Files
gio/widget/editor.go
T
Chris Waldon fe5878bc63 widget: track minWidth of editor for alignment
This commit extends the editor to keep track of its own minimum constraint
and to provide that value to the text shaper for the purpose of aligning
text. Without this, the shaper does not know how much of the width of the
editor to use for alignment purposes.

Signed-off-by: Chris Waldon <christopher.waldon.dev@gmail.com>
2022-12-19 11:17:12 -06:00

1380 lines
35 KiB
Go

// SPDX-License-Identifier: Unlicense OR MIT
package widget
import (
"image"
"io"
"math"
"sort"
"strings"
"time"
"unicode"
"unicode/utf8"
"gioui.org/f32"
"gioui.org/gesture"
"gioui.org/io/clipboard"
"gioui.org/io/event"
"gioui.org/io/key"
"gioui.org/io/pointer"
"gioui.org/io/system"
"gioui.org/layout"
"gioui.org/op"
"gioui.org/op/clip"
"gioui.org/op/paint"
"gioui.org/text"
"gioui.org/unit"
"golang.org/x/exp/constraints"
"golang.org/x/image/math/fixed"
)
// Editor implements an editable and scrollable text area.
type Editor struct {
Alignment text.Alignment
// SingleLine force the text to stay on a single line.
// SingleLine also sets the scrolling direction to
// horizontal.
SingleLine bool
// Submit enabled translation of carriage return keys to SubmitEvents.
// If not enabled, carriage returns are inserted as newlines in the text.
Submit bool
// Mask replaces the visual display of each rune in the contents with the given rune.
// Newline characters are not masked. When non-zero, the unmasked contents
// are accessed by Len, Text, and SetText.
Mask rune
// InputHint specifies the type of on-screen keyboard to be displayed.
InputHint key.InputHint
// MaxLen limits the editor content to a maximum length. Zero means no limit.
MaxLen int
// Filter is the list of characters allowed in the Editor. If Filter is empty,
// all characters are allowed.
Filter string
eventKey int
font text.Font
shaper *text.Shaper
textSize fixed.Int26_6
blinkStart time.Time
focused bool
rr editBuffer
maskReader maskReader
lastMask rune
maxWidth, minWidth int
viewSize image.Point
valid bool
regions []region
dims layout.Dimensions
requestFocus bool
// offIndex is an index of rune index to byte offsets.
offIndex []offEntry
index glyphIndex
// ime tracks the state relevant to input methods.
ime struct {
imeState
scratch []byte
}
caret struct {
on bool
scroll bool
// xoff is the offset to the current position when moving between lines.
xoff fixed.Int26_6
// start is the current caret position in runes, and also the start position of
// selected text. end is the end position of selected text. If start
// == end, then there's no selection. Note that it's possible (and
// common) that the caret (start) is after the end, e.g. after
// Shift-DownArrow.
start int
end int
}
dragging bool
dragger gesture.Drag
scroller gesture.Scroll
scrollOff image.Point
clicker gesture.Click
// events is the list of events not yet processed.
events []EditorEvent
// prevEvents is the number of events from the previous frame.
prevEvents int
locale system.Locale
// history contains undo history.
history []modification
// nextHistoryIdx is the index within the history of the next modification. This
// is only not len(history) immediately after undo operations occur. It is framed as the "next" value
// to make the zero value consistent.
nextHistoryIdx int
}
type offEntry struct {
runes int
bytes int
}
type imeState struct {
selection struct {
rng key.Range
caret key.Caret
}
snippet key.Snippet
start, end int
}
type maskReader struct {
// rr is the underlying reader.
rr io.RuneReader
maskBuf [utf8.UTFMax]byte
// mask is the utf-8 encoded mask rune.
mask []byte
}
type selectionAction int
const (
selectionExtend selectionAction = iota
selectionClear
)
func (m *maskReader) Reset(r io.RuneReader, mr rune) {
m.rr = r
n := utf8.EncodeRune(m.maskBuf[:], mr)
m.mask = m.maskBuf[:n]
}
// ReadRune reads a rune from the underlying reader and replaces every
// rune with the mask rune.
func (m *maskReader) ReadRune() (r rune, n int, err error) {
r, _, err = m.rr.ReadRune()
if err != nil {
return
}
if r != '\n' {
r, _ = utf8.DecodeRune(m.mask)
n = len(m.mask)
} else {
n = 1
}
return
}
type EditorEvent interface {
isEditorEvent()
}
// A ChangeEvent is generated for every user change to the text.
type ChangeEvent struct{}
// A SubmitEvent is generated when Submit is set
// and a carriage return key is pressed.
type SubmitEvent struct {
Text string
}
// A SelectEvent is generated when the user selects some text, or changes the
// selection (e.g. with a shift-click), including if they remove the
// selection. The selected text is not part of the event, on the theory that
// it could be a relatively expensive operation (for a large editor), most
// applications won't actually care about it, and those that do can call
// Editor.SelectedText() (which can be empty).
type SelectEvent struct{}
const (
blinksPerSecond = 1
maxBlinkDuration = 10 * time.Second
)
// Events returns available editor events.
func (e *Editor) Events() []EditorEvent {
events := e.events
e.events = nil
e.prevEvents = 0
return events
}
func (e *Editor) processEvents(gtx layout.Context) {
// Flush events from before the previous Layout.
n := copy(e.events, e.events[e.prevEvents:])
e.events = e.events[:n]
e.prevEvents = n
if e.shaper == nil {
// Can't process events without a shaper.
return
}
oldStart, oldLen := min(e.caret.start, e.caret.end), e.SelectionLen()
e.processPointer(gtx)
e.processKey(gtx)
// Queue a SelectEvent if the selection changed, including if it went away.
if newStart, newLen := min(e.caret.start, e.caret.end), e.SelectionLen(); oldStart != newStart || oldLen != newLen {
e.events = append(e.events, SelectEvent{})
}
}
func (e *Editor) makeValid() {
if e.valid {
return
}
e.layoutText(e.shaper)
e.valid = true
}
func (e *Editor) processPointer(gtx layout.Context) {
sbounds := e.scrollBounds()
var smin, smax int
var axis gesture.Axis
if e.SingleLine {
axis = gesture.Horizontal
smin, smax = sbounds.Min.X, sbounds.Max.X
} else {
axis = gesture.Vertical
smin, smax = sbounds.Min.Y, sbounds.Max.Y
}
sdist := e.scroller.Scroll(gtx.Metric, gtx, gtx.Now, axis)
var soff int
if e.SingleLine {
e.scrollRel(sdist, 0)
soff = e.scrollOff.X
} else {
e.scrollRel(0, sdist)
soff = e.scrollOff.Y
}
for _, evt := range e.clickDragEvents(gtx) {
switch evt := evt.(type) {
case gesture.ClickEvent:
switch {
case evt.Type == gesture.TypePress && evt.Source == pointer.Mouse,
evt.Type == gesture.TypeClick && evt.Source != pointer.Mouse:
prevCaretPos := e.caret.start
e.blinkStart = gtx.Now
e.moveCoord(image.Point{
X: int(math.Round(float64(evt.Position.X))),
Y: int(math.Round(float64(evt.Position.Y))),
})
e.requestFocus = true
if e.scroller.State() != gesture.StateFlinging {
e.caret.scroll = true
}
if evt.Modifiers == key.ModShift {
// If they clicked closer to the end, then change the end to
// where the caret used to be (effectively swapping start & end).
if abs(e.caret.end-e.caret.start) < abs(e.caret.start-prevCaretPos) {
e.caret.end = prevCaretPos
}
} else {
e.ClearSelection()
}
e.dragging = true
// Process multi-clicks.
switch {
case evt.NumClicks == 2:
e.moveWord(-1, selectionClear)
e.moveWord(1, selectionExtend)
e.dragging = false
case evt.NumClicks >= 3:
e.moveStart(selectionClear)
e.moveEnd(selectionExtend)
e.dragging = false
}
}
case pointer.Event:
release := false
switch {
case evt.Type == pointer.Release && evt.Source == pointer.Mouse:
release = true
fallthrough
case evt.Type == pointer.Drag && evt.Source == pointer.Mouse:
if e.dragging {
e.blinkStart = gtx.Now
e.moveCoord(image.Point{
X: int(math.Round(float64(evt.Position.X))),
Y: int(math.Round(float64(evt.Position.Y))),
})
e.caret.scroll = true
if release {
e.dragging = false
}
}
}
}
}
if (sdist > 0 && soff >= smax) || (sdist < 0 && soff <= smin) {
e.scroller.Stop()
}
}
func (e *Editor) clickDragEvents(gtx layout.Context) []event.Event {
var combinedEvents []event.Event
for _, evt := range e.clicker.Events(gtx) {
combinedEvents = append(combinedEvents, evt)
}
for _, evt := range e.dragger.Events(gtx.Metric, gtx, gesture.Both) {
combinedEvents = append(combinedEvents, evt)
}
return combinedEvents
}
func (e *Editor) processKey(gtx layout.Context) {
if e.rr.Changed() {
e.events = append(e.events, ChangeEvent{})
}
// adjust keeps track of runes dropped because of MaxLen.
var adjust int
for _, ke := range gtx.Events(&e.eventKey) {
e.blinkStart = gtx.Now
switch ke := ke.(type) {
case key.FocusEvent:
e.focused = ke.Focus
// Reset IME state.
e.ime.imeState = imeState{}
case key.Event:
if !e.focused || ke.State != key.Press {
break
}
if e.Submit && (ke.Name == key.NameReturn || ke.Name == key.NameEnter) {
if !ke.Modifiers.Contain(key.ModShift) {
e.events = append(e.events, SubmitEvent{
Text: e.Text(),
})
continue
}
}
e.command(gtx, ke)
e.caret.scroll = true
e.scroller.Stop()
case key.SnippetEvent:
e.updateSnippet(gtx, ke.Start, ke.End)
case key.EditEvent:
e.caret.scroll = true
e.scroller.Stop()
s := ke.Text
moves := 0
submit := false
switch {
case e.Submit:
if i := strings.IndexByte(s, '\n'); i != -1 {
submit = true
moves += len(s) - i
s = s[:i]
}
case e.SingleLine:
s = strings.ReplaceAll(s, "\n", " ")
}
moves += e.replace(ke.Range.Start, ke.Range.End, s, true)
adjust += utf8.RuneCountInString(ke.Text) - moves
e.caret.xoff = 0
if submit {
if e.rr.Changed() {
e.events = append(e.events, ChangeEvent{})
}
e.events = append(e.events, SubmitEvent{
Text: e.Text(),
})
}
// Complete a paste event, initiated by Shortcut-V in Editor.command().
case clipboard.Event:
e.caret.scroll = true
e.scroller.Stop()
e.append(ke.Text)
case key.SelectionEvent:
e.caret.scroll = true
e.scroller.Stop()
ke.Start -= adjust
ke.End -= adjust
adjust = 0
e.caret.start = e.closestToRune(ke.Start).runes
e.caret.end = e.closestToRune(ke.End).runes
}
}
if e.rr.Changed() {
e.events = append(e.events, ChangeEvent{})
}
}
func (e *Editor) closestToRune(runeIdx int) combinedPos {
e.makeValid()
pos, _ := e.index.closestToRune(runeIdx)
return pos
}
func (e *Editor) closestToLineCol(line, col int) combinedPos {
e.makeValid()
return e.index.closestToLineCol(screenPos{line: line, col: col})
}
func (e *Editor) closestToXY(x fixed.Int26_6, y int) combinedPos {
e.makeValid()
return e.index.closestToXY(x, y)
}
func (e *Editor) moveLines(distance int, selAct selectionAction) {
caretStart := e.closestToRune(e.caret.start)
x := caretStart.x + e.caret.xoff
// Seek to line.
pos := e.closestToLineCol(caretStart.lineCol.line+distance, 0)
pos = e.closestToXY(x, pos.y)
e.caret.start = pos.runes
e.caret.xoff = x - pos.x
e.updateSelection(selAct)
}
func (e *Editor) command(gtx layout.Context, k key.Event) {
direction := 1
if e.locale.Direction.Progression() == system.TowardOrigin {
direction = -1
}
moveByWord := k.Modifiers.Contain(key.ModShortcutAlt)
selAct := selectionClear
if k.Modifiers.Contain(key.ModShift) {
selAct = selectionExtend
}
switch k.Name {
case key.NameReturn, key.NameEnter:
e.append("\n")
case key.NameDeleteBackward:
if moveByWord {
e.deleteWord(-1)
} else {
e.Delete(-1)
}
case key.NameDeleteForward:
if moveByWord {
e.deleteWord(1)
} else {
e.Delete(1)
}
case key.NameUpArrow:
e.moveLines(-1, selAct)
case key.NameDownArrow:
e.moveLines(+1, selAct)
case key.NameLeftArrow:
if moveByWord {
e.moveWord(-1*direction, selAct)
} else {
if selAct == selectionClear {
e.ClearSelection()
}
e.MoveCaret(-1*direction, -1*direction*int(selAct))
}
case key.NameRightArrow:
if moveByWord {
e.moveWord(1*direction, selAct)
} else {
if selAct == selectionClear {
e.ClearSelection()
}
e.MoveCaret(1*direction, int(selAct)*direction)
}
case key.NamePageUp:
e.movePages(-1, selAct)
case key.NamePageDown:
e.movePages(+1, selAct)
case key.NameHome:
e.moveStart(selAct)
case key.NameEnd:
e.moveEnd(selAct)
// Initiate a paste operation, by requesting the clipboard contents; other
// half is in Editor.processKey() under clipboard.Event.
case "V":
clipboard.ReadOp{Tag: &e.eventKey}.Add(gtx.Ops)
// Copy or Cut selection -- ignored if nothing selected.
case "C", "X":
if text := e.SelectedText(); text != "" {
clipboard.WriteOp{Text: text}.Add(gtx.Ops)
if k.Name == "X" {
e.Delete(1)
}
}
// Select all
case "A":
e.caret.end = 0
e.caret.start = e.Len()
case "Z":
if k.Modifiers.Contain(key.ModShift) {
e.redo()
} else {
e.undo()
}
}
}
// Focus requests the input focus for the Editor.
func (e *Editor) Focus() {
e.requestFocus = true
}
// Focused returns whether the editor is focused or not.
func (e *Editor) Focused() bool {
return e.focused
}
// calculateViewSize determines the size of the current visible content,
// ensuring that even if there is no text content, some space is reserved
// for the caret.
func (e *Editor) calculateViewSize(gtx layout.Context) image.Point {
base := e.dims.Size
if caretWidth := e.caretWidth(gtx); base.X < caretWidth {
base.X = caretWidth
}
return gtx.Constraints.Constrain(base)
}
// Layout lays out the editor. If content is not nil, it is laid out on top.
func (e *Editor) Layout(gtx layout.Context, lt *text.Shaper, font text.Font, size unit.Sp, content layout.Widget) layout.Dimensions {
if e.locale != gtx.Locale {
e.locale = gtx.Locale
e.invalidate()
}
textSize := fixed.I(gtx.Sp(size))
if e.font != font || e.textSize != textSize {
e.invalidate()
e.font = font
e.textSize = textSize
}
maxWidth := gtx.Constraints.Max.X
if e.SingleLine {
maxWidth = math.MaxInt
}
minWidth := gtx.Constraints.Min.X
if maxWidth != e.maxWidth {
e.maxWidth = maxWidth
e.invalidate()
}
if minWidth != e.minWidth {
e.minWidth = minWidth
e.invalidate()
}
if lt != e.shaper {
e.shaper = lt
e.invalidate()
}
if e.Mask != e.lastMask {
e.lastMask = e.Mask
e.invalidate()
}
e.makeValid()
e.processEvents(gtx)
e.makeValid()
if viewSize := e.calculateViewSize(gtx); viewSize != e.viewSize {
e.viewSize = viewSize
e.invalidate()
}
e.makeValid()
dims := e.layout(gtx, content)
if e.focused {
// Notify IME of selection if it changed.
newSel := e.ime.selection
newSel.rng = key.Range{
Start: e.caret.start,
End: e.caret.end,
}
caretPos, carAsc, carDesc := e.caretInfo()
newSel.caret = key.Caret{
Pos: layout.FPt(caretPos),
Ascent: float32(carAsc),
Descent: float32(carDesc),
}
if newSel != e.ime.selection {
e.ime.selection = newSel
key.SelectionOp{
Tag: &e.eventKey,
Range: newSel.rng,
Caret: newSel.caret,
}.Add(gtx.Ops)
}
e.updateSnippet(gtx, e.ime.start, e.ime.end)
}
return dims
}
// updateSnippet adds a key.SnippetOp if the snippet content or position
// have changed. off and len are in runes.
func (e *Editor) updateSnippet(gtx layout.Context, start, end int) {
if start > end {
start, end = end, start
}
imeStart := e.closestToRune(start)
imeEnd := e.closestToRune(end)
e.ime.start = imeStart.runes
e.ime.end = imeEnd.runes
startOff := e.runeOffset(imeStart.runes)
endOff := e.runeOffset(imeEnd.runes)
e.rr.Seek(int64(startOff), io.SeekStart)
n := endOff - startOff
if n > len(e.ime.scratch) {
e.ime.scratch = make([]byte, n)
}
scratch := e.ime.scratch[:n]
read, _ := e.rr.Read(scratch)
if read != len(scratch) {
panic("e.rr.Read truncated data")
}
newSnip := key.Snippet{
Range: key.Range{
Start: e.ime.start,
End: e.ime.end,
},
Text: e.ime.snippet.Text,
}
if string(scratch) != newSnip.Text {
newSnip.Text = string(scratch)
}
if newSnip == e.ime.snippet {
return
}
e.ime.snippet = newSnip
key.SnippetOp{
Tag: &e.eventKey,
Snippet: newSnip,
}.Add(gtx.Ops)
}
func (e *Editor) layout(gtx layout.Context, content layout.Widget) layout.Dimensions {
// Adjust scrolling for new viewport and layout.
e.scrollRel(0, 0)
if e.caret.scroll {
e.caret.scroll = false
e.scrollToCaret()
}
defer clip.Rect(image.Rectangle{Max: e.viewSize}).Push(gtx.Ops).Pop()
pointer.CursorText.Add(gtx.Ops)
var keys key.Set
if e.focused {
const keyFilterNoLeftUp = "(ShortAlt)-(Shift)-[→,↓]|(Shift)-[⏎,⌤]|(ShortAlt)-(Shift)-[⌫,⌦]|(Shift)-[⇞,⇟,⇱,⇲]|Short-[C,V,X,A]|Short-(Shift)-Z"
const keyFilterNoRightDown = "(ShortAlt)-(Shift)-[←,↑]|(Shift)-[⏎,⌤]|(ShortAlt)-(Shift)-[⌫,⌦]|(Shift)-[⇞,⇟,⇱,⇲]|Short-[C,V,X,A]|Short-(Shift)-Z"
const keyFilterNoArrows = "(Shift)-[⏎,⌤]|(ShortAlt)-(Shift)-[⌫,⌦]|(Shift)-[⇞,⇟,⇱,⇲]|Short-[C,V,X,A]|Short-(Shift)-Z"
const keyFilterAllArrows = "(ShortAlt)-(Shift)-[←,→,↑,↓]|(Shift)-[⏎,⌤]|(ShortAlt)-(Shift)-[⌫,⌦]|(Shift)-[⇞,⇟,⇱,⇲]|Short-[C,V,X,A]|Short-(Shift)-Z"
caret := e.closestToRune(e.caret.start)
switch {
case caret.runes == 0 && caret.runes == e.Len():
keys = keyFilterNoArrows
case caret.runes == 0:
if gtx.Locale.Direction.Progression() == system.FromOrigin {
keys = keyFilterNoLeftUp
} else {
keys = keyFilterNoRightDown
}
case caret.runes == e.Len():
if gtx.Locale.Direction.Progression() == system.FromOrigin {
keys = keyFilterNoRightDown
} else {
keys = keyFilterNoLeftUp
}
default:
keys = keyFilterAllArrows
}
}
key.InputOp{Tag: &e.eventKey, Hint: e.InputHint, Keys: keys}.Add(gtx.Ops)
if e.requestFocus {
key.FocusOp{Tag: &e.eventKey}.Add(gtx.Ops)
key.SoftKeyboardOp{Show: true}.Add(gtx.Ops)
}
e.requestFocus = false
var scrollRange image.Rectangle
if e.SingleLine {
scrollRange.Min.X = min(-e.scrollOff.X, 0)
scrollRange.Max.X = max(0, e.dims.Size.X-(e.scrollOff.X+e.viewSize.X))
} else {
scrollRange.Min.Y = -e.scrollOff.Y
scrollRange.Max.Y = max(0, e.dims.Size.Y-(e.scrollOff.Y+e.viewSize.Y))
}
e.scroller.Add(gtx.Ops, scrollRange)
e.clicker.Add(gtx.Ops)
e.dragger.Add(gtx.Ops)
e.caret.on = false
if e.focused {
now := gtx.Now
dt := now.Sub(e.blinkStart)
blinking := dt < maxBlinkDuration
const timePerBlink = time.Second / blinksPerSecond
nextBlink := now.Add(timePerBlink/2 - dt%(timePerBlink/2))
if blinking {
redraw := op.InvalidateOp{At: nextBlink}
redraw.Add(gtx.Ops)
}
e.caret.on = e.focused && (!blinking || dt%timePerBlink < timePerBlink/2)
}
if content != nil {
content(gtx)
}
return layout.Dimensions{Size: e.viewSize, Baseline: e.dims.Baseline}
}
// PaintSelection paints the contrasting background for selected text.
func (e *Editor) PaintSelection(gtx layout.Context) {
if !e.focused {
return
}
localViewport := image.Rectangle{Max: e.viewSize}
docViewport := image.Rectangle{Max: e.viewSize}.Add(e.scrollOff)
defer clip.Rect(localViewport).Push(gtx.Ops).Pop()
e.regions = e.index.locate(docViewport, e.caret.start, e.caret.end, e.regions)
for _, region := range e.regions {
area := clip.Rect(region.bounds.Sub(e.scrollOff)).Push(gtx.Ops)
paint.PaintOp{}.Add(gtx.Ops)
area.Pop()
}
}
func (e *Editor) PaintText(gtx layout.Context) {
m := op.Record(gtx.Ops)
viewport := image.Rectangle{
Min: e.scrollOff,
Max: e.viewSize.Add(e.scrollOff),
}
it := textIterator{viewport: viewport}
startGlyph := 0
for _, line := range e.index.lines {
if line.descent.Ceil()+line.yOff >= viewport.Min.Y {
break
}
startGlyph += line.glyphs
}
var glyphs [32]text.Glyph
line := glyphs[:0]
for _, g := range e.index.glyphs[startGlyph:] {
var ok bool
if line, ok = it.paintGlyph(gtx, e.shaper, g, line); !ok {
break
}
}
call := m.Stop()
viewport.Min = viewport.Min.Add(it.padding.Min)
viewport.Max = viewport.Max.Add(it.padding.Max)
defer clip.Rect(viewport.Sub(e.scrollOff)).Push(gtx.Ops).Pop()
call.Add(gtx.Ops)
}
// caretWidth returns the width occupied by the caret for the current
// gtx.
func (e *Editor) caretWidth(gtx layout.Context) int {
carWidth2 := gtx.Dp(1) / 2
if carWidth2 < 1 {
carWidth2 = 1
}
return carWidth2
}
func (e *Editor) PaintCaret(gtx layout.Context) {
if !e.caret.on {
return
}
carWidth2 := e.caretWidth(gtx)
caretPos, carAsc, carDesc := e.caretInfo()
carRect := image.Rectangle{
Min: caretPos.Sub(image.Pt(carWidth2, carAsc)),
Max: caretPos.Add(image.Pt(carWidth2, carDesc)),
}
cl := image.Rectangle{Max: e.viewSize}
carRect = cl.Intersect(carRect)
if !carRect.Empty() {
defer clip.Rect(carRect).Push(gtx.Ops).Pop()
paint.PaintOp{}.Add(gtx.Ops)
}
}
func (e *Editor) caretInfo() (pos image.Point, ascent, descent int) {
caretStart := e.closestToRune(e.caret.start)
ascent = caretStart.ascent.Ceil()
descent = caretStart.descent.Ceil()
pos = image.Point{
X: caretStart.x.Round(),
Y: caretStart.y,
}
pos = pos.Sub(e.scrollOff)
return
}
// Len is the length of the editor contents, in runes.
func (e *Editor) Len() int {
e.makeValid()
return e.closestToRune(math.MaxInt).runes
}
// Text returns the contents of the editor.
func (e *Editor) Text() string {
return e.rr.String()
}
// SetText replaces the contents of the editor, clearing any selection first.
func (e *Editor) SetText(s string) {
e.rr = editBuffer{}
e.caret.start = 0
e.caret.end = 0
if e.SingleLine {
s = strings.ReplaceAll(s, "\n", " ")
}
e.replace(e.caret.start, e.caret.end, s, true)
e.caret.xoff = 0
}
func (e *Editor) scrollBounds() image.Rectangle {
var b image.Rectangle
if e.SingleLine {
if len(e.index.lines) > 0 {
line := e.index.lines[0]
b.Min.X = line.xOff.Floor()
if b.Min.X > 0 {
b.Min.X = 0
}
}
b.Max.X = e.dims.Size.X + b.Min.X - e.viewSize.X
} else {
b.Max.Y = e.dims.Size.Y - e.viewSize.Y
}
return b
}
func (e *Editor) scrollRel(dx, dy int) {
e.scrollAbs(e.scrollOff.X+dx, e.scrollOff.Y+dy)
}
func (e *Editor) scrollAbs(x, y int) {
e.scrollOff.X = x
e.scrollOff.Y = y
b := e.scrollBounds()
if e.scrollOff.X > b.Max.X {
e.scrollOff.X = b.Max.X
}
if e.scrollOff.X < b.Min.X {
e.scrollOff.X = b.Min.X
}
if e.scrollOff.Y > b.Max.Y {
e.scrollOff.Y = b.Max.Y
}
if e.scrollOff.Y < b.Min.Y {
e.scrollOff.Y = b.Min.Y
}
}
func (e *Editor) moveCoord(pos image.Point) {
x := fixed.I(pos.X + e.scrollOff.X)
y := pos.Y + e.scrollOff.Y
e.caret.start = e.closestToXY(x, y).runes
e.caret.xoff = 0
}
func (e *Editor) layoutText(lt *text.Shaper) {
e.rr.Reset()
var r io.RuneReader = &e.rr
if e.Mask != 0 {
e.maskReader.Reset(&e.rr, e.Mask)
r = &e.maskReader
}
e.index = glyphIndex{}
it := textIterator{viewport: image.Rectangle{Max: image.Point{X: math.MaxInt, Y: math.MaxInt}}}
if lt != nil {
lt.Layout(text.Parameters{
Font: e.font,
PxPerEm: e.textSize,
Alignment: e.Alignment,
}, e.minWidth, e.maxWidth, e.locale, r)
for glyph, ok := it.processGlyph(lt.NextGlyph()); ok; glyph, ok = it.processGlyph(lt.NextGlyph()) {
e.index.Glyph(glyph)
}
} else {
// Make a fake glyph for every rune in the reader.
for _, _, err := r.ReadRune(); err != io.EOF; _, _, err = r.ReadRune() {
g, _ := it.processGlyph(text.Glyph{Runes: 1, Flags: text.FlagClusterBreak}, true)
e.index.Glyph(g)
}
}
dims := layout.Dimensions{Size: it.bounds.Size()}
dims.Baseline = dims.Size.Y - it.baseline
e.dims = dims
}
// CaretPos returns the line & column numbers of the caret.
func (e *Editor) CaretPos() (line, col int) {
pos := e.closestToRune(e.caret.start)
return pos.lineCol.line, pos.lineCol.col
}
// CaretCoords returns the coordinates of the caret, relative to the
// editor itself.
func (e *Editor) CaretCoords() f32.Point {
pos := e.closestToRune(e.caret.start)
return f32.Pt(float32(pos.x)/64-float32(e.scrollOff.X), float32(pos.y-e.scrollOff.Y))
}
// indexRune returns the latest rune index and byte offset no later than r.
func (e *Editor) indexRune(r int) offEntry {
// Initialize index.
if len(e.offIndex) == 0 {
e.offIndex = append(e.offIndex, offEntry{})
}
i := sort.Search(len(e.offIndex), func(i int) bool {
entry := e.offIndex[i]
return entry.runes >= r
})
// Return the entry guaranteed to be less than or equal to r.
if i > 0 {
i--
}
return e.offIndex[i]
}
// runeOffset returns the byte offset into e.rr of the r'th rune.
// r must be a valid rune index, usually returned by closestPosition.
func (e *Editor) runeOffset(r int) int {
const runesPerIndexEntry = 50
entry := e.indexRune(r)
lastEntry := e.offIndex[len(e.offIndex)-1].runes
for entry.runes < r {
if entry.runes > lastEntry && entry.runes%runesPerIndexEntry == runesPerIndexEntry-1 {
e.offIndex = append(e.offIndex, entry)
}
_, s := e.rr.runeAt(entry.bytes)
entry.bytes += s
entry.runes++
}
return entry.bytes
}
func (e *Editor) invalidate() {
e.offIndex = e.offIndex[:0]
e.valid = false
}
// Delete runes from the caret position. The sign of runes specifies the
// direction to delete: positive is forward, negative is backward.
//
// If there is a selection, it is deleted and counts as a single rune.
func (e *Editor) Delete(runes int) {
if runes == 0 {
return
}
start := e.caret.start
end := e.caret.end
if start != end {
runes -= sign(runes)
}
end += runes
e.replace(start, end, "", true)
e.caret.xoff = 0
e.ClearSelection()
}
// Insert inserts text at the caret, moving the caret forward. If there is a
// selection, Insert overwrites it.
func (e *Editor) Insert(s string) {
e.append(s)
e.caret.scroll = true
}
// append inserts s at the cursor, leaving the caret is at the end of s. If
// there is a selection, append overwrites it.
// xxx|yyy + append zzz => xxxzzz|yyy
func (e *Editor) append(s string) {
if e.SingleLine {
s = strings.ReplaceAll(s, "\n", " ")
}
moves := e.replace(e.caret.start, e.caret.end, s, true)
e.caret.xoff = 0
start := e.caret.start
if end := e.caret.end; end < start {
start = end
}
e.caret.start = start + moves
e.caret.end = e.caret.start
}
// modification represents a change to the contents of the editor buffer.
// It contains the necessary information to both apply the change and
// reverse it, and is useful for implementing undo/redo.
type modification struct {
// StartRune is the inclusive index of the first rune
// modified.
StartRune int
// ApplyContent is the data inserted at StartRune to
// apply this operation. It overwrites len([]rune(ReverseContent)) runes.
ApplyContent string
// ReverseContent is the data inserted at StartRune to
// apply this operation. It overwrites len([]rune(ApplyContent)) runes.
ReverseContent string
}
// undo applies the modification at e.history[e.historyIdx] and decrements
// e.historyIdx.
func (e *Editor) undo() {
if len(e.history) < 1 || e.nextHistoryIdx == 0 {
return
}
mod := e.history[e.nextHistoryIdx-1]
replaceEnd := mod.StartRune + utf8.RuneCountInString(mod.ApplyContent)
e.replace(mod.StartRune, replaceEnd, mod.ReverseContent, false)
caretEnd := mod.StartRune + utf8.RuneCountInString(mod.ReverseContent)
e.SetCaret(caretEnd, mod.StartRune)
e.nextHistoryIdx--
}
// redo applies the modification at e.history[e.historyIdx] and increments
// e.historyIdx.
func (e *Editor) redo() {
if len(e.history) < 1 || e.nextHistoryIdx == len(e.history) {
return
}
mod := e.history[e.nextHistoryIdx]
end := mod.StartRune + utf8.RuneCountInString(mod.ReverseContent)
e.replace(mod.StartRune, end, mod.ApplyContent, false)
caretEnd := mod.StartRune + utf8.RuneCountInString(mod.ApplyContent)
e.SetCaret(caretEnd, mod.StartRune)
e.nextHistoryIdx++
}
// replace the text between start and end with s. Indices are in runes.
// It returns the number of runes inserted.
// addHistory controls whether this modification is recorded in the undo
// history.
func (e *Editor) replace(start, end int, s string, addHistory bool) int {
if start > end {
start, end = end, start
}
startPos := e.closestToRune(start)
endPos := e.closestToRune(end)
startOff := e.runeOffset(startPos.runes)
replaceSize := endPos.runes - startPos.runes
el := e.Len()
var sc int
idx := 0
for idx < len(s) {
if e.MaxLen > 0 && el-replaceSize+sc >= e.MaxLen {
s = s[:idx]
break
}
_, n := utf8.DecodeRuneInString(s[idx:])
if e.Filter != "" && !strings.Contains(e.Filter, s[idx:idx+n]) {
s = s[:idx] + s[idx+n:]
continue
}
idx += n
sc++
}
newEnd := startPos.runes + sc
if addHistory {
e.rr.Seek(int64(startOff), 0)
deleted := make([]rune, 0, replaceSize)
for i := 0; i < replaceSize; i++ {
ru, _, _ := e.rr.ReadRune()
deleted = append(deleted, ru)
}
if e.nextHistoryIdx < len(e.history) {
e.history = e.history[:e.nextHistoryIdx]
}
e.history = append(e.history, modification{
StartRune: startPos.runes,
ApplyContent: s,
ReverseContent: string(deleted),
})
e.nextHistoryIdx++
}
e.rr.deleteRunes(startOff, replaceSize)
e.rr.prepend(startOff, s)
adjust := func(pos int) int {
switch {
case newEnd < pos && pos <= endPos.runes:
pos = newEnd
case endPos.runes < pos:
diff := newEnd - endPos.runes
pos = pos + diff
}
return pos
}
e.caret.start = adjust(e.caret.start)
e.caret.end = adjust(e.caret.end)
e.ime.start = adjust(e.ime.start)
e.ime.end = adjust(e.ime.end)
e.invalidate()
return sc
}
func (e *Editor) movePages(pages int, selAct selectionAction) {
caret := e.closestToRune(e.caret.start)
x := caret.x + e.caret.xoff
y := caret.y + pages*e.viewSize.Y
pos := e.closestToXY(x, y)
e.caret.start = pos.runes
e.caret.xoff = x - pos.x
e.updateSelection(selAct)
}
// MoveCaret moves the caret (aka selection start) and the selection end
// relative to their current positions. Positive distances moves forward,
// negative distances moves backward. Distances are in runes.
func (e *Editor) MoveCaret(startDelta, endDelta int) {
e.caret.xoff = 0
e.caret.start = e.closestToRune(e.caret.start + startDelta).runes
e.caret.end = e.closestToRune(e.caret.end + endDelta).runes
}
func (e *Editor) moveStart(selAct selectionAction) {
caret := e.closestToRune(e.caret.start)
caret = e.closestToLineCol(caret.lineCol.line, 0)
e.caret.start = caret.runes
e.caret.xoff = -caret.x
e.updateSelection(selAct)
}
func (e *Editor) moveEnd(selAct selectionAction) {
caret := e.closestToRune(e.caret.start)
caret = e.closestToLineCol(caret.lineCol.line, math.MaxInt)
e.caret.start = caret.runes
e.caret.xoff = fixed.I(e.maxWidth) - caret.x
e.updateSelection(selAct)
}
// moveWord moves the caret to the next word in the specified direction.
// Positive is forward, negative is backward.
// Absolute values greater than one will skip that many words.
func (e *Editor) moveWord(distance int, selAct selectionAction) {
// split the distance information into constituent parts to be
// used independently.
words, direction := distance, 1
if distance < 0 {
words, direction = distance*-1, -1
}
// atEnd if caret is at either side of the buffer.
caret := e.closestToRune(e.caret.start)
atEnd := func() bool {
return caret.runes == 0 || caret.runes == e.Len()
}
// next returns the appropriate rune given the direction.
next := func() (r rune) {
off := e.runeOffset(caret.runes)
if direction < 0 {
r, _ = e.rr.runeBefore(off)
} else {
r, _ = e.rr.runeAt(off)
}
return r
}
for ii := 0; ii < words; ii++ {
for r := next(); unicode.IsSpace(r) && !atEnd(); r = next() {
e.MoveCaret(direction, 0)
caret = e.closestToRune(e.caret.start)
}
e.MoveCaret(direction, 0)
caret = e.closestToRune(e.caret.start)
for r := next(); !unicode.IsSpace(r) && !atEnd(); r = next() {
e.MoveCaret(direction, 0)
caret = e.closestToRune(e.caret.start)
}
}
e.updateSelection(selAct)
}
// deleteWord deletes the next word(s) in the specified direction.
// Unlike moveWord, deleteWord treats whitespace as a word itself.
// Positive is forward, negative is backward.
// Absolute values greater than one will delete that many words.
// The selection counts as a single word.
func (e *Editor) deleteWord(distance int) {
if distance == 0 {
return
}
if e.caret.start != e.caret.end {
e.Delete(1)
distance -= sign(distance)
}
if distance == 0 {
return
}
// split the distance information into constituent parts to be
// used independently.
words, direction := distance, 1
if distance < 0 {
words, direction = distance*-1, -1
}
// atEnd if offset is at or beyond either side of the buffer.
caret := e.closestToRune(e.caret.start)
atEnd := func(runes int) bool {
idx := caret.runes + runes*direction
return idx <= 0 || idx >= e.Len()
}
// next returns the appropriate rune given the direction and offset in runes).
next := func(runes int) rune {
idx := caret.runes + runes*direction
if idx < 0 {
idx = 0
} else if idx > e.Len() {
idx = e.Len()
}
off := e.runeOffset(idx)
var r rune
if direction < 0 {
r, _ = e.rr.runeBefore(off)
} else {
r, _ = e.rr.runeAt(off)
}
return r
}
runes := 1
for ii := 0; ii < words; ii++ {
r := next(runes)
wantSpace := unicode.IsSpace(r)
for r := next(runes); unicode.IsSpace(r) == wantSpace && !atEnd(runes); r = next(runes) {
runes += 1
}
}
e.Delete(runes * direction)
}
func (e *Editor) scrollToCaret() {
caret := e.closestToRune(e.caret.start)
if e.SingleLine {
var dist int
if d := caret.x.Floor() - e.scrollOff.X; d < 0 {
dist = d
} else if d := caret.x.Ceil() - (e.scrollOff.X + e.viewSize.X); d > 0 {
dist = d
}
e.scrollRel(dist, 0)
} else {
miny := caret.y - caret.ascent.Ceil()
maxy := caret.y + caret.descent.Ceil()
var dist int
if d := miny - e.scrollOff.Y; d < 0 {
dist = d
} else if d := maxy - (e.scrollOff.Y + e.viewSize.Y); d > 0 {
dist = d
}
e.scrollRel(0, dist)
}
}
// SelectionLen returns the length of the selection, in runes; it is
// equivalent to utf8.RuneCountInString(e.SelectedText()).
func (e *Editor) SelectionLen() int {
return abs(e.caret.start - e.caret.end)
}
// Selection returns the start and end of the selection, as rune offsets.
// start can be > end.
func (e *Editor) Selection() (start, end int) {
return e.caret.start, e.caret.end
}
// SetCaret moves the caret to start, and sets the selection end to end. start
// and end are in runes, and represent offsets into the editor text.
func (e *Editor) SetCaret(start, end int) {
e.caret.start = e.closestToRune(start).runes
e.caret.end = e.closestToRune(end).runes
e.caret.scroll = true
e.scroller.Stop()
}
// SelectedText returns the currently selected text (if any) from the editor.
func (e *Editor) SelectedText() string {
startOff := e.runeOffset(e.caret.start)
endOff := e.runeOffset(e.caret.end)
start := min(startOff, endOff)
end := max(startOff, endOff)
buf := make([]byte, end-start)
e.rr.Seek(int64(start), io.SeekStart)
_, err := e.rr.Read(buf)
if err != nil {
// The only error that rr.Read can return is EOF, which just means no
// selection, but we've already made sure that shouldn't happen.
panic("impossible error because end is before e.rr.Len()")
}
return string(buf)
}
func (e *Editor) updateSelection(selAct selectionAction) {
if selAct == selectionClear {
e.ClearSelection()
}
}
// ClearSelection clears the selection, by setting the selection end equal to
// the selection start.
func (e *Editor) ClearSelection() {
e.caret.end = e.caret.start
}
// WriteTo implements io.WriterTo.
func (e *Editor) WriteTo(w io.Writer) (int64, error) {
return e.rr.WriteTo(w)
}
// Seek implements io.Seeker.
func (e *Editor) Seek(offset int64, whence int) (int64, error) {
return e.rr.Seek(offset, io.SeekStart)
}
// Read implements io.Reader.
func (e *Editor) Read(p []byte) (int, error) {
return e.rr.Read(p)
}
func max(a, b int) int {
if a > b {
return a
}
return b
}
func min[T constraints.Ordered](a, b T) T {
if a < b {
return a
}
return b
}
func abs[T constraints.Signed](n T) T {
if n < 0 {
return -n
}
return n
}
func sign(n int) int {
switch {
case n < 0:
return -1
case n > 0:
return 1
default:
return 0
}
}
func (s ChangeEvent) isEditorEvent() {}
func (s SubmitEvent) isEditorEvent() {}
func (s SelectEvent) isEditorEvent() {}