mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
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500 lines
14 KiB
Go
500 lines
14 KiB
Go
package readline
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import (
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"bufio"
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"bytes"
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"fmt"
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"sync/atomic"
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"github.com/ergochat/readline/internal/platform"
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"github.com/ergochat/readline/internal/runes"
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)
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type AutoCompleter interface {
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// Readline will pass the whole line and current offset to it
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// Completer need to pass all the candidates, and how long they shared the same characters in line
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// Example:
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// [go, git, git-shell, grep]
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// Do("g", 1) => ["o", "it", "it-shell", "rep"], 1
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// Do("gi", 2) => ["t", "t-shell"], 2
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// Do("git", 3) => ["", "-shell"], 3
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Do(line []rune, pos int) (newLine [][]rune, length int)
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}
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type opCompleter struct {
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w *terminal
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op *operation
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inCompleteMode atomic.Uint32 // this is read asynchronously from wrapWriter
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inSelectMode bool
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candidate [][]rune // list of candidates
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candidateSource []rune // buffer string when tab was pressed
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candidateOff int // num runes in common from buf where candidate start
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candidateChoice int // absolute index of the chosen candidate (indexing the candidate array which might not all display in current page)
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candidateColNum int // num columns candidates take 0..wraps, 1 col, 2 cols etc.
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candidateColWidth int // width of candidate columns
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linesAvail int // number of lines available below the user's prompt which could be used for rendering the completion
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pageStartIdx []int // start index in the candidate array on each page (candidatePageStart[i] = absolute idx of the first candidate on page i)
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curPage int // index of the current page
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}
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func newOpCompleter(w *terminal, op *operation) *opCompleter {
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return &opCompleter{
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w: w,
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op: op,
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}
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}
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func (o *opCompleter) doSelect() {
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if len(o.candidate) == 1 {
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o.op.buf.WriteRunes(o.candidate[0])
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o.ExitCompleteMode(false)
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return
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}
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o.nextCandidate()
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o.CompleteRefresh()
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}
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// Convert absolute index of the chosen candidate to a page-relative index
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func (o *opCompleter) candidateChoiceWithinPage() int {
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return o.candidateChoice - o.pageStartIdx[o.curPage]
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}
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// Given a page relative index of the chosen candidate, update the absolute index
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func (o *opCompleter) updateAbsolutechoice(choiceWithinPage int) {
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o.candidateChoice = choiceWithinPage + o.pageStartIdx[o.curPage]
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}
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// Move selection to the next candidate, updating page if necessary
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// Note: we don't allow passing arbitrary offset to this function because, e.g.,
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// we don't have the 3rd page offset initialized when the user is just seeing the first page,
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// so we only allow users to navigate into the 2nd page but not to an arbirary page as a result
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// of calling this method
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func (o *opCompleter) nextCandidate() {
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o.candidateChoice = (o.candidateChoice + 1) % len(o.candidate)
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// Wrapping around
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if o.candidateChoice == 0 {
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o.curPage = 0
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return
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}
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// Going to next page
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if o.candidateChoice == o.pageStartIdx[o.curPage+1] {
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o.curPage += 1
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}
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}
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// Move selection to the next ith col in the current line, wrapping to the line start/end if needed
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func (o *opCompleter) nextCol(i int) {
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// If o.candidateColNum == 1 or 0, there is only one col per line and this is a noop
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if o.candidateColNum > 1 {
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idxWithinPage := o.candidateChoiceWithinPage()
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curLine := idxWithinPage / o.candidateColNum
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offsetInLine := idxWithinPage % o.candidateColNum
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nextOffset := offsetInLine + i
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nextOffset %= o.candidateColNum
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if nextOffset < 0 {
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nextOffset += o.candidateColNum
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}
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nextIdxWithinPage := curLine*o.candidateColNum + nextOffset
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o.updateAbsolutechoice(nextIdxWithinPage)
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}
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}
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// Move selection to the line below
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func (o *opCompleter) nextLine() {
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colNum := 1
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if o.candidateColNum > 1 {
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colNum = o.candidateColNum
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}
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idxWithinPage := o.candidateChoiceWithinPage()
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idxWithinPage += colNum
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if idxWithinPage >= o.getMatrixSize() {
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idxWithinPage -= o.getMatrixSize()
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} else if idxWithinPage >= o.numCandidateCurPage() {
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idxWithinPage += colNum
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idxWithinPage -= o.getMatrixSize()
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}
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o.updateAbsolutechoice(idxWithinPage)
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}
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// Move selection to the line above
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func (o *opCompleter) prevLine() {
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colNum := 1
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if o.candidateColNum > 1 {
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colNum = o.candidateColNum
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}
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idxWithinPage := o.candidateChoiceWithinPage()
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idxWithinPage -= colNum
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if idxWithinPage < 0 {
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idxWithinPage += o.getMatrixSize()
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if idxWithinPage >= o.numCandidateCurPage() {
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idxWithinPage -= colNum
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}
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}
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o.updateAbsolutechoice(idxWithinPage)
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}
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// Move selection to the start of the current line
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func (o *opCompleter) lineStart() {
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if o.candidateColNum > 1 {
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idxWithinPage := o.candidateChoiceWithinPage()
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lineOffset := idxWithinPage % o.candidateColNum
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idxWithinPage -= lineOffset
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o.updateAbsolutechoice(idxWithinPage)
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}
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}
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// Move selection to the end of the current line
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func (o *opCompleter) lineEnd() {
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if o.candidateColNum > 1 {
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idxWithinPage := o.candidateChoiceWithinPage()
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offsetToLineEnd := o.candidateColNum - idxWithinPage%o.candidateColNum - 1
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idxWithinPage += offsetToLineEnd
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o.updateAbsolutechoice(idxWithinPage)
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if o.candidateChoice >= len(o.candidate) {
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o.candidateChoice = len(o.candidate) - 1
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}
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}
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}
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// Move to the next page if possible, returning selection to the first item in the page
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func (o *opCompleter) nextPage() {
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// Check that this is not the last page already
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nextPageStart := o.pageStartIdx[o.curPage+1]
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if nextPageStart < len(o.candidate) {
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o.curPage += 1
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o.candidateChoice = o.pageStartIdx[o.curPage]
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}
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}
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// Move to the previous page if possible, returning selection to the first item in the page
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func (o *opCompleter) prevPage() {
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if o.curPage > 0 {
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o.curPage -= 1
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o.candidateChoice = o.pageStartIdx[o.curPage]
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}
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}
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// OnComplete returns true if complete mode is available. Used to ring bell
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// when tab pressed if cannot do complete for reason such as width unknown
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// or no candidates available.
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func (o *opCompleter) OnComplete() (ringBell bool) {
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tWidth, tHeight := o.w.GetWidthHeight()
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if tWidth == 0 || tHeight < 3 {
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return false
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}
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if o.IsInCompleteSelectMode() {
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o.doSelect()
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return true
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}
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buf := o.op.buf
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rs := buf.Runes()
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// If in complete mode and nothing else typed then we must be entering select mode
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if o.IsInCompleteMode() && o.candidateSource != nil && runes.Equal(rs, o.candidateSource) {
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if len(o.candidate) > 1 {
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same, size := runes.Aggregate(o.candidate)
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if size > 0 {
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buf.WriteRunes(same)
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o.ExitCompleteMode(false)
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return false // partial completion so ring the bell
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}
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}
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o.EnterCompleteSelectMode()
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o.doSelect()
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return true
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}
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newLines, offset := o.op.GetConfig().AutoComplete.Do(rs, buf.idx)
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if len(newLines) == 0 || (len(newLines) == 1 && len(newLines[0]) == 0) {
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o.ExitCompleteMode(false)
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return false // will ring bell on initial tab press
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}
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if o.candidateOff > offset {
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// part of buffer we are completing has changed. Example might be that we were completing "ls" and
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// user typed space so we are no longer completing "ls" but now we are completing an argument of
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// the ls command. Instead of continuing in complete mode, we exit.
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o.ExitCompleteMode(false)
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return true
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}
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o.candidateSource = rs
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// only Aggregate candidates in non-complete mode
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if !o.IsInCompleteMode() {
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if len(newLines) == 1 {
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// not yet in complete mode but only 1 candidate so complete it
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buf.WriteRunes(newLines[0])
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o.ExitCompleteMode(false)
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return true
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}
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// check if all candidates have common prefix and return it and its size
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same, size := runes.Aggregate(newLines)
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if size > 0 {
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buf.WriteRunes(same)
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o.ExitCompleteMode(false)
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return false // partial completion so ring the bell
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}
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}
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// otherwise, we just enter complete mode (which does a refresh)
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o.EnterCompleteMode(offset, newLines)
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return true
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}
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func (o *opCompleter) IsInCompleteSelectMode() bool {
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return o.inSelectMode
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}
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func (o *opCompleter) IsInCompleteMode() bool {
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return o.inCompleteMode.Load() == 1
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}
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func (o *opCompleter) HandleCompleteSelect(r rune) (stayInMode bool) {
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next := true
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switch r {
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case CharEnter, CharCtrlJ:
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next = false
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o.op.buf.WriteRunes(o.candidate[o.candidateChoice])
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o.ExitCompleteMode(false)
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case CharLineStart:
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o.lineStart()
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case CharLineEnd:
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o.lineEnd()
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case CharBackspace:
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o.ExitCompleteSelectMode()
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next = false
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case CharTab:
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o.nextCandidate()
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case CharForward:
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o.nextCol(1)
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case CharBell, CharInterrupt:
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o.ExitCompleteMode(true)
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next = false
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case CharNext:
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o.nextLine()
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case CharBackward, MetaShiftTab:
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o.nextCol(-1)
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case CharPrev:
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o.prevLine()
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case 'j', 'J':
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o.prevPage()
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case 'k', 'K':
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o.nextPage()
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default:
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next = false
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o.ExitCompleteSelectMode()
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}
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if next {
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o.CompleteRefresh()
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return true
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}
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return false
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}
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func (o *opCompleter) getMatrixSize() int {
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colNum := 1
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if o.candidateColNum > 1 {
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colNum = o.candidateColNum
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}
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line := o.getMatrixNumRows()
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return line * colNum
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}
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// Number of candidate that could fit on current page
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func (o *opCompleter) numCandidateCurPage() int {
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// Safety: we will always render the first page, and whenever we finished rendering page i,
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// we always populate o.candidatePageStart through at least i + 1, so when this is called, we
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// always know the start of the next page
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return o.pageStartIdx[o.curPage+1] - o.pageStartIdx[o.curPage]
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}
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// Get number of rows of current page viewed as a matrix of candidates
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func (o *opCompleter) getMatrixNumRows() int {
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candidateCurPage := o.numCandidateCurPage()
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// Normal case where there is no wrap
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if o.candidateColNum > 1 {
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numLine := candidateCurPage / o.candidateColNum
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if candidateCurPage%o.candidateColNum != 0 {
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numLine++
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}
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return numLine
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}
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// Now since there are wraps, each candidate will be put on its own line, so the number of lines is just the number of candidate
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return candidateCurPage
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}
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// setColumnInfo calculates column width and number of columns required
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// to present the list of candidates on the terminal.
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func (o *opCompleter) setColumnInfo() {
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same := o.op.buf.RuneSlice(-o.candidateOff)
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sameWidth := runes.WidthAll(same)
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colWidth := 0
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for _, c := range o.candidate {
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w := sameWidth + runes.WidthAll(c)
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if w > colWidth {
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colWidth = w
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}
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}
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colWidth++ // whitespace between cols
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tWidth, _ := o.w.GetWidthHeight()
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// -1 to avoid end of line issues
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width := tWidth - 1
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colNum := width / colWidth
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if colNum != 0 {
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colWidth += (width - (colWidth * colNum)) / colNum
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}
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o.candidateColNum = colNum
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o.candidateColWidth = colWidth
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}
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// CompleteRefresh is used for completemode and selectmode
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func (o *opCompleter) CompleteRefresh() {
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if !o.IsInCompleteMode() {
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return
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}
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buf := bufio.NewWriter(o.w)
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// calculate num lines from cursor pos to where choices should be written
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lineCnt := o.op.buf.CursorLineCount()
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buf.Write(bytes.Repeat([]byte("\n"), lineCnt)) // move down from cursor to start of candidates
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buf.WriteString("\033[J")
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same := o.op.buf.RuneSlice(-o.candidateOff)
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tWidth, _ := o.w.GetWidthHeight()
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colIdx := 0
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lines := 0
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sameWidth := runes.WidthAll(same)
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// Show completions for the current page
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idx := o.pageStartIdx[o.curPage]
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for ; idx < len(o.candidate); idx++ {
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// If writing the current candidate would overflow the page,
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// we know that it is the start of the next page.
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if colIdx == 0 && lines == o.linesAvail {
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if o.curPage == len(o.pageStartIdx)-1 {
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o.pageStartIdx = append(o.pageStartIdx, idx)
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}
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break
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}
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c := o.candidate[idx]
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inSelect := idx == o.candidateChoice && o.IsInCompleteSelectMode()
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cWidth := sameWidth + runes.WidthAll(c)
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cLines := 1
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if tWidth > 0 {
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sWidth := 0
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if platform.IsWindows && inSelect {
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sWidth = 1 // adjust for hightlighting on Windows
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}
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cLines = (cWidth + sWidth) / tWidth
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if (cWidth+sWidth)%tWidth > 0 {
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cLines++
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}
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}
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if lines > 0 && colIdx == 0 {
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// After line 1, if we're printing to the first column
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// goto a new line. We do it here, instead of at the end
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// of the loop, to avoid the last \n taking up a blank
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// line at the end and stealing realestate.
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buf.WriteString("\n")
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}
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if inSelect {
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buf.WriteString("\033[30;47m")
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}
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buf.WriteString(string(same))
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buf.WriteString(string(c))
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if o.candidateColNum >= 1 {
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// only output spaces between columns if everything fits
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buf.Write(bytes.Repeat([]byte(" "), o.candidateColWidth-cWidth))
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}
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if inSelect {
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buf.WriteString("\033[0m")
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}
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colIdx++
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if colIdx >= o.candidateColNum {
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lines += cLines
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colIdx = 0
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if platform.IsWindows {
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// Windows EOL edge-case.
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buf.WriteString("\b")
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}
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}
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}
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if idx == len(o.candidate) {
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// Book-keeping for the last page.
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o.pageStartIdx = append(o.pageStartIdx, len(o.candidate))
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}
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if colIdx > 0 {
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lines++ // mid-line so count it.
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}
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// Show the guidance if there are more pages
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if idx != len(o.candidate) || o.curPage > 0 {
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buf.WriteString("\n-- (j: prev page) (k: next page) --")
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lines++
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}
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// wrote out choices over "lines", move back to cursor (positioned at index)
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fmt.Fprintf(buf, "\033[%dA", lines)
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buf.Write(o.op.buf.getBackspaceSequence())
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buf.Flush()
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}
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func (o *opCompleter) EnterCompleteSelectMode() {
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o.inSelectMode = true
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o.candidateChoice = -1
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}
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func (o *opCompleter) EnterCompleteMode(offset int, candidate [][]rune) {
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o.inCompleteMode.Store(1)
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o.candidate = candidate
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o.candidateOff = offset
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o.setColumnInfo()
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o.initPage()
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o.CompleteRefresh()
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}
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func (o *opCompleter) initPage() {
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_, tHeight := o.w.GetWidthHeight()
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buflineCnt := o.op.buf.LineCount() // lines taken by buffer content
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o.linesAvail = tHeight - buflineCnt - 1 // lines available without scrolling buffer off screen, reserve one line for the guidance message
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o.pageStartIdx = []int{0} // first page always start at 0
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o.curPage = 0
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}
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func (o *opCompleter) ExitCompleteSelectMode() {
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o.inSelectMode = false
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o.candidateChoice = -1
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}
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func (o *opCompleter) ExitCompleteMode(revent bool) {
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o.inCompleteMode.Store(0)
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o.candidate = nil
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o.candidateOff = -1
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o.candidateSource = nil
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o.ExitCompleteSelectMode()
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}
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