readline/runebuf.go

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package readline
import (
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"bufio"
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"bytes"
"fmt"
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"io"
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"strings"
"sync"
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)
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type runeBufferBck struct {
buf []rune
idx int
}
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type RuneBuffer struct {
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buf []rune
idx int
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prompt []rune
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w io.Writer
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interactive bool
cfg *Config
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width int
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bck *runeBufferBck
offset string // is offset useful? scrolling means row varies
ppos int // prompt start position (0 == column 1)
lastKill []rune
sync.Mutex
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}
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func (r *RuneBuffer) pushKill(text []rune) {
r.lastKill = append([]rune{}, text...)
}
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func (r *RuneBuffer) OnWidthChange(newWidth int) {
r.Lock()
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r.width = newWidth
r.Unlock()
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}
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func (r *RuneBuffer) Backup() {
r.Lock()
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r.bck = &runeBufferBck{r.buf, r.idx}
r.Unlock()
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}
func (r *RuneBuffer) Restore() {
r.Refresh(func() {
if r.bck == nil {
return
}
r.buf = r.bck.buf
r.idx = r.bck.idx
})
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}
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func NewRuneBuffer(w io.Writer, prompt string, cfg *Config, width int) *RuneBuffer {
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rb := &RuneBuffer{
w: w,
interactive: cfg.useInteractive(),
cfg: cfg,
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width: width,
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}
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rb.SetPrompt(prompt)
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return rb
}
func (r *RuneBuffer) SetConfig(cfg *Config) {
r.Lock()
r.cfg = cfg
r.interactive = cfg.useInteractive()
r.Unlock()
}
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func (r *RuneBuffer) SetMask(m rune) {
r.Lock()
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r.cfg.MaskRune = m
r.Unlock()
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}
func (r *RuneBuffer) CurrentWidth(x int) int {
r.Lock()
defer r.Unlock()
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return runes.WidthAll(r.buf[:x])
}
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func (r *RuneBuffer) PromptLen() int {
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r.Lock()
width := r.promptLen()
r.Unlock()
return width
}
func (r *RuneBuffer) promptLen() int {
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return runes.WidthAll(runes.ColorFilter(r.prompt))
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}
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func (r *RuneBuffer) RuneSlice(i int) []rune {
r.Lock()
defer r.Unlock()
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if i > 0 {
rs := make([]rune, i)
copy(rs, r.buf[r.idx:r.idx+i])
return rs
}
rs := make([]rune, -i)
copy(rs, r.buf[r.idx+i:r.idx])
return rs
}
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func (r *RuneBuffer) Runes() []rune {
r.Lock()
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newr := make([]rune, len(r.buf))
copy(newr, r.buf)
r.Unlock()
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return newr
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}
func (r *RuneBuffer) Pos() int {
r.Lock()
defer r.Unlock()
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return r.idx
}
func (r *RuneBuffer) Len() int {
r.Lock()
defer r.Unlock()
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return len(r.buf)
}
func (r *RuneBuffer) MoveToLineStart() {
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r.Refresh(func() {
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if r.idx == 0 {
return
}
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r.idx = 0
})
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}
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func (r *RuneBuffer) MoveBackward() {
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r.Refresh(func() {
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if r.idx == 0 {
return
}
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r.idx--
})
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}
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func (r *RuneBuffer) WriteString(s string) {
r.WriteRunes([]rune(s))
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}
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func (r *RuneBuffer) WriteRune(s rune) {
r.WriteRunes([]rune{s})
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}
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func (r *RuneBuffer) WriteRunes(s []rune) {
r.Lock()
defer r.Unlock()
if r.idx == len(r.buf) {
// cursor is already at end of buf data so just call
// append instead of refesh to save redrawing.
r.buf = append(r.buf, s...)
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r.idx += len(s)
if r.interactive {
r.append(s)
}
} else {
// writing into the data somewhere so do a refresh
r.refresh(func() {
tail := append(s, r.buf[r.idx:]...)
r.buf = append(r.buf[:r.idx], tail...)
r.idx += len(s)
})
}
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}
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func (r *RuneBuffer) MoveForward() {
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r.Refresh(func() {
if r.idx == len(r.buf) {
return
}
r.idx++
})
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}
func (r *RuneBuffer) IsCursorInEnd() bool {
r.Lock()
defer r.Unlock()
return r.idx == len(r.buf)
}
func (r *RuneBuffer) Replace(ch rune) {
r.Refresh(func() {
r.buf[r.idx] = ch
})
}
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func (r *RuneBuffer) Erase() {
r.Refresh(func() {
r.idx = 0
r.pushKill(r.buf[:])
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r.buf = r.buf[:0]
})
}
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func (r *RuneBuffer) Delete() (success bool) {
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r.Refresh(func() {
if r.idx == len(r.buf) {
return
}
r.pushKill(r.buf[r.idx : r.idx+1])
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r.buf = append(r.buf[:r.idx], r.buf[r.idx+1:]...)
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success = true
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})
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return
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}
func (r *RuneBuffer) DeleteWord() {
if r.idx == len(r.buf) {
return
}
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init := r.idx
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for init < len(r.buf) && IsWordBreak(r.buf[init]) {
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init++
}
for i := init + 1; i < len(r.buf); i++ {
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if !IsWordBreak(r.buf[i]) && IsWordBreak(r.buf[i-1]) {
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r.pushKill(r.buf[r.idx : i-1])
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r.Refresh(func() {
r.buf = append(r.buf[:r.idx], r.buf[i-1:]...)
})
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return
}
}
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r.Kill()
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}
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func (r *RuneBuffer) MoveToPrevWord() (success bool) {
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r.Refresh(func() {
if r.idx == 0 {
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return
}
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for i := r.idx - 1; i > 0; i-- {
if !IsWordBreak(r.buf[i]) && IsWordBreak(r.buf[i-1]) {
r.idx = i
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success = true
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return
}
}
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r.idx = 0
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success = true
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})
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return
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}
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func (r *RuneBuffer) KillFront() {
r.Refresh(func() {
if r.idx == 0 {
return
}
length := len(r.buf) - r.idx
r.pushKill(r.buf[:r.idx])
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copy(r.buf[:length], r.buf[r.idx:])
r.idx = 0
r.buf = r.buf[:length]
})
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}
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func (r *RuneBuffer) Kill() {
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r.Refresh(func() {
r.pushKill(r.buf[r.idx:])
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r.buf = r.buf[:r.idx]
})
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}
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func (r *RuneBuffer) Transpose() {
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r.Refresh(func() {
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if len(r.buf) == 1 {
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r.idx++
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}
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if len(r.buf) < 2 {
return
}
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if r.idx == 0 {
r.idx = 1
} else if r.idx >= len(r.buf) {
r.idx = len(r.buf) - 1
}
r.buf[r.idx], r.buf[r.idx-1] = r.buf[r.idx-1], r.buf[r.idx]
r.idx++
})
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}
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func (r *RuneBuffer) MoveToNextWord() {
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r.Refresh(func() {
for i := r.idx + 1; i < len(r.buf); i++ {
if !IsWordBreak(r.buf[i]) && IsWordBreak(r.buf[i-1]) {
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r.idx = i
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return
}
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}
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r.idx = len(r.buf)
})
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}
func (r *RuneBuffer) MoveToEndWord() {
r.Refresh(func() {
// already at the end, so do nothing
if r.idx == len(r.buf) {
return
}
// if we are at the end of a word already, go to next
if !IsWordBreak(r.buf[r.idx]) && IsWordBreak(r.buf[r.idx+1]) {
r.idx++
}
// keep going until at the end of a word
for i := r.idx + 1; i < len(r.buf); i++ {
if IsWordBreak(r.buf[i]) && !IsWordBreak(r.buf[i-1]) {
r.idx = i - 1
return
}
}
r.idx = len(r.buf)
})
}
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func (r *RuneBuffer) BackEscapeWord() {
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r.Refresh(func() {
if r.idx == 0 {
return
}
for i := r.idx - 1; i > 0; i-- {
if !IsWordBreak(r.buf[i]) && IsWordBreak(r.buf[i-1]) {
r.pushKill(r.buf[i:r.idx])
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r.buf = append(r.buf[:i], r.buf[r.idx:]...)
r.idx = i
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return
}
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}
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r.buf = r.buf[:0]
r.idx = 0
})
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}
func (r *RuneBuffer) Yank() {
if len(r.lastKill) == 0 {
return
}
r.Refresh(func() {
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buf := make([]rune, 0, len(r.buf)+len(r.lastKill))
buf = append(buf, r.buf[:r.idx]...)
buf = append(buf, r.lastKill...)
buf = append(buf, r.buf[r.idx:]...)
r.buf = buf
r.idx += len(r.lastKill)
})
}
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func (r *RuneBuffer) Backspace() {
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r.Refresh(func() {
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if r.idx == 0 {
return
}
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r.idx--
r.buf = append(r.buf[:r.idx], r.buf[r.idx+1:]...)
})
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}
func (r *RuneBuffer) MoveToLineEnd() {
r.Lock()
defer r.Unlock()
if r.idx == len(r.buf) {
return
}
r.refresh(func() {
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r.idx = len(r.buf)
})
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}
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func (r *RuneBuffer) LineCount(width int) int {
if width == -1 {
width = r.width
}
return LineCount(width,
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runes.WidthAll(r.buf)+r.PromptLen())
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}
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func (r *RuneBuffer) MoveTo(ch rune, prevChar, reverse bool) (success bool) {
r.Refresh(func() {
if reverse {
for i := r.idx - 1; i >= 0; i-- {
if r.buf[i] == ch {
r.idx = i
if prevChar {
r.idx++
}
success = true
return
}
}
return
}
for i := r.idx + 1; i < len(r.buf); i++ {
if r.buf[i] == ch {
r.idx = i
if prevChar {
r.idx--
}
success = true
return
}
}
})
return
}
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func (r *RuneBuffer) isInLineEdge() bool {
if isWindows {
return false
}
sp := r.getSplitByLine(r.buf, 1)
return len(sp[len(sp)-1]) == 0 // last line is 0 len
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}
func (r *RuneBuffer) getSplitByLine(rs []rune, nextWidth int) [][]rune {
if r.cfg.EnableMask {
w := runes.Width(r.cfg.MaskRune)
masked := []rune(strings.Repeat(string(r.cfg.MaskRune), len(rs)))
return SplitByLine(runes.ColorFilter(r.prompt), masked, r.ppos, r.width, w)
} else {
return SplitByLine(runes.ColorFilter(r.prompt), rs, r.ppos, r.width, nextWidth)
}
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}
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func (r *RuneBuffer) IdxLine(width int) int {
r.Lock()
defer r.Unlock()
return r.idxLine(width)
}
func (r *RuneBuffer) idxLine(width int) int {
if width == 0 {
return 0
}
nextWidth := 1
if r.idx < len(r.buf) {
nextWidth = runes.Width(r.buf[r.idx])
}
sp := r.getSplitByLine(r.buf[:r.idx], nextWidth)
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return len(sp) - 1
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}
func (r *RuneBuffer) CursorLineCount() int {
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return r.LineCount(r.width) - r.IdxLine(r.width)
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}
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func (r *RuneBuffer) Refresh(f func()) {
r.Lock()
defer r.Unlock()
r.refresh(f)
}
func (r *RuneBuffer) refresh(f func()) {
if !r.interactive {
if f != nil {
f()
}
return
}
r.clean()
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if f != nil {
f()
}
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r.print()
}
// getAndSetOffset queries the terminal for the current cursor position by
// writing a control sequence to the terminal. This call is asynchronous
// and it returns before any offset has actually been set as the terminal
// will write the offset back to us via stdin and there may already be
// other data in the stdin buffer ahead of it.
// This function is called at the start of readline each time.
func (r *RuneBuffer) getAndSetOffset(t *Terminal) {
if !r.interactive {
return
}
if !isWindows {
// Handle lineedge cases where existing text before before
// the prompt is printed would leave us at the right edge of
// the screen but the next character would actually be printed
// at the beginning of the next line.
r.w.Write([]byte(" \b"))
}
t.GetOffset(r.setOffset)
}
func (r *RuneBuffer) SetOffset(offset string) {
r.Lock()
defer r.Unlock()
r.setOffset(offset)
}
func (r *RuneBuffer) setOffset(offset string) {
r.offset = offset
if _, c, ok := (&escapeKeyPair{attr:offset}).Get2(); ok && c > 0 && c < r.width {
r.ppos = c - 1 // c should be 1..width
} else {
r.ppos = 0
}
}
// append s to the end of the current output. append is called in
// place of print() when clean() was avoided. As output is appended on
// the end, the cursor also needs no extra adjustment.
// NOTE: assumes len(s) >= 1 which should always be true for append.
func (r *RuneBuffer) append(s []rune) {
buf := bytes.NewBuffer(nil)
slen := len(s)
if r.cfg.EnableMask {
if slen > 1 && r.cfg.MaskRune != 0 {
// write a mask character for all runes except the last rune
buf.WriteString(strings.Repeat(string(r.cfg.MaskRune), slen-1))
}
// for the last rune, write \n or mask it otherwise.
if s[slen-1] == '\n' {
buf.WriteRune('\n')
} else if r.cfg.MaskRune != 0 {
buf.WriteRune(r.cfg.MaskRune)
}
} else {
for _, e := range r.cfg.Painter.Paint(s, slen) {
if e == '\t' {
buf.WriteString(strings.Repeat(" ", TabWidth))
} else {
buf.WriteRune(e)
}
}
}
if r.isInLineEdge() {
buf.WriteString(" \b")
}
r.w.Write(buf.Bytes())
}
// Print writes out the prompt and buffer contents at the current cursor position
func (r *RuneBuffer) Print() {
r.Lock()
defer r.Unlock()
if !r.interactive {
return
}
r.print()
}
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func (r *RuneBuffer) print() {
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r.w.Write(r.output())
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}
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func (r *RuneBuffer) output() []byte {
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buf := bytes.NewBuffer(nil)
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buf.WriteString(string(r.prompt))
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if r.cfg.EnableMask && len(r.buf) > 0 {
if r.cfg.MaskRune != 0 {
buf.WriteString(strings.Repeat(string(r.cfg.MaskRune), len(r.buf)-1))
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}
if r.buf[len(r.buf)-1] == '\n' {
buf.WriteRune('\n')
} else if r.cfg.MaskRune != 0 {
buf.WriteRune(r.cfg.MaskRune)
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}
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} else {
for _, e := range r.cfg.Painter.Paint(r.buf, r.idx) {
if e == '\t' {
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buf.WriteString(strings.Repeat(" ", TabWidth))
} else {
buf.WriteRune(e)
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}
}
}
if r.isInLineEdge() {
buf.WriteString(" \b")
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}
// cursor position
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if len(r.buf) > r.idx {
buf.Write(r.getBackspaceSequence())
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}
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return buf.Bytes()
}
func (r *RuneBuffer) getBackspaceSequence() []byte {
bcnt := len(r.buf) - r.idx // backwards count to index
sp := r.getSplitByLine(r.buf, 1)
// Calculate how many lines up to the index line
up := 0
spi := len(sp) - 1
for spi >= 0 {
bcnt -= len(sp[spi])
if bcnt <= 0 {
break
}
up++
spi--
}
// Calculate what column the index should be set to
column := 1
if spi == 0 {
column += r.ppos
}
for _, rune := range sp[spi] {
if bcnt >= 0 {
break
}
column += runes.Width(rune)
bcnt++
}
buf := bytes.NewBuffer(nil)
if up > 0 {
fmt.Fprintf(buf, "\033[%dA", up) // move cursor up to index line
}
fmt.Fprintf(buf, "\033[%dG", column) // move cursor to column
return buf.Bytes()
}
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func (r *RuneBuffer) Reset() []rune {
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ret := runes.Copy(r.buf)
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r.buf = r.buf[:0]
r.idx = 0
return ret
}
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func (r *RuneBuffer) calWidth(m int) int {
if m > 0 {
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return runes.WidthAll(r.buf[r.idx : r.idx+m])
}
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return runes.WidthAll(r.buf[r.idx+m : r.idx])
}
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func (r *RuneBuffer) SetStyle(start, end int, style string) {
if end < start {
panic("end < start")
}
// goto start
move := start - r.idx
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if move > 0 {
r.w.Write([]byte(string(r.buf[r.idx : r.idx+move])))
} else {
r.w.Write(bytes.Repeat([]byte("\b"), r.calWidth(move)))
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}
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r.w.Write([]byte("\033[" + style + "m"))
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r.w.Write([]byte(string(r.buf[start:end])))
r.w.Write([]byte("\033[0m"))
// TODO: move back
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}
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func (r *RuneBuffer) SetWithIdx(idx int, buf []rune) {
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r.Refresh(func() {
r.buf = buf
r.idx = idx
})
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}
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func (r *RuneBuffer) Set(buf []rune) {
r.SetWithIdx(len(buf), buf)
}
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func (r *RuneBuffer) SetPrompt(prompt string) {
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r.Lock()
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r.prompt = []rune(prompt)
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r.Unlock()
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}
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func (r *RuneBuffer) cleanOutput(w io.Writer, idxLine int) {
buf := bufio.NewWriter(w)
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if r.width == 0 {
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buf.WriteString(strings.Repeat("\r\b", len(r.buf)+r.promptLen()))
buf.Write([]byte("\033[J"))
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} else {
if idxLine > 0 {
fmt.Fprintf(buf, "\033[%dA", idxLine) // move cursor up by idxLine
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}
fmt.Fprintf(buf, "\033[%dG", r.ppos + 1) // move cursor back to initial ppos position
buf.Write([]byte("\033[J")) // clear from cursor to end of screen
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}
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buf.Flush()
return
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}
func (r *RuneBuffer) Clean() {
r.Lock()
r.clean()
r.Unlock()
}
func (r *RuneBuffer) clean() {
r.cleanWithIdxLine(r.idxLine(r.width))
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}
func (r *RuneBuffer) cleanWithIdxLine(idxLine int) {
if !r.interactive {
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return
}
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r.cleanOutput(r.w, idxLine)
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}