mirror of
https://git.sr.ht/~eliasnaur/gio
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12da71821a
This commit updates the textIterator and glyphIndex types to consume new flag information provided on glyphs. These changes allow widget.Label and widget.Editor to correctly compute text bounding boxes and to generate valid cursor positions at the end of text. Signed-off-by: Chris Waldon <christopher.waldon.dev@gmail.com>
393 lines
12 KiB
Go
393 lines
12 KiB
Go
// SPDX-License-Identifier: Unlicense OR MIT
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package widget
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import (
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"image"
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"math"
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"sort"
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"gioui.org/text"
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"golang.org/x/image/math/fixed"
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)
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type lineInfo struct {
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xOff fixed.Int26_6
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yOff int
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width fixed.Int26_6
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ascent, descent fixed.Int26_6
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glyphs int
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}
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type glyphIndex struct {
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glyphs []text.Glyph
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// positions contain all possible caret positions, sorted by rune index.
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positions []combinedPos
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// lines contains metadata about the size and position of each line of
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// text.
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lines []lineInfo
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// currentLineMin and currentLineMax track the dimensions of the line
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// that is being indexed.
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currentLineMin, currentLineMax fixed.Int26_6
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// currentLineGlyphs tracks how many glyphs are contained within the
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// line that is being indexed.
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currentLineGlyphs int
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// pos tracks attributes of the next valid cursor position within the indexed
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// text.
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pos combinedPos
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// prog tracks the current glyph text progression to detect bidi changes.
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prog text.Flags
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// clusterAdvance accumulates the advances of glyphs in a glyph cluster.
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clusterAdvance fixed.Int26_6
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// skipPrior controls whether a text position is inserted "before" the
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// next glyph. Usually this should not happen, but the boundaries of
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// lines and bidi runs require it.
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skipPrior bool
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}
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// screenPos represents a character position in text line and column numbers,
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// not pixels.
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type screenPos struct {
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// col is the column, measured in runes.
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// FIXME: we only ever use col for start or end of lines.
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// We don't need accurate accounting, so can we get rid of it?
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col int
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line int
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}
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// combinedPos is a point in the editor.
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type combinedPos struct {
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// runes is the offset in runes.
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runes int
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lineCol screenPos
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// Pixel coordinates
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x fixed.Int26_6
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y int
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ascent, descent fixed.Int26_6
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// runIndex tracks which run this position is within, counted each time
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// the index processes an end of run marker.
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runIndex int
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// towardOrigin tracks whether this glyph's run is progressing toward the
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// origin or away from it.
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towardOrigin bool
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}
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// incrementPosition returns the next position after pos (if any). Pos _must_ be
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// an unmodified position acquired from one of the closest* methods. If eof is
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// true, there was no next position.
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func (g *glyphIndex) incrementPosition(pos combinedPos) (next combinedPos, eof bool) {
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candidate, index := g.closestToRune(pos.runes)
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for candidate != pos && index+1 < len(g.positions) {
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index++
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candidate = g.positions[index]
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}
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if index+1 < len(g.positions) {
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return g.positions[index+1], false
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}
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return candidate, true
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}
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// Glyph indexes the provided glyph, generating text cursor positions for it.
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func (g *glyphIndex) Glyph(gl text.Glyph) {
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g.glyphs = append(g.glyphs, gl)
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g.currentLineGlyphs++
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if len(g.positions) == 0 {
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// First-iteration setup.
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g.currentLineMin = math.MaxInt32
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g.currentLineMax = 0
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}
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if gl.X < g.currentLineMin {
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g.currentLineMin = gl.X
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}
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if end := gl.X + gl.Advance; end > g.currentLineMax {
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g.currentLineMax = end
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}
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if !g.skipPrior || gl.Flags&text.FlagTowardOrigin != g.prog || gl.Flags&text.FlagParagraphStart != 0 {
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// Set the new text progression based on that of the first glyph.
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g.prog = gl.Flags & text.FlagTowardOrigin
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g.pos.towardOrigin = g.prog == text.FlagTowardOrigin
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// Create the text position prior to the first glyph.
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pos := g.pos
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pos.x = gl.X
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pos.y = int(gl.Y)
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pos.ascent = gl.Ascent
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pos.descent = gl.Descent
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if pos.towardOrigin {
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pos.x += gl.Advance
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}
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g.pos = pos
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g.positions = append(g.positions, pos)
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g.skipPrior = true
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}
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needsNewLine := gl.Flags&text.FlagLineBreak > 0
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needsNewRun := gl.Flags&text.FlagRunBreak > 0
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breaksParagraph := gl.Flags&text.FlagParagraphBreak > 0
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// We should insert new positions if the glyph we're processing terminates
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// a glyph cluster.
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insertPositionAfter := gl.Flags&text.FlagClusterBreak > 0 && !breaksParagraph && gl.Runes > 0
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if breaksParagraph {
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// Paragraph breaking clusters shouldn't have positions generated for both
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// sides of them. They're always zero-width, so doing so would
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// create two visually identical cursor positions. Just reset
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// cluster state, increment by their runes, and move on to the
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// next glyph.
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g.clusterAdvance = 0
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g.pos.runes += int(gl.Runes)
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}
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// Always track the cumulative advance added by the glyph, even if it
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// doesn't terminate a cluster itself.
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g.clusterAdvance += gl.Advance
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if insertPositionAfter {
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// Construct the text position _after_ gl.
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pos := g.pos
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pos.y = int(gl.Y)
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pos.ascent = gl.Ascent
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pos.descent = gl.Descent
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width := g.clusterAdvance
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perRune := width / fixed.Int26_6(gl.Runes)
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adjust := fixed.Int26_6(0)
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if pos.towardOrigin {
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// If RTL, subtract increments from the width of the cluster
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// instead of adding.
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adjust = width
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perRune = -perRune
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}
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for i := 1; i <= int(gl.Runes); i++ {
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pos.x = gl.X + adjust + perRune*fixed.Int26_6(i)
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pos.runes++
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pos.lineCol.col++
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g.positions = append(g.positions, pos)
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}
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g.pos = pos
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g.clusterAdvance = 0
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}
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if needsNewRun {
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g.pos.runIndex++
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}
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if needsNewLine {
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g.lines = append(g.lines, lineInfo{
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xOff: g.currentLineMin,
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yOff: int(gl.Y),
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width: g.currentLineMax - g.currentLineMin,
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ascent: g.positions[len(g.positions)-1].ascent,
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descent: g.positions[len(g.positions)-1].descent,
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glyphs: g.currentLineGlyphs,
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})
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g.pos.lineCol.line++
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g.pos.lineCol.col = 0
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g.pos.runIndex = 0
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g.currentLineMin = math.MaxInt32
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g.currentLineMax = 0
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g.currentLineGlyphs = 0
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g.skipPrior = false
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}
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}
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func (g *glyphIndex) closestToRune(runeIdx int) (combinedPos, int) {
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if len(g.positions) == 0 {
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return combinedPos{}, 0
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}
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i := sort.Search(len(g.positions), func(i int) bool {
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pos := g.positions[i]
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return pos.runes >= runeIdx
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})
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if i > 0 {
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i--
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}
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closest := g.positions[i]
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closestI := i
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for ; i < len(g.positions); i++ {
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if g.positions[i].runes == runeIdx {
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return g.positions[i], i
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}
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}
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return closest, closestI
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}
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func (g *glyphIndex) closestToLineCol(lineCol screenPos) combinedPos {
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if len(g.positions) == 0 {
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return combinedPos{}
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}
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i := sort.Search(len(g.positions), func(i int) bool {
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pos := g.positions[i]
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return pos.lineCol.line > lineCol.line || (pos.lineCol.line == lineCol.line && pos.lineCol.col >= lineCol.col)
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})
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if i > 0 {
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i--
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}
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prior := g.positions[i]
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if i+1 >= len(g.positions) {
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return prior
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}
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next := g.positions[i+1]
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if next.lineCol != lineCol {
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return prior
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}
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return next
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}
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func dist(a, b fixed.Int26_6) fixed.Int26_6 {
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if a > b {
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return a - b
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}
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return b - a
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}
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func (g *glyphIndex) closestToXY(x fixed.Int26_6, y int) combinedPos {
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if len(g.positions) == 0 {
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return combinedPos{}
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}
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i := sort.Search(len(g.positions), func(i int) bool {
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pos := g.positions[i]
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return pos.y+pos.descent.Round() >= y
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})
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// If no position was greater than the provided Y, the text is too
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// short. Return either the last position or (if there are no
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// positions) the zero position.
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if i == len(g.positions) {
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return g.positions[i-1]
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}
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first := g.positions[i]
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// Find the best X coordinate.
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closest := i
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closestDist := dist(first.x, x)
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line := first.lineCol.line
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// NOTE(whereswaldon): there isn't a simple way to accelerate this. Bidi text means that the x coordinates
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// for positions have no fixed relationship. In the future, we can consider sorting the positions
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// on a line by their x coordinate and caching that. It'll be a one-time O(nlogn) per line, but
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// subsequent uses of this function for that line become O(logn). Right now it's always O(n).
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for i := i + 1; i < len(g.positions) && g.positions[i].lineCol.line == line; i++ {
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candidate := g.positions[i]
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distance := dist(candidate.x, x)
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// If we are *really* close to the current position candidate, just choose it.
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if distance.Round() == 0 {
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return g.positions[i]
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}
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if distance < closestDist {
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closestDist = distance
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closest = i
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}
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}
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return g.positions[closest]
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}
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// makeRegion creates a text-aligned rectangle from start to end. The vertical
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// dimensions of the rectangle are derived from the provided line's ascent and
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// descent, and the y offset of the line's baseline is provided as y.
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func makeRegion(line lineInfo, y int, start, end fixed.Int26_6) region {
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if start > end {
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start, end = end, start
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}
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dotStart := image.Pt(start.Round(), y)
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dotEnd := image.Pt(end.Round(), y)
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return region{
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bounds: image.Rectangle{
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Min: dotStart.Sub(image.Point{Y: line.ascent.Ceil()}),
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Max: dotEnd.Add(image.Point{Y: line.descent.Floor()}),
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},
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baseline: line.descent.Floor(),
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}
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}
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// region describes an area of interest within shaped text.
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type region struct {
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// bounds is the coordinates of the bounding box in document space.
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bounds image.Rectangle
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// baseline is the quantity of vertical pixels between the baseline and
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// the bottom of bounds.
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baseline int
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}
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// locate returns highlight regions covering the glyphs that represent the runes in
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// [startRune,endRune). If the rects parameter is non-nil, locate will use it to
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// return results instead of allocating, provided that there is enough capacity.
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func (g *glyphIndex) locate(viewport image.Rectangle, startRune, endRune int, rects []region) []region {
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if startRune > endRune {
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startRune, endRune = endRune, startRune
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}
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rects = rects[:0]
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caretStart, _ := g.closestToRune(startRune)
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caretEnd, _ := g.closestToRune(endRune)
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for lineIdx := caretStart.lineCol.line; lineIdx < len(g.lines); lineIdx++ {
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if lineIdx > caretEnd.lineCol.line {
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break
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}
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pos := g.closestToLineCol(screenPos{line: lineIdx})
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if int(pos.y)+pos.descent.Ceil() < viewport.Min.Y {
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continue
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}
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if int(pos.y)-pos.ascent.Ceil() > viewport.Max.Y {
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break
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}
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line := g.lines[lineIdx]
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if lineIdx > caretStart.lineCol.line && lineIdx < caretEnd.lineCol.line {
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startX := line.xOff
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endX := startX + line.width
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// The entire line is selected.
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rects = append(rects, makeRegion(line, pos.y, startX, endX))
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continue
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}
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selectionStart := caretStart
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selectionEnd := caretEnd
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if lineIdx != caretStart.lineCol.line {
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// This line does not contain the beginning of the selection.
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selectionStart = g.closestToLineCol(screenPos{line: lineIdx})
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}
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if lineIdx != caretEnd.lineCol.line {
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// This line does not contain the end of the selection.
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selectionEnd = g.closestToLineCol(screenPos{line: lineIdx, col: math.MaxInt})
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}
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var (
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startX, endX fixed.Int26_6
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eof bool
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)
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lineLoop:
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for !eof {
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startX = selectionStart.x
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if selectionStart.runIndex == selectionEnd.runIndex {
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// Commit selection.
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endX = selectionEnd.x
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rects = append(rects, makeRegion(line, pos.y, startX, endX))
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break
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} else {
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currentDirection := selectionStart.towardOrigin
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previous := selectionStart
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runLoop:
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for !eof {
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// Increment the start position until the next logical run.
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for startRun := selectionStart.runIndex; selectionStart.runIndex == startRun; {
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previous = selectionStart
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selectionStart, eof = g.incrementPosition(selectionStart)
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if eof {
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endX = selectionStart.x
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rects = append(rects, makeRegion(line, pos.y, startX, endX))
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break runLoop
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}
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}
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if selectionStart.towardOrigin != currentDirection {
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endX = previous.x
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rects = append(rects, makeRegion(line, pos.y, startX, endX))
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break
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}
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if selectionStart.runIndex == selectionEnd.runIndex {
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// Commit selection.
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endX = selectionEnd.x
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rects = append(rects, makeRegion(line, pos.y, startX, endX))
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break lineLoop
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}
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}
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}
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}
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}
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return rects
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}
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