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complete.go
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complete.go
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package readline
import (
"bufio"
"bytes"
"fmt"
"io"
)
type AutoCompleter interface {
// Readline will pass the whole line and current offset to it
// Completer need to pass all the candidates, and how long they shared the same characters in line
// Example:
// [go, git, git-shell, grep]
// Do("g", 1) => ["o", "it", "it-shell", "rep"], 1
// Do("gi", 2) => ["t", "t-shell"], 2
// Do("git", 3) => ["", "-shell"], 3
Do(line []rune, pos int) (newLine [][]rune, length int)
}
type TabCompleter struct{}
func (t *TabCompleter) Do([]rune, int) ([][]rune, int) {
return [][]rune{[]rune("\t")}, 0
}
type opCompleter struct {
w io.Writer
op *Operation
width int
inCompleteMode bool
inSelectMode bool
candidate [][]rune
candidateSource []rune
candidateOff int
candidateChoise int
candidateColNum int
}
func newOpCompleter(w io.Writer, op *Operation, width int) *opCompleter {
return &opCompleter{
w: w,
op: op,
width: width,
}
}
func (o *opCompleter) doSelect() {
if len(o.candidate) == 1 {
o.op.buf.WriteRunes(o.candidate[0])
o.ExitCompleteMode(false)
return
}
o.nextCandidate(1)
o.CompleteRefresh()
}
func (o *opCompleter) nextCandidate(i int) {
o.candidateChoise += i
o.candidateChoise = o.candidateChoise % len(o.candidate)
if o.candidateChoise < 0 {
o.candidateChoise = len(o.candidate) + o.candidateChoise
}
}
func (o *opCompleter) OnComplete() bool {
if o.width == 0 {
return false
}
if o.IsInCompleteSelectMode() {
o.doSelect()
return true
}
buf := o.op.buf
rs := buf.Runes()
if o.IsInCompleteMode() && o.candidateSource != nil && runes.Equal(rs, o.candidateSource) {
o.EnterCompleteSelectMode()
o.doSelect()
return true
}
o.ExitCompleteSelectMode()
o.candidateSource = rs
newLines, offset := o.op.cfg.AutoComplete.Do(rs, buf.idx)
if len(newLines) == 0 {
o.ExitCompleteMode(false)
return true
}
// only Aggregate candidates in non-complete mode
if !o.IsInCompleteMode() {
if len(newLines) == 1 {
buf.WriteRunes(newLines[0])
o.ExitCompleteMode(false)
return true
}
same, size := runes.Aggregate(newLines)
if size > 0 {
buf.WriteRunes(same)
o.ExitCompleteMode(false)
return true
}
}
o.EnterCompleteMode(offset, newLines)
return true
}
func (o *opCompleter) IsInCompleteSelectMode() bool {
return o.inSelectMode
}
func (o *opCompleter) IsInCompleteMode() bool {
return o.inCompleteMode
}
func (o *opCompleter) HandleCompleteSelect(r rune) bool {
next := true
switch r {
case CharEnter, CharCtrlJ:
next = false
o.op.buf.WriteRunes(o.op.candidate[o.op.candidateChoise])
o.ExitCompleteMode(false)
case CharLineStart:
num := o.candidateChoise % o.candidateColNum
o.nextCandidate(-num)
case CharLineEnd:
num := o.candidateColNum - o.candidateChoise%o.candidateColNum - 1
o.candidateChoise += num
if o.candidateChoise >= len(o.candidate) {
o.candidateChoise = len(o.candidate) - 1
}
case CharBackspace:
o.ExitCompleteSelectMode()
next = false
case CharTab, CharForward:
o.doSelect()
case CharBell, CharInterrupt:
o.ExitCompleteMode(true)
next = false
case CharNext:
tmpChoise := o.candidateChoise + o.candidateColNum
if tmpChoise >= o.getMatrixSize() {
tmpChoise -= o.getMatrixSize()
} else if tmpChoise >= len(o.candidate) {
tmpChoise += o.candidateColNum
tmpChoise -= o.getMatrixSize()
}
o.candidateChoise = tmpChoise
case CharBackward:
o.nextCandidate(-1)
case CharPrev:
tmpChoise := o.candidateChoise - o.candidateColNum
if tmpChoise < 0 {
tmpChoise += o.getMatrixSize()
if tmpChoise >= len(o.candidate) {
tmpChoise -= o.candidateColNum
}
}
o.candidateChoise = tmpChoise
default:
next = false
o.ExitCompleteSelectMode()
}
if next {
o.CompleteRefresh()
return true
}
return false
}
func (o *opCompleter) getMatrixSize() int {
line := len(o.candidate) / o.candidateColNum
if len(o.candidate)%o.candidateColNum != 0 {
line++
}
return line * o.candidateColNum
}
func (o *opCompleter) OnWidthChange(newWidth int) {
o.width = newWidth
}
func (o *opCompleter) CompleteRefresh() {
if !o.inCompleteMode {
return
}
lineCnt := o.op.buf.CursorLineCount()
colWidth := 0
for _, c := range o.candidate {
w := runes.WidthAll(c)
if w > colWidth {
colWidth = w
}
}
colWidth += o.candidateOff + 1
same := o.op.buf.RuneSlice(-o.candidateOff)
// -1 to avoid reach the end of line
width := o.width - 1
colNum := width / colWidth
if colNum != 0 {
colWidth += (width - (colWidth * colNum)) / colNum
}
o.candidateColNum = colNum
buf := bufio.NewWriter(o.w)
buf.Write(bytes.Repeat([]byte("\n"), lineCnt))
colIdx := 0
lines := 1
buf.WriteString("\033[J")
for idx, c := range o.candidate {
inSelect := idx == o.candidateChoise && o.IsInCompleteSelectMode()
if inSelect {
buf.WriteString("\033[30;47m")
}
buf.WriteString(string(same))
buf.WriteString(string(c))
buf.Write(bytes.Repeat([]byte(" "), colWidth-runes.WidthAll(c)-runes.WidthAll(same)))
if inSelect {
buf.WriteString("\033[0m")
}
colIdx++
if colIdx == colNum {
buf.WriteString("\n")
lines++
colIdx = 0
}
}
// move back
fmt.Fprintf(buf, "\033[%dA\r", lineCnt-1+lines)
fmt.Fprintf(buf, "\033[%dC", o.op.buf.idx+o.op.buf.PromptLen())
buf.Flush()
}
func (o *opCompleter) aggCandidate(candidate [][]rune) int {
offset := 0
for i := 0; i < len(candidate[0]); i++ {
for j := 0; j < len(candidate)-1; j++ {
if i > len(candidate[j]) {
goto aggregate
}
if candidate[j][i] != candidate[j+1][i] {
goto aggregate
}
}
offset = i
}
aggregate:
return offset
}
func (o *opCompleter) EnterCompleteSelectMode() {
o.inSelectMode = true
o.candidateChoise = -1
o.CompleteRefresh()
}
func (o *opCompleter) EnterCompleteMode(offset int, candidate [][]rune) {
o.inCompleteMode = true
o.candidate = candidate
o.candidateOff = offset
o.CompleteRefresh()
}
func (o *opCompleter) ExitCompleteSelectMode() {
o.inSelectMode = false
o.candidate = nil
o.candidateChoise = -1
o.candidateOff = -1
o.candidateSource = nil
}
func (o *opCompleter) ExitCompleteMode(revent bool) {
o.inCompleteMode = false
o.ExitCompleteSelectMode()
}