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>
158 lines
5.1 KiB
Go
158 lines
5.1 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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"gioui.org/io/semantic"
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"gioui.org/layout"
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"gioui.org/op"
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"gioui.org/op/clip"
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"gioui.org/op/paint"
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"gioui.org/text"
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"gioui.org/unit"
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"golang.org/x/image/math/fixed"
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)
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// Label is a widget for laying out and drawing text.
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type Label struct {
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// Alignment specify the text alignment.
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Alignment text.Alignment
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// MaxLines limits the number of lines. Zero means no limit.
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MaxLines int
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}
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func (l Label) Layout(gtx layout.Context, lt *text.Shaper, font text.Font, size unit.Sp, txt string) layout.Dimensions {
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cs := gtx.Constraints
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textSize := fixed.I(gtx.Sp(size))
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lt.LayoutString(text.Parameters{
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Font: font,
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PxPerEm: textSize,
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MaxLines: l.MaxLines,
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Alignment: l.Alignment,
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}, cs.Min.X, cs.Max.X, gtx.Locale, txt)
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m := op.Record(gtx.Ops)
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viewport := image.Rectangle{Max: cs.Max}
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it := textIterator{viewport: viewport, maxLines: l.MaxLines}
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semantic.LabelOp(txt).Add(gtx.Ops)
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var glyphs [32]text.Glyph
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line := glyphs[:0]
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for g, ok := lt.NextGlyph(); ok; g, ok = lt.NextGlyph() {
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var ok bool
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if line, ok = it.paintGlyph(gtx, lt, g, line); !ok {
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break
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}
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}
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call := m.Stop()
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viewport.Min = viewport.Min.Add(it.padding.Min)
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viewport.Max = viewport.Max.Add(it.padding.Max)
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clipStack := clip.Rect(viewport).Push(gtx.Ops)
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call.Add(gtx.Ops)
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dims := layout.Dimensions{Size: it.bounds.Size()}
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dims.Size = cs.Constrain(dims.Size)
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dims.Baseline = dims.Size.Y - it.baseline
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clipStack.Pop()
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return dims
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}
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func r2p(r clip.Rect) clip.Op {
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return clip.Stroke{Path: r.Path(), Width: 1}.Op()
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}
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// textIterator computes the bounding box of and paints text.
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type textIterator struct {
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// viewport is the rectangle of document coordinates that the iterator is
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// trying to fill with text.
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viewport image.Rectangle
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// maxLines is the maximum number of text lines that should be displayed.
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maxLines int
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// linesSeen tracks the quantity of line endings this iterator has seen.
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linesSeen int
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// lineOff tracks the origin for the glyphs in the current line.
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lineOff image.Point
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// padding is the space needed outside of the bounds of the text to ensure no
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// part of a glyph is clipped.
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padding image.Rectangle
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// bounds is the logical bounding box of the text.
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bounds image.Rectangle
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// visible tracks whether the most recently iterated glyph is visible within
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// the viewport.
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visible bool
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// first tracks whether the iterator has processed a glyph yet.
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first bool
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// baseline tracks the location of the first line of text's baseline.
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baseline int
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}
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// processGlyph checks whether the glyph is visible within the iterator's configured
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// viewport and (if so) updates the iterator's text dimensions to include the glyph.
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func (it *textIterator) processGlyph(g text.Glyph, ok bool) (_ text.Glyph, visibleOrBefore bool) {
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if it.maxLines > 0 {
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if g.Flags&text.FlagLineBreak != 0 {
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it.linesSeen++
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}
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if it.linesSeen == it.maxLines && g.Flags&text.FlagParagraphBreak != 0 {
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return g, false
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}
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}
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// Compute the maximum extent to which glyphs overhang on the horizontal
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// axis.
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if d := g.Bounds.Min.X.Floor(); d < it.padding.Min.X {
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it.padding.Min.X = d
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}
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if d := (g.Bounds.Max.X - g.Advance).Ceil(); d > it.padding.Max.X {
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it.padding.Max.X = d
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}
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logicalBounds := image.Rectangle{
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Min: image.Pt(g.X.Floor(), int(g.Y)-g.Ascent.Ceil()),
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Max: image.Pt((g.X + g.Advance).Ceil(), int(g.Y)+g.Descent.Ceil()),
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}
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if !it.first {
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it.first = true
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it.baseline = int(g.Y)
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it.bounds = logicalBounds
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}
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above := logicalBounds.Max.Y < it.viewport.Min.Y
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below := logicalBounds.Min.Y > it.viewport.Max.Y
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left := logicalBounds.Max.X < it.viewport.Min.X
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right := logicalBounds.Min.X > it.viewport.Max.X
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it.visible = !above && !below && !left && !right
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if it.visible {
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it.bounds.Min.X = min(it.bounds.Min.X, logicalBounds.Min.X)
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it.bounds.Min.Y = min(it.bounds.Min.Y, logicalBounds.Min.Y)
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it.bounds.Max.X = max(it.bounds.Max.X, logicalBounds.Max.X)
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it.bounds.Max.Y = max(it.bounds.Max.Y, logicalBounds.Max.Y)
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}
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return g, ok && !below
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}
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// paintGlyph buffers up and paints text glyphs. It should be invoked iteratively upon each glyph
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// until it returns false. The line parameter should be a slice with
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// a backing array of sufficient size to buffer multiple glyphs.
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// A modified slice will be returned with each invocation, and is
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// expected to be passed back in on the following invocation.
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// This design is awkward, but prevents the line slice from escaping
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// to the heap.
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func (it *textIterator) paintGlyph(gtx layout.Context, shaper *text.Shaper, glyph text.Glyph, line []text.Glyph) ([]text.Glyph, bool) {
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_, visibleOrBefore := it.processGlyph(glyph, true)
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if it.visible {
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if len(line) == 0 {
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it.lineOff = image.Point{X: glyph.X.Floor(), Y: int(glyph.Y)}.Sub(it.viewport.Min)
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}
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line = append(line, glyph)
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}
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if glyph.Flags&text.FlagLineBreak > 0 || cap(line)-len(line) == 0 || !visibleOrBefore {
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t := op.Offset(it.lineOff).Push(gtx.Ops)
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op := clip.Outline{Path: shaper.Shape(line)}.Op().Push(gtx.Ops)
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paint.PaintOp{}.Add(gtx.Ops)
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op.Pop()
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t.Pop()
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line = line[:0]
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}
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return line, visibleOrBefore
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}
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