetStyle(style Style) {
t.Lock()
if !t.fini {
t.style = style
}
t.Unlock()
}
func (t *tScreen) encodeRune(r rune, buf []byte) []byte {
nb := make([]byte, 6)
ob := make([]byte, 6)
num := utf8.EncodeRune(ob, r)
ob = ob[:num]
dst := 0
var err error
if enc := t.encoder; enc != nil {
enc.Reset()
dst, _, err = enc.Transform(nb, ob, true)
}
if err != nil || dst == 0 || nb[0] == '\x1a' {
// Combining characters are elided
if len(buf) == 0 {
if acs, ok := t.acs[r]; ok {
buf = append(buf, []byte(acs)...)
} else if fb, ok := t.fallback[r]; ok {
buf = append(buf, []byte(fb)...)
} else {
buf = append(buf, '?')
}
}
} else {
buf = append(buf, nb[:dst]...)
}
return buf
}
func (t *tScreen) sendFgBg(fg Color, bg Color, attr AttrMask) AttrMask {
ti := t.ti
if ti.Colors == 0 {
// foreground vs background, we calculate luminance
// and possibly do a reverse video
if !fg.Valid() {
return attr
}
v, ok := t.colors[fg]
if !ok {
v = FindColor(fg, []Color{ColorBlack, ColorWhite})
t.colors[fg] = v
}
switch v {
case ColorWhite:
return attr
case ColorBlack:
return attr ^ AttrReverse
}
}
if fg == ColorReset || bg == ColorReset {
t.TPuts(ti.ResetFgBg)
}
if t.truecolor {
if ti.SetFgBgRGB != "" && fg.IsRGB() && bg.IsRGB() {
r1, g1, b1 := fg.RGB()
r2, g2, b2 := bg.RGB()
t.TPuts(ti.TParm(ti.SetFgBgRGB,
int(r1), int(g1), int(b1),
int(r2), int(g2), int(b2)))
return attr
}
if fg.IsRGB() && ti.SetFgRGB != "" {
r, g, b := fg.RGB()
t.TPuts(ti.TParm(ti.SetFgRGB, int(r), int(g), int(b)))
fg = ColorDefault
}
if bg.IsRGB() && ti.SetBgRGB != "" {
r, g, b := bg.RGB()
t.TPuts(ti.TParm(ti.SetBgRGB,
int(r), int(g), int(b)))
bg = ColorDefault
}
}
if fg.Valid() {
if v, ok := t.colors[fg]; ok {
fg = v
} else {
v = FindColor(fg, t.palette)
t.colors[fg] = v
fg = v
}
}
if bg.Valid() {
if v, ok := t.colors[bg]; ok {
bg = v
} else {
v = FindColor(bg, t.palette)
t.colors[bg] = v
bg = v
}
}
if fg.Valid() && bg.Valid() && ti.SetFgBg != "" {
t.TPuts(ti.TParm(ti.SetFgBg, int(fg&0xff), int(bg&0xff)))
} else {
if fg.Valid() && ti.SetFg != "" {
t.TPuts(ti.TParm(ti.SetFg, int(fg&0xff)))
}
if bg.Valid() && ti.SetBg != "" {
t.TPuts(ti.TParm(ti.SetBg, int(bg&0xff)))
}
}
return attr
}
func (t *tScreen) drawCell(x, y int) int {
ti := t.ti
mainc, combc, style, width := t.cells.GetContent(x, y)
if !t.cells.Dirty(x, y) {
return width
}
if y == t.h-1 && x == t.w-1 && t.ti.AutoMargin && ti.DisableAutoMargin == "" && ti.InsertChar != "" {
// our solution is somewhat goofy.
// we write to the second to the last cell what we want in the last cell, then we
// insert a character at that 2nd to last position to shift the last column into
// place, then we rewrite that 2nd to last cell. Old terminals suck.
t.TPuts(ti.TGoto(x-1, y))
defer func() {
t.TPuts(ti.TGoto(x-1, y))
t.TPuts(ti.InsertChar)
t.cy = y
t.cx = x - 1
t.cells.SetDirty(x-1, y, true)
_ = t.drawCell(x-1, y)
t.TPuts(t.ti.TGoto(0, 0))
t.cy = 0
t.cx = 0
}()
} else if t.cy != y || t.cx != x {
t.TPuts(ti.TGoto(x, y))
t.cx = x
t.cy = y
}
if style == StyleDefault {
style = t.style
}
if style != t.curstyle {
fg, bg, attrs := style.fg, style.bg, style.attrs
t.TPuts(ti.AttrOff)
attrs = t.sendFgBg(fg, bg, attrs)
if attrs&AttrBold != 0 {
t.TPuts(ti.Bold)
}
if us, uc := style.ulStyle, style.ulColor; us != UnderlineStyleNone {
if t.underColor != "" || t.underRGB != "" {
if uc == ColorReset {
t.TPuts(t.underFg)
} else if uc.IsRGB() {
if t.underRGB != "" {
r, g, b := uc.RGB()
t.TPuts(ti.TParm(t.underRGB, int(r), int(g), int(b)))
} else {
if v, ok := t.colors[uc]; ok {
uc = v
} else {
v = FindColor(uc, t.palette)
t.colors[uc] = v
uc = v
}
t.TPuts(ti.TParm(t.underColor, int(uc&0xff)))
}
} else if uc.Valid() {
t.TPuts(ti.TParm(t.underColor, int(uc&0xff)))
}
}
t.TPuts(ti.Underline) // to ensure everyone gets at least a basic underline
switch us {
case UnderlineStyleDouble:
t.TPuts(t.doubleUnder)
case UnderlineStyleCurly:
t.TPuts(t.curlyUnder)
case UnderlineStyleDotted:
t.TPuts(t.dottedUnder)
case UnderlineStyleDashed:
t.TPuts(t.dashedUnder)
}
}
if attrs&AttrReverse != 0 {
t.TPuts(ti.Reverse)
}
if attrs&AttrBlink != 0 {
t.TPuts(ti.Blink)
}
if attrs&AttrDim != 0 {
t.TPuts(ti.Dim)
}
if attrs&AttrItalic != 0 {
t.TPuts(ti.Italic)
}
if attrs&AttrStrikeThrough != 0 {
t.TPuts(ti.StrikeThrough)
}
// URL string can be long, so don't send it unless we really need to
if t.enterUrl != "" && t.curstyle != style {
if style.url != "" {
t.TPuts(ti.TParm(t.enterUrl, style.url, style.urlId))
} else {
t.TPuts(t.exitUrl)
}
}
t.curstyle = style
}
// now emit runes - taking care to not overrun width with a
// wide character, and to ensure that we emit exactly one regular
// character followed up by any residual combing characters
if width < 1 {
width = 1
}
var str string
buf := make([]byte, 0, 6)
buf = t.encodeRune(mainc, buf)
for _, r := range combc {
buf = t.encodeRune(r, buf)
}
str = string(buf)
if width > 1 && str == "?" {
// No FullWidth character support
str = "? "
t.cx = -1
}
if x > t.w-width {
// too wide to fit; emit a single space instead
width = 1
str = " "
}
t.writeString(str)
t.cx += width
t.cells.SetDirty(x, y, false)
if width > 1 {
t.cx = -1
}
return width
}
func (t *tScreen) ShowCursor(x, y int) {
t.Lock()
t.cursorx = x
t.cursory = y
t.Unlock()
}
func (t *tScreen) SetCursor(cs CursorStyle, cc Color) {
t.Lock()
t.cursorStyle = cs
t.cursorColor = cc
t.Unlock()
}
func (t *tScreen) HideCursor() {
t.ShowCursor(-1, -1)
}
func (t *tScreen) showCursor() {
x, y := t.cursorx, t.cursory
w, h := t.cells.Size()
if x < 0 || y < 0 || x >= w || y >= h {
t.hideCursor()
return
}
t.TPuts(t.ti.TGoto(x, y))
t.TPuts(t.ti.ShowCursor)
if t.cursorStyles != nil {
if esc, ok := t.cursorStyles[t.cursorStyle]; ok {
t.TPuts(esc)
}
}
if t.cursorRGB != "" {
if t.cursorColor == ColorReset {
t.TPuts(t.cursorFg)
} else if t.cursorColor.Valid() {
r, g, b := t.cursorColor.RGB()
t.TPuts(t.ti.TParm(t.cursorRGB, int(r), int(g), int(b)))
}
}
t.cx = x
t.cy = y
}
// writeString sends a string to the terminal. The string is sent as-is and
// this function does not expand inline padding indications (of the form
// $<[delay]> where [delay] is msec). In order to have these expanded, use
// TPuts. If the screen is "buffering", the string is collected in a buffer,
// with the intention that the entire buffer be sent to the terminal in one