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|
package ui
import (
"context"
"math"
"strings"
"sync"
"time"
"github.com/mattn/go-runewidth"
"git.sr.ht/~rjarry/aerc/config"
"git.sr.ht/~rjarry/aerc/lib/log"
"git.sr.ht/~rjarry/go-opt/v2"
"git.sr.ht/~rockorager/vaxis"
)
// TODO: Attach history providers
type TextInput struct {
sync.Mutex
cells int
ctx *Context
focus bool
index int
password bool
prompt string
scroll int
text []vaxis.Character
change []func(ti *TextInput)
focusLost []func(ti *TextInput)
tabcomplete func(ctx context.Context, s string) ([]opt.Completion, string)
tabcompleteCancel context.CancelFunc
completions []opt.Completion
prefix string
completeIndex int
completeDelay time.Duration
completeDebouncer *time.Timer
completeMinChars int
completeKey *config.KeyStroke
uiConfig *config.UIConfig
}
// Creates a new TextInput. TextInputs will render a "textbox" in the entire
// context they're given, and process keypresses to build a string from user
// input.
func NewTextInput(text string, ui *config.UIConfig) *TextInput {
chars := vaxis.Characters(text)
return &TextInput{
cells: -1,
text: chars,
index: len(chars),
uiConfig: ui,
tabcompleteCancel: func() {},
}
}
func (ti *TextInput) Password(password bool) *TextInput {
ti.password = password
return ti
}
func (ti *TextInput) Prompt(prompt string) *TextInput {
ti.prompt = prompt
return ti
}
func (ti *TextInput) TabComplete(
tabcomplete func(ctx context.Context, s string) ([]opt.Completion, string),
d time.Duration, minChars int, key *config.KeyStroke,
) *TextInput {
ti.tabcomplete = tabcomplete
ti.completeDelay = d
ti.completeMinChars = minChars
ti.completeKey = key
return ti
}
func (ti *TextInput) String() string {
return charactersToString(ti.text)
}
func (ti *TextInput) StringLeft() string {
if ti.index > len(ti.text) {
ti.index = len(ti.text)
}
left := ti.text[:ti.index]
return charactersToString(left)
}
func (ti *TextInput) StringRight() string {
if ti.index >= len(ti.text) {
return ""
}
right := ti.text[ti.index:]
return charactersToString(right)
}
func charactersToString(chars []vaxis.Character) string {
buf := strings.Builder{}
for _, ch := range chars {
buf.WriteString(ch.Grapheme)
}
return buf.String()
}
func (ti *TextInput) Set(value string) *TextInput {
ti.text = vaxis.Characters(value)
ti.index = len(ti.text)
ti.scroll = 0
return ti
}
func (ti *TextInput) Invalidate() {
Invalidate()
}
func (ti *TextInput) Draw(ctx *Context) {
scroll := 0
if ti.focus {
ti.ensureScroll()
scroll = ti.scroll
}
ti.ctx = ctx // gross
defaultStyle := ti.uiConfig.GetStyle(config.STYLE_DEFAULT)
ctx.Fill(0, 0, ctx.Width(), ctx.Height(), ' ', defaultStyle)
text := ti.text[scroll:]
sindex := ti.index - scroll
if ti.password {
x := ctx.Printf(0, 0, defaultStyle, "%s", ti.prompt)
cells := len(ti.text)
ctx.Fill(x, 0, cells, 1, '*', defaultStyle)
} else {
ctx.Printf(0, 0, defaultStyle, "%s%s", ti.prompt, charactersToString(text))
}
cells := runewidth.StringWidth(charactersToString(text[:sindex]) + ti.prompt)
if ti.focus {
ctx.SetCursor(cells, 0, vaxis.CursorDefault)
ti.drawPopover(ctx)
}
}
func (ti *TextInput) drawPopover(ctx *Context) {
if len(ti.completions) == 0 {
return
}
valWidth := 0
descWidth := 0
for _, c := range ti.completions {
valWidth = max(valWidth, runewidth.StringWidth(unquote(c.Value)))
descWidth = max(descWidth, runewidth.StringWidth(c.Description))
}
descWidth = min(descWidth, 80)
// one space padding
width := 1 + valWidth
if descWidth != 0 {
// two spaces padding + parentheses
width += 2 + descWidth + 2
}
// one space padding + gutter
width += 2
cmp := &completions{ti: ti, valWidth: valWidth, descWidth: descWidth}
height := len(ti.completions)
pos := len(ti.prefix) - ti.scroll
if pos+width > ctx.Width() {
pos = ctx.Width() - width
}
if pos < 0 {
pos = 0
}
ctx.Popover(pos, 0, width, height, cmp)
}
func (ti *TextInput) MouseEvent(localX int, localY int, event vaxis.Event) {
if event, ok := event.(vaxis.Mouse); ok {
if event.Button == vaxis.MouseLeftButton {
if localX >= len(ti.prompt)+1 && localX <= len(ti.text[ti.scroll:])+len(ti.prompt)+1 {
ti.index = localX - len(ti.prompt) - 1
ti.ensureScroll()
ti.Invalidate()
}
}
}
}
func (ti *TextInput) Focus(focus bool) {
if ti.focus && !focus {
ti.onFocusLost()
}
ti.focus = focus
if focus && ti.ctx != nil {
cells := runewidth.StringWidth(charactersToString(ti.text[:ti.index]))
ti.ctx.SetCursor(cells+1, 0, vaxis.CursorDefault)
} else if !focus && ti.ctx != nil {
ti.ctx.HideCursor()
}
}
func (ti *TextInput) ensureScroll() {
if ti.ctx == nil {
return
}
w := ti.ctx.Width() - len(ti.prompt)
if ti.index >= ti.scroll+w {
ti.scroll = ti.index - w + 1
}
if ti.index < ti.scroll {
ti.scroll = ti.index
}
}
func (ti *TextInput) insert(ch vaxis.Character) {
left := ti.text[:ti.index]
right := ti.text[ti.index:]
ti.text = append(left, append([]vaxis.Character{ch}, right...)...) //nolint:gocritic // intentional append to different slice
ti.index++
ti.ensureScroll()
ti.Invalidate()
ti.onChange()
}
func (ti *TextInput) deleteWord() {
if len(ti.text) == 0 || ti.index <= 0 {
return
}
separators := "/'\""
i := ti.index - 1
for i >= 0 && ti.text[i].Grapheme == " " {
i--
}
if i >= 0 && strings.Contains(separators, ti.text[i].Grapheme) {
for i >= 0 && strings.Contains(separators, ti.text[i].Grapheme) {
i--
}
} else {
separators += " "
for i >= 0 && !strings.Contains(separators, ti.text[i].Grapheme) {
i--
}
}
ti.text = append(ti.text[:i+1], ti.text[ti.index:]...)
ti.index = i + 1
ti.ensureScroll()
ti.Invalidate()
ti.onChange()
}
func (ti *TextInput) deleteLineForward() {
if len(ti.text) == 0 || len(ti.text) == ti.index {
return
}
ti.text = ti.text[:ti.index]
ti.ensureScroll()
ti.Invalidate()
ti.onChange()
}
func (ti *TextInput) deleteLineBackward() {
if len(ti.text) == 0 || ti.index == 0 {
return
}
ti.text = ti.text[ti.index:]
ti.index = 0
ti.ensureScroll()
ti.Invalidate()
ti.onChange()
}
func (ti *TextInput) deleteChar() {
if len(ti.text) > 0 && ti.index != len(ti.text) {
ti.text = append(ti.text[:ti.index], ti.text[ti.index+1:]...)
ti.ensureScroll()
ti.Invalidate()
ti.onChange()
}
}
func (ti *TextInput) backspace() {
if len(ti.text) > 0 && ti.index != 0 {
ti.text = append(ti.text[:ti.index-1], ti.text[ti.index:]...)
ti.index--
ti.ensureScroll()
ti.Invalidate()
ti.onChange()
}
}
func (ti *TextInput) executeCompletion() {
if len(ti.completions) > 0 {
ti.Set(ti.prefix + ti.completions[ti.completeIndex].Value + ti.StringRight())
}
}
func (ti *TextInput) invalidateCompletions() {
ti.completions = nil
}
func (ti *TextInput) onChange() {
ti.updateCompletions()
for _, change := range ti.change {
change(ti)
}
}
func (ti *TextInput) onFocusLost() {
for _, focusLost := range ti.focusLost {
focusLost(ti)
}
}
func (ti *TextInput) updateCompletions() {
if ti.tabcomplete == nil {
// no completer
return
}
if ti.completeMinChars == config.MANUAL_COMPLETE {
// only manually triggered completion
return
}
if ti.completeDebouncer == nil {
ti.completeDebouncer = time.AfterFunc(ti.completeDelay, func() {
defer log.PanicHandler()
ti.Lock()
if len(ti.StringLeft()) >= ti.completeMinChars {
ti.showCompletions(false)
}
ti.Unlock()
})
} else {
ti.completeDebouncer.Stop()
ti.completeDebouncer.Reset(ti.completeDelay)
}
}
func (ti *TextInput) showCompletions(explicit bool) {
if ti.tabcomplete == nil {
// no completer
return
}
if ti.tabcompleteCancel != nil {
// Cancel any inflight completions we currently have
ti.tabcompleteCancel()
}
ctx, cancel := context.WithCancel(context.Background())
ti.tabcompleteCancel = cancel
go func() {
defer log.PanicHandler()
matches, prefix := ti.tabcomplete(ctx, ti.StringLeft())
select {
case <-ctx.Done():
return
default:
ti.Lock()
defer ti.Unlock()
ti.completions = matches
ti.prefix = prefix
if explicit && len(ti.completions) == 1 {
// automatically accept if there is only one choice
ti.completeIndex = 0
ti.executeCompletion()
ti.invalidateCompletions()
} else {
ti.completeIndex = -1
}
Invalidate()
}
}()
}
func (ti *TextInput) OnChange(onChange func(ti *TextInput)) {
ti.change = append(ti.change, onChange)
}
func (ti *TextInput) OnFocusLost(onFocusLost func(ti *TextInput)) {
ti.focusLost = append(ti.focusLost, onFocusLost)
}
func (ti *TextInput) Event(event vaxis.Event) bool {
ti.Lock()
defer ti.Unlock()
if key, ok := event.(vaxis.Key); ok {
c := ti.completeKey
if c != nil && key.Matches(c.Key, c.Modifiers) {
ti.showCompletions(true)
return true
}
ti.invalidateCompletions()
switch {
case key.Matches(vaxis.KeyBackspace):
ti.backspace()
case key.Matches('d', vaxis.ModCtrl), key.Matches(vaxis.KeyDelete):
ti.deleteChar()
case key.Matches('b', vaxis.ModCtrl), key.Matches(vaxis.KeyLeft):
if ti.index > 0 {
ti.index--
ti.ensureScroll()
ti.Invalidate()
}
case key.Matches('f', vaxis.ModCtrl), key.Matches(vaxis.KeyRight):
if ti.index < len(ti.text) {
ti.index++
ti.ensureScroll()
ti.Invalidate()
}
case key.Matches('a', vaxis.ModCtrl), key.Matches(vaxis.KeyHome):
ti.index = 0
ti.ensureScroll()
ti.Invalidate()
case key.Matches('e', vaxis.ModCtrl), key.Matches(vaxis.KeyEnd):
ti.index = len(ti.text)
ti.ensureScroll()
ti.Invalidate()
case key.Matches('k', vaxis.ModCtrl):
ti.deleteLineForward()
case key.Matches('w', vaxis.ModCtrl):
ti.deleteWord()
case key.Matches('u', vaxis.ModCtrl):
ti.deleteLineBackward()
case key.Matches(vaxis.KeyEsc):
ti.Invalidate()
case key.Text != "":
chars := vaxis.Characters(key.Text)
for _, ch := range chars {
ti.insert(ch)
}
}
}
return true
}
type completions struct {
ti *TextInput
valWidth int
descWidth int
}
func unquote(s string) string {
if strings.HasPrefix(s, "'") && strings.HasSuffix(s, "'") {
s = strings.ReplaceAll(s[1:len(s)-1], `'"'"'`, "'")
}
return s
}
func (c *completions) Draw(ctx *Context) {
bg := c.ti.uiConfig.GetStyle(config.STYLE_COMPLETION_DEFAULT)
bgDesc := c.ti.uiConfig.GetStyle(config.STYLE_COMPLETION_DESCRIPTION)
gutter := c.ti.uiConfig.GetStyle(config.STYLE_COMPLETION_GUTTER)
pill := c.ti.uiConfig.GetStyle(config.STYLE_COMPLETION_PILL)
sel := c.ti.uiConfig.GetStyleSelected(config.STYLE_COMPLETION_DEFAULT)
selDesc := c.ti.uiConfig.GetStyleSelected(config.STYLE_COMPLETION_DESCRIPTION)
ctx.Fill(0, 0, ctx.Width(), ctx.Height(), ' ', bg)
numVisible := ctx.Height()
startIdx := 0
if len(c.ti.completions) > numVisible && c.index()+1 > numVisible {
startIdx = c.index() - (numVisible - 1)
}
endIdx := startIdx + numVisible - 1
for idx, opt := range c.ti.completions {
if idx < startIdx {
continue
}
if idx > endIdx {
continue
}
val := runewidth.FillRight(unquote(opt.Value), c.valWidth)
desc := opt.Description
if desc != "" {
if runewidth.StringWidth(desc) > c.descWidth {
desc = runewidth.Truncate(desc, c.descWidth, "…")
}
desc = " " + runewidth.FillRight("("+desc+")", c.descWidth+2)
}
if c.index() == idx {
n := ctx.Printf(0, idx-startIdx, sel, " %s", val)
ctx.Printf(n, idx-startIdx, selDesc, "%s ", desc)
} else {
n := ctx.Printf(0, idx-startIdx, bg, " %s", val)
ctx.Printf(n, idx-startIdx, bgDesc, "%s ", desc)
}
}
percentVisible := float64(numVisible) / float64(len(c.ti.completions))
if percentVisible >= 1.0 {
return
}
// gutter
ctx.Fill(ctx.Width()-1, 0, 1, ctx.Height(), ' ', gutter)
pillSize := int(math.Ceil(float64(ctx.Height()) * percentVisible))
percentScrolled := float64(startIdx) / float64(len(c.ti.completions))
pillOffset := int(math.Floor(float64(ctx.Height()) * percentScrolled))
ctx.Fill(ctx.Width()-1, pillOffset, 1, pillSize, ' ', pill)
}
func (c *completions) index() int {
return c.ti.completeIndex
}
func (c *completions) next() {
index := c.index()
index++
if index >= len(c.ti.completions) {
index = -1
}
c.ti.completeIndex = index
Invalidate()
}
func (c *completions) prev() {
index := c.index()
index--
if index < -1 {
index = len(c.ti.completions) - 1
}
c.ti.completeIndex = index
Invalidate()
}
func (c *completions) exec() {
c.ti.executeCompletion()
c.ti.invalidateCompletions()
Invalidate()
}
func (c *completions) Event(e vaxis.Event) bool {
if e, ok := e.(vaxis.Key); ok {
k := c.ti.completeKey
if k != nil && e.Matches(k.Key, k.Modifiers) {
if len(c.ti.completions) == 1 {
c.ti.completeIndex = 0
c.exec()
} else {
stem := findStem(c.ti.completions)
if c.needsStem(stem) {
c.stem(stem)
}
c.next()
}
return true
}
switch {
case e.Matches('n', vaxis.ModCtrl), e.Matches(vaxis.KeyDown):
c.next()
return true
case e.Matches(vaxis.KeyTab, vaxis.ModShift),
e.Matches('p', vaxis.ModCtrl),
e.Matches(vaxis.KeyUp):
c.prev()
return true
case e.Matches(vaxis.KeyEnter):
if c.index() >= 0 {
c.exec()
return true
}
}
}
return false
}
func (c *completions) needsStem(stem string) bool {
if stem == "" || c.index() >= 0 {
return false
}
if len(stem)+len(c.ti.prefix) > len(c.ti.StringLeft()) {
return true
}
return false
}
func (c *completions) stem(stem string) {
c.ti.Set(c.ti.prefix + stem + c.ti.StringRight())
c.ti.index = len(vaxis.Characters(c.ti.prefix + stem))
}
func findStem(words []opt.Completion) string {
if len(words) == 0 {
return ""
}
if len(words) == 1 {
return words[0].Value
}
var stem string
stemLen := 1
firstWord := []rune(words[0].Value)
for {
if len(firstWord) < stemLen {
return stem
}
var r rune = firstWord[stemLen-1]
for _, word := range words[1:] {
runes := []rune(word.Value)
if len(runes) < stemLen {
return stem
}
if runes[stemLen-1] != r {
return stem
}
}
stem += string(r)
stemLen++
}
}
func (c *completions) Focus(_ bool) {}
func (c *completions) Invalidate() {}
|