gfishline/completer.go

package gfishline

import (
	"fmt"
	"slices"
	"strings"

	"gitea.zaclys.com/bvaudour/gob/format"
	"gitea.zaclys.com/bvaudour/gob/shell/console"
	"gitea.zaclys.com/bvaudour/gob/shell/console/atom"
)

func coordToIndex(x, y, c, n int) int {
	l, r := n/c, n%c
	switch {
	case r == 0:
		return x*l + y
	case x < r:
		return x*(l+1) + y
	case y >= l:
		return -1
	default:
		return r*(l+1) + (x-r)*l + y
	}
}

func indexToCoord(i, c, n int) (x, y int) {
	l, r := n/c, n%c
	switch {
	case r == 0:
		x, y = i/l, i%l
	case i < r*(l+1):
		x, y = i/(l+1), i%(l+1)
	default:
		j := i - r*l
		x, y = r+j/l, j%l
	}

	return
}

type CompleteFunc func(words []string, wordIndex int, isIndexSpace bool) (choices []string)

func NoCompletion(words []string, wordIndex int, isIndexSpace bool) (choices []string) {
	return
}

func DefaultCompletion(commands, options []string) CompleteFunc {
	return func(words []string, wordIndex int, isIndexSpace bool) (choices []string) {
		if isIndexSpace {
			if wordIndex <= 0 {
				return commands
			}
			return options
		}

		word, sl := words[wordIndex], options
		if wordIndex == 0 {
			sl = commands
		}

		for _, choice := range sl {
			if strings.HasPrefix(choice, word) {
				choices = append(choices, choice)
			}
		}

		return
	}
}

type completer struct {
	*splitter
	wordIndex int
	wordPos   int
	isInit    bool
	needAdd   bool
	choices   console.Cycler
}

func newCompleter(buffer string, cursor int, complete CompleteFunc) *completer {
	c := completer{
		splitter: newSplitter(buffer, cursor),
		isInit:   true,
	}

	wordIndex, wordCursor, isIndexSpace := c.compute()
	if isIndexSpace && wordCursor == 0 && wordIndex > 0 {
		isIndexSpace = false
		c.cursor--
	}

	choices := complete(c.words, wordIndex, isIndexSpace)
	slices.Sort(choices)
	if !isIndexSpace {
		current := c.words[wordIndex]
		if slices.Contains(choices, current) {
			choices = append([]string{current}, slices.DeleteFunc(choices, func(e string) bool { return e == current })...)
		}
	}
	choices = slices.Compact(choices)

	c.choices = atom.NewCycler(true, choices...)
	c.needAdd, c.wordIndex, c.wordPos = isIndexSpace, wordIndex, wordCursor

	return &c
}

func (c *completer) update(next string) {
	c.setWord(c.wordIndex, next)

	if c.isInit {
		c.cursor += 2
		if _, ok := c.space[c.wordIndex+1]; !ok {
			c.space[c.wordIndex+1] = " "
		}
		c.isInit = false
	}
}

func (c *completer) add(next string) {
	c.addWord(c.wordIndex, next, c.wordPos)
	c.isInit, c.needAdd = false, false
}

func (c *completer) set() (ok bool) {
	var next string
	if next, ok = console.FocusedElement(c.choices).Get(); !ok {
		return
	}

	if c.needAdd {
		c.add(next)
	} else {
		c.update(next)
	}

	return
}

func (c *completer) prev() bool { return c.choices.Prev() && c.set() }

func (c *completer) next() bool { return c.choices.Next() && c.set() }

func (c *completer) move(index int) bool { return c.choices.SetCursor(index) && c.set() }

func (c *completer) formatChoices(currentWord string, terminalWidth, terminalHeight int) string {
	var buf strings.Builder
	l, cursor := c.choices.Len(), c.choices.Cursor()
	if l == 0 {
		return ""
	}

	var maxLen int
	choices := make([]string, l)
	for i := 0; i < l; i++ {
		word, _ := c.choices.Index(i).Get()
		maxLen, choices[i] = max(atom.VisibleWidth(word)+1, maxLen), word
	}

	maxCol := min(max(terminalWidth/maxLen, 1), 5)
	lines := l / maxCol
	if l%maxCol > 0 {
		lines++
	}
	lineMin, lineMax := 0, lines-1
	var isPartial bool
	if isPartial = terminalHeight < lines; isPartial {
		_, cursorLine := indexToCoord(cursor, maxCol, l)
		if cursorLine < terminalHeight {
			lineMax = min(terminalHeight, lines) - 1
		} else {
			lineMin, lineMax = cursorLine+1-min(terminalHeight, lines), cursorLine
		}
	}

	colWith := terminalWidth / maxCol
	if colWith > maxLen {
		colWith = (colWith + maxLen) >> 1
	}
	for y := lineMin; y <= lineMax; y++ {
		if y > 0 {
			buf.WriteRune('\n')
		}
		for x := 0; x < maxCol; x++ {
			i := coordToIndex(x, y, maxCol, l)
			if i >= 0 {
				word := choices[i]
				realSize, displaySize := len([]rune(word)), atom.VisibleWidth(word)
				size := maxLen + realSize - displaySize
				word = strings.TrimPrefix(format.Left(word, size), currentWord)
				if i == cursor {
					buf.WriteString(format.Apply(currentWord, "bg_l_white", "black", "bold", "underline"))
					buf.WriteString(format.Apply(word, "bg_l_white", "black"))
				} else {
					buf.WriteString(format.Apply(currentWord, "bold", "underline"))
					buf.WriteString(word)
				}
			}
		}
	}

	if isPartial {
		position := fmt.Sprintf("lignes %d à %d (%d)", lineMin+1, lineMax+1, lines)
		buf.WriteRune('\n')
		buf.WriteString(format.Apply(position, "bg_l_cyan", "black"))
	}

	return buf.String()
}
Commit initial 2024-03-02 14:05:33 +00:00			`package gfishline`

			`import (`
			`"fmt"`
			`"slices"`
			`"strings"`

			`"gitea.zaclys.com/bvaudour/gob/format"`
			`"gitea.zaclys.com/bvaudour/gob/shell/console"`
			`"gitea.zaclys.com/bvaudour/gob/shell/console/atom"`
			`)`

			`func coordToIndex(x, y, c, n int) int {`
			`l, r := n/c, n%c`
			`switch {`
			`case r == 0:`
			`return x*l + y`
			`case x < r:`
			`return x*(l+1) + y`
			`case y >= l:`
			`return -1`
			`default:`
			`return r(l+1) + (x-r)l + y`
			`}`
			`}`

			`func indexToCoord(i, c, n int) (x, y int) {`
			`l, r := n/c, n%c`
			`switch {`
			`case r == 0:`
			`x, y = i/l, i%l`
			`case i < r*(l+1):`
			`x, y = i/(l+1), i%(l+1)`
			`default:`
			`j := i - r*l`
			`x, y = r+j/l, j%l`
			`}`

			`return`
			`}`

			`type CompleteFunc func(words []string, wordIndex int, isIndexSpace bool) (choices []string)`

			`func NoCompletion(words []string, wordIndex int, isIndexSpace bool) (choices []string) {`
			`return`
			`}`

			`func DefaultCompletion(commands, options []string) CompleteFunc {`
			`return func(words []string, wordIndex int, isIndexSpace bool) (choices []string) {`
			`if isIndexSpace {`
			`if wordIndex <= 0 {`
			`return commands`
			`}`
			`return options`
			`}`

			`word, sl := words[wordIndex], options`
			`if wordIndex == 0 {`
			`sl = commands`
			`}`

			`for _, choice := range sl {`
			`if strings.HasPrefix(choice, word) {`
			`choices = append(choices, choice)`
			`}`
			`}`

			`return`
			`}`
			`}`

			`type completer struct {`
			`*splitter`
			`wordIndex int`
			`wordPos int`
			`isInit bool`
			`needAdd bool`
			`choices console.Cycler`
			`}`

			`func newCompleter(buffer string, cursor int, complete CompleteFunc) *completer {`
			`c := completer{`
			`splitter: newSplitter(buffer, cursor),`
			`isInit: true,`
			`}`

			`wordIndex, wordCursor, isIndexSpace := c.compute()`
			`if isIndexSpace && wordCursor == 0 && wordIndex > 0 {`
			`isIndexSpace = false`
			`c.cursor--`
			`}`

			`choices := complete(c.words, wordIndex, isIndexSpace)`
			`slices.Sort(choices)`
			`if !isIndexSpace {`
			`current := c.words[wordIndex]`
			`if slices.Contains(choices, current) {`
			`choices = append([]string{current}, slices.DeleteFunc(choices, func(e string) bool { return e == current })...)`
			`}`
			`}`
			`choices = slices.Compact(choices)`

			`c.choices = atom.NewCycler(true, choices...)`
			`c.needAdd, c.wordIndex, c.wordPos = isIndexSpace, wordIndex, wordCursor`

			`return &c`
			`}`

			`func (c *completer) update(next string) {`
			`c.setWord(c.wordIndex, next)`

			`if c.isInit {`
			`c.cursor += 2`
			`if _, ok := c.space[c.wordIndex+1]; !ok {`
			`c.space[c.wordIndex+1] = " "`
			`}`
			`c.isInit = false`
			`}`
			`}`

			`func (c *completer) add(next string) {`
			`c.addWord(c.wordIndex, next, c.wordPos)`
			`c.isInit, c.needAdd = false, false`
			`}`

			`func (c *completer) set() (ok bool) {`
			`var next string`
			`if next, ok = console.FocusedElement(c.choices).Get(); !ok {`
			`return`
			`}`

			`if c.needAdd {`
			`c.add(next)`
			`} else {`
			`c.update(next)`
			`}`

			`return`
			`}`

			`func (c *completer) prev() bool { return c.choices.Prev() && c.set() }`

			`func (c *completer) next() bool { return c.choices.Next() && c.set() }`

			`func (c *completer) move(index int) bool { return c.choices.SetCursor(index) && c.set() }`

			`func (c *completer) formatChoices(currentWord string, terminalWidth, terminalHeight int) string {`
			`var buf strings.Builder`
			`l, cursor := c.choices.Len(), c.choices.Cursor()`
			`if l == 0 {`
			`return ""`
			`}`

			`var maxLen int`
			`choices := make([]string, l)`
			`for i := 0; i < l; i++ {`
			`word, _ := c.choices.Index(i).Get()`
			`maxLen, choices[i] = max(atom.VisibleWidth(word)+1, maxLen), word`
			`}`

			`maxCol := min(max(terminalWidth/maxLen, 1), 5)`
			`lines := l / maxCol`
			`if l%maxCol > 0 {`
			`lines++`
			`}`
			`lineMin, lineMax := 0, lines-1`
			`var isPartial bool`
			`if isPartial = terminalHeight < lines; isPartial {`
			`_, cursorLine := indexToCoord(cursor, maxCol, l)`
			`if cursorLine < terminalHeight {`
			`lineMax = min(terminalHeight, lines) - 1`
			`} else {`
			`lineMin, lineMax = cursorLine+1-min(terminalHeight, lines), cursorLine`
			`}`
			`}`

			`colWith := terminalWidth / maxCol`
			`if colWith > maxLen {`
			`colWith = (colWith + maxLen) >> 1`
			`}`
			`for y := lineMin; y <= lineMax; y++ {`
			`if y > 0 {`
			`buf.WriteRune('\n')`
			`}`
			`for x := 0; x < maxCol; x++ {`
			`i := coordToIndex(x, y, maxCol, l)`
			`if i >= 0 {`
			`word := choices[i]`
			`realSize, displaySize := len([]rune(word)), atom.VisibleWidth(word)`
			`size := maxLen + realSize - displaySize`
			`word = strings.TrimPrefix(format.Left(word, size), currentWord)`
			`if i == cursor {`
			`buf.WriteString(format.Apply(currentWord, "bg_l_white", "black", "bold", "underline"))`
			`buf.WriteString(format.Apply(word, "bg_l_white", "black"))`
			`} else {`
			`buf.WriteString(format.Apply(currentWord, "bold", "underline"))`
			`buf.WriteString(word)`
			`}`
			`}`
			`}`
			`}`

			`if isPartial {`
			`position := fmt.Sprintf("lignes %d à %d (%d)", lineMin+1, lineMax+1, lines)`
			`buf.WriteRune('\n')`
			`buf.WriteString(format.Apply(position, "bg_l_cyan", "black"))`
			`}`

			`return buf.String()`
			`}`