Files
gio-patched/widget/label.go
T
Elias Naur e2d0b3cfca layout: invert baseline to measure positive distance from bottom
With an inverted baseline, the zero value results in the widget
baseline aligned to its bottom.

Signed-off-by: Elias Naur <mail@eliasnaur.com>
2019-10-16 00:49:52 +02:00

185 lines
4.2 KiB
Go

// SPDX-License-Identifier: Unlicense OR MIT
package widget
import (
"fmt"
"image"
"unicode/utf8"
"gioui.org/f32"
"gioui.org/layout"
"gioui.org/op"
"gioui.org/op/paint"
"gioui.org/text"
"golang.org/x/image/math/fixed"
)
// Label is a widget for laying out and drawing text.
type Label struct {
// Alignment specify the text alignment.
Alignment text.Alignment
// MaxLines limits the number of lines. Zero means no limit.
MaxLines int
}
type lineIterator struct {
Lines []text.Line
Clip image.Rectangle
Alignment text.Alignment
Width int
Offset image.Point
y, prevDesc fixed.Int26_6
}
const inf = 1e6
func (l *lineIterator) Next() (text.String, f32.Point, bool) {
for len(l.Lines) > 0 {
line := l.Lines[0]
l.Lines = l.Lines[1:]
x := align(l.Alignment, line.Width, l.Width) + fixed.I(l.Offset.X)
l.y += l.prevDesc + line.Ascent
l.prevDesc = line.Descent
// Align baseline and line start to the pixel grid.
off := fixed.Point26_6{X: fixed.I(x.Floor()), Y: fixed.I(l.y.Ceil())}
l.y = off.Y
off.Y += fixed.I(l.Offset.Y)
if (off.Y + line.Bounds.Min.Y).Floor() > l.Clip.Max.Y {
break
}
if (off.Y + line.Bounds.Max.Y).Ceil() < l.Clip.Min.Y {
continue
}
str := line.Text
for len(str.Advances) > 0 {
adv := str.Advances[0]
if (off.X + adv + line.Bounds.Max.X - line.Width).Ceil() >= l.Clip.Min.X {
break
}
off.X += adv
_, s := utf8.DecodeRuneInString(str.String)
str.String = str.String[s:]
str.Advances = str.Advances[1:]
}
n := 0
endx := off.X
for i, adv := range str.Advances {
if (endx + line.Bounds.Min.X).Floor() > l.Clip.Max.X {
str.String = str.String[:n]
str.Advances = str.Advances[:i]
break
}
_, s := utf8.DecodeRuneInString(str.String[n:])
n += s
endx += adv
}
offf := f32.Point{X: float32(off.X) / 64, Y: float32(off.Y) / 64}
return str, offf, true
}
return text.String{}, f32.Point{}, false
}
func (l Label) Layout(gtx *layout.Context, s *text.Shaper, font text.Font, txt string) {
cs := gtx.Constraints
textLayout := s.Layout(gtx, font, txt, text.LayoutOptions{MaxWidth: cs.Width.Max})
lines := textLayout.Lines
if max := l.MaxLines; max > 0 && len(lines) > max {
lines = lines[:max]
}
dims := linesDimens(lines)
dims.Size = cs.Constrain(dims.Size)
clip := textPadding(lines)
clip.Max = clip.Max.Add(dims.Size)
it := lineIterator{
Lines: lines,
Clip: clip,
Alignment: l.Alignment,
Width: dims.Size.X,
}
for {
str, off, ok := it.Next()
if !ok {
break
}
lclip := toRectF(clip).Sub(off)
var stack op.StackOp
stack.Push(gtx.Ops)
op.TransformOp{}.Offset(off).Add(gtx.Ops)
s.Shape(gtx, font, str).Add(gtx.Ops)
paint.PaintOp{Rect: lclip}.Add(gtx.Ops)
stack.Pop()
}
gtx.Dimensions = dims
}
func toRectF(r image.Rectangle) f32.Rectangle {
return f32.Rectangle{
Min: f32.Point{X: float32(r.Min.X), Y: float32(r.Min.Y)},
Max: f32.Point{X: float32(r.Max.X), Y: float32(r.Max.Y)},
}
}
func textPadding(lines []text.Line) (padding image.Rectangle) {
if len(lines) == 0 {
return
}
first := lines[0]
if d := first.Ascent + first.Bounds.Min.Y; d < 0 {
padding.Min.Y = d.Ceil()
}
last := lines[len(lines)-1]
if d := last.Bounds.Max.Y - last.Descent; d > 0 {
padding.Max.Y = d.Ceil()
}
if d := first.Bounds.Min.X; d < 0 {
padding.Min.X = d.Ceil()
}
if d := first.Bounds.Max.X - first.Width; d > 0 {
padding.Max.X = d.Ceil()
}
return
}
func linesDimens(lines []text.Line) layout.Dimensions {
var width fixed.Int26_6
var h int
var baseline int
if len(lines) > 0 {
baseline = lines[0].Ascent.Ceil()
var prevDesc fixed.Int26_6
for _, l := range lines {
h += (prevDesc + l.Ascent).Ceil()
prevDesc = l.Descent
if l.Width > width {
width = l.Width
}
}
h += lines[len(lines)-1].Descent.Ceil()
}
w := width.Ceil()
return layout.Dimensions{
Size: image.Point{
X: w,
Y: h,
},
Baseline: h - baseline,
}
}
func align(align text.Alignment, width fixed.Int26_6, maxWidth int) fixed.Int26_6 {
mw := fixed.I(maxWidth)
switch align {
case text.Middle:
return fixed.I(((mw - width) / 2).Floor())
case text.End:
return fixed.I((mw - width).Floor())
case text.Start:
return 0
default:
panic(fmt.Errorf("unknown alignment %v", align))
}
}