forked from joejulian/gio
aa2a948b86
The io.Reader based API has the potential to be significantly more efficient, and there are very few users of the runereader API. This commit simply drops it entirely in favor of the reader API. Signed-off-by: Chris Waldon <christopher.waldon.dev@gmail.com>
457 lines
13 KiB
Go
457 lines
13 KiB
Go
// SPDX-License-Identifier: Unlicense OR MIT
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package text
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import (
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"bufio"
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"fmt"
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"io"
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"strings"
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"unicode/utf8"
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"gioui.org/io/system"
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"gioui.org/op"
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"gioui.org/op/clip"
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"github.com/go-text/typesetting/font"
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"golang.org/x/image/math/fixed"
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)
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// Parameters are static text shaping attributes applied to the entire shaped text.
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type Parameters struct {
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// Font describes the preferred typeface.
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Font Font
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// Alignment characterizes the positioning of text within the line. It does not directly
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// impact shaping, but is provided in order to allow efficient offset computation.
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Alignment Alignment
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// PxPerEm is the pixels-per-em to shape the text with.
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PxPerEm fixed.Int26_6
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// MaxLines limits the quantity of shaped lines. Zero means no limit.
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MaxLines int
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}
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// A FontFace is a Font and a matching Face.
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type FontFace struct {
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Font Font
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Face Face
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}
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// Glyph describes a shaped font glyph. Many fields are distances relative
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// to the "dot", which is a point on the baseline (the line upon which glyphs
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// visually rest) for the line of text containing the glyph.
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//
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// Glyphs are organized into "glyph clusters," which are sequences that
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// may represent an arbitrary number of runes.
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//
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// Sequences of glyph clusters that share style parameters are grouped into "runs."
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//
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// "Document coordinates" are pixel values relative to the text's origin at (0,0)
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// in the upper-left corner" Displaying each shaped glyph at the document
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// coordinates of its dot will correctly visualize the text.
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type Glyph struct {
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// ID is a unique, per-shaper identifier for the shape of the glyph.
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// Glyphs from the same shaper will share an ID when they are from
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// the same face and represent the same glyph at the same size.
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ID GlyphID
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// X is the x coordinate of the dot for this glyph in document coordinates.
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X fixed.Int26_6
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// Y is the y coordinate of the dot for this glyph in document coordinates.
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Y int32
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// Advance is the logical width of the glyph. The glyph may be visually
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// wider than this.
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Advance fixed.Int26_6
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// Ascent is the distance from the dot to the logical top of glyphs in
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// this glyph's face. The specific glyph may be shorter than this.
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Ascent fixed.Int26_6
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// Descent is the distance from the dot to the logical bottom of glyphs
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// in this glyph's face. The specific glyph may descend less than this.
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Descent fixed.Int26_6
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// Offset encodes the origin of the drawing coordinate space for this glyph
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// relative to the dot. This value is used when converting glyphs to paths.
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Offset fixed.Point26_6
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// Bounds encodes the visual dimensions of the glyph relative to the dot.
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Bounds fixed.Rectangle26_6
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// Runes is the number of runes represented by the glyph cluster this glyph
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// belongs to. If Flags does not contain FlagClusterBreak, this value will
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// always be zero. The final glyph in the cluster contains the runes count
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// for the entire cluster.
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Runes byte
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// Flags encode special properties of this glyph.
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Flags Flags
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}
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type Flags uint16
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const (
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// FlagTowardOrigin is set for glyphs in runs that flow
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// towards the origin (RTL).
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FlagTowardOrigin Flags = 1 << iota
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// FlagLineBreak is set for the last glyph in a line.
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FlagLineBreak
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// FlagRunBreak is set for the last glyph in a run. A run is a sequence of
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// glyphs sharing constant style properties (same size, same face, same
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// direction, etc...).
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FlagRunBreak
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// FlagClusterBreak is set for the last glyph in a glyph cluster. A glyph cluster is a
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// sequence of glyphs which are logically a single unit, but require multiple
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// symbols from a font to display.
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FlagClusterBreak
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// FlagParagraphBreak indicates that the glyph cluster does not represent actual
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// font glyphs, but was inserted by the shaper to represent line-breaking
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// whitespace characters. After a glyph with FlagParagraphBreak set, the shaper
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// will always return a glyph with FlagParagraphStart providing the X and Y
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// coordinates of the start of the next line, even if that line has no contents.
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FlagParagraphBreak
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// FlagParagraphStart indicates that the glyph starts a new paragraph.
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FlagParagraphStart
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)
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func (f Flags) String() string {
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var b strings.Builder
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if f&FlagParagraphStart != 0 {
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b.WriteString("S")
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} else {
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b.WriteString("_")
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}
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if f&FlagParagraphBreak != 0 {
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b.WriteString("P")
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} else {
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b.WriteString("_")
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}
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if f&FlagTowardOrigin != 0 {
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b.WriteString("T")
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} else {
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b.WriteString("_")
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}
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if f&FlagLineBreak != 0 {
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b.WriteString("L")
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} else {
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b.WriteString("_")
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}
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if f&FlagRunBreak != 0 {
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b.WriteString("R")
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} else {
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b.WriteString("_")
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}
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if f&FlagClusterBreak != 0 {
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b.WriteString("C")
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} else {
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b.WriteString("_")
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}
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return b.String()
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}
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type GlyphID uint64
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// Shaper converts strings of text into glyphs that can be displayed.
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type Shaper struct {
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shaper shaperImpl
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pathCache pathCache
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layoutCache layoutCache
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paragraph []rune
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reader strings.Reader
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// Iterator state.
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brokeParagraph bool
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pararagraphStart Glyph
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txt document
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line int
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run int
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glyph int
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// advance is the width of glyphs from the current run that have already been displayed.
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advance fixed.Int26_6
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// done tracks whether iteration is over.
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done bool
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err error
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}
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// NewShaper constructs a shaper with the provided collection of font faces
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// available.
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func NewShaper(collection []FontFace) *Shaper {
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l := &Shaper{}
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for _, f := range collection {
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l.shaper.Load(f)
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}
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return l
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}
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// Layout text from an io.Reader according to a set of options. Results can be retrieved by
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// iteratively calling NextGlyph.
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func (l *Shaper) Layout(params Parameters, minWidth, maxWidth int, lc system.Locale, txt io.Reader) {
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l.layoutText(params, minWidth, maxWidth, lc, bufio.NewReader(txt), "")
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}
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// LayoutString is Layout for strings.
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func (l *Shaper) LayoutString(params Parameters, minWidth, maxWidth int, lc system.Locale, str string) {
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l.layoutText(params, minWidth, maxWidth, lc, nil, str)
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}
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func (l *Shaper) reset(align Alignment) {
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l.line, l.run, l.glyph, l.advance = 0, 0, 0, 0
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l.done = false
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l.txt.reset()
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l.txt.alignment = align
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}
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// layoutText lays out a large text document by breaking it into paragraphs and laying
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// out each of them separately. This allows the shaping results to be cached independently
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// by paragraph. Only one of txt and str should be provided.
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func (l *Shaper) layoutText(params Parameters, minWidth, maxWidth int, lc system.Locale, txt io.RuneReader, str string) {
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l.reset(params.Alignment)
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if txt == nil && len(str) == 0 {
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l.txt.append(l.layoutParagraph(params, minWidth, maxWidth, lc, "", nil))
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return
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}
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truncating := params.MaxLines > 0
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maxLines := params.MaxLines
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var done bool
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var startByte int
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var endByte int
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for !done {
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var runes int
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l.paragraph = l.paragraph[:0]
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if txt != nil {
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for r, _, re := txt.ReadRune(); !done; r, _, re = txt.ReadRune() {
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if re != nil {
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done = true
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continue
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}
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l.paragraph = append(l.paragraph, r)
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runes++
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if r == '\n' {
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break
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}
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}
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} else {
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for endByte = startByte; endByte < len(str); {
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r, width := utf8.DecodeRuneInString(str[endByte:])
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endByte += width
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runes++
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if r == '\n' {
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break
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}
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}
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done = endByte == len(str)
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}
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if startByte != endByte || (len(l.paragraph) > 0 || len(l.txt.lines) == 0) {
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l.txt.append(l.layoutParagraph(params, minWidth, maxWidth, lc, str[startByte:endByte], l.paragraph))
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if truncating {
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params.MaxLines = maxLines - len(l.txt.lines)
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if params.MaxLines == 0 {
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done = true
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}
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}
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}
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if done {
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return
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}
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startByte = endByte
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}
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}
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func (l *Shaper) layoutParagraph(params Parameters, minWidth, maxWidth int, lc system.Locale, asStr string, asRunes []rune) document {
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if l == nil {
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return document{}
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}
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if len(asStr) == 0 && len(asRunes) > 0 {
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asStr = string(asRunes)
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}
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// Alignment is not part of the cache key because changing it does not impact shaping.
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lk := layoutKey{
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ppem: params.PxPerEm,
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maxWidth: maxWidth,
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minWidth: minWidth,
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maxLines: params.MaxLines,
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str: asStr,
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locale: lc,
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font: params.Font,
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}
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if l, ok := l.layoutCache.Get(lk); ok {
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return l
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}
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if len(asRunes) == 0 && len(asStr) > 0 {
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asRunes = []rune(asStr)
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}
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lines := l.shaper.LayoutRunes(params, minWidth, maxWidth, lc, asRunes)
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l.layoutCache.Put(lk, lines)
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return lines
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}
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// NextGlyph returns the next glyph from the most recent shaping operation, if
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// any. If there are no more glyphs, ok will be false.
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func (l *Shaper) NextGlyph() (_ Glyph, ok bool) {
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if l.done {
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return Glyph{}, false
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}
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for {
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if l.line == len(l.txt.lines) {
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if l.brokeParagraph {
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l.brokeParagraph = false
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return l.pararagraphStart, true
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}
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if l.err == nil {
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l.err = io.EOF
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}
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return Glyph{}, false
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}
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line := l.txt.lines[l.line]
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if l.run == len(line.runs) {
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l.line++
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l.run = 0
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continue
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}
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run := line.runs[l.run]
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align := l.txt.alignment.Align(line.direction, line.width, l.txt.alignWidth)
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if l.line == 0 && l.run == 0 && len(run.Glyphs) == 0 {
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// The very first run is empty, which will only happen when the
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// entire text is a shaped empty string. Return a single synthetic
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// glyph to provide ascent/descent information to the caller.
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l.done = true
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return Glyph{
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X: align,
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Y: int32(line.yOffset),
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Runes: 0,
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Flags: FlagLineBreak | FlagClusterBreak | FlagRunBreak,
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Ascent: line.ascent,
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Descent: line.descent,
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}, true
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}
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if l.glyph == len(run.Glyphs) {
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l.run++
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l.glyph = 0
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l.advance = 0
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continue
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}
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glyphIdx := l.glyph
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rtl := run.Direction.Progression() == system.TowardOrigin
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if rtl {
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// If RTL, traverse glyphs backwards to ensure rune order.
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glyphIdx = len(run.Glyphs) - 1 - glyphIdx
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}
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g := run.Glyphs[glyphIdx]
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if rtl {
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// Modify the advance prior to computing runOffset to ensure that the
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// current glyph's width is subtracted in RTL.
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l.advance += g.xAdvance
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}
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// runOffset computes how far into the run the dot should be positioned.
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runOffset := l.advance
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if rtl {
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runOffset = run.Advance - l.advance
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}
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glyph := Glyph{
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ID: g.id,
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X: align + run.X + runOffset,
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Y: int32(line.yOffset),
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Ascent: line.ascent,
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Descent: line.descent,
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Advance: g.xAdvance,
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Runes: byte(g.runeCount),
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Offset: fixed.Point26_6{
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X: g.xOffset,
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Y: g.yOffset,
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},
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Bounds: g.bounds,
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}
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l.glyph++
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if !rtl {
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l.advance += g.xAdvance
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}
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endOfRun := l.glyph == len(run.Glyphs)
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if endOfRun {
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glyph.Flags |= FlagRunBreak
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}
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endOfLine := endOfRun && l.run == len(line.runs)-1
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if endOfLine {
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glyph.Flags |= FlagLineBreak
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}
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endOfText := endOfLine && l.line == len(l.txt.lines)-1
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nextGlyph := l.glyph
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if rtl {
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nextGlyph = len(run.Glyphs) - 1 - nextGlyph
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}
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endOfCluster := endOfRun || run.Glyphs[nextGlyph].clusterIndex != g.clusterIndex
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if endOfCluster {
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glyph.Flags |= FlagClusterBreak
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} else {
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glyph.Runes = 0
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}
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if run.Direction.Progression() == system.TowardOrigin {
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glyph.Flags |= FlagTowardOrigin
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}
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if l.brokeParagraph {
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glyph.Flags |= FlagParagraphStart
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l.brokeParagraph = false
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}
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if g.glyphCount == 0 {
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glyph.Flags |= FlagParagraphBreak
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l.brokeParagraph = true
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if endOfText {
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l.pararagraphStart = Glyph{
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Ascent: glyph.Ascent,
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Descent: glyph.Descent,
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Flags: FlagParagraphStart | FlagLineBreak | FlagRunBreak | FlagClusterBreak,
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}
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// If a glyph is both a paragraph break and the final glyph, it's a newline
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// at the end of the text. We must inform widgets like the text editor
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// of a valid cursor position they can use for "after" such a newline,
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// taking text alignment into account.
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l.pararagraphStart.X = l.txt.alignment.Align(line.direction, 0, l.txt.alignWidth)
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l.pararagraphStart.Y = glyph.Y + int32((glyph.Ascent + glyph.Descent).Ceil())
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}
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}
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return glyph, true
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}
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}
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const (
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facebits = 16
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sizebits = 16
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gidbits = 64 - facebits - sizebits
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)
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// newGlyphID encodes a face and a glyph id into a GlyphID.
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func newGlyphID(ppem fixed.Int26_6, faceIdx int, gid font.GID) GlyphID {
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if gid&^((1<<gidbits)-1) != 0 {
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fmt.Println(gid)
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panic("glyph id out of bounds")
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}
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if faceIdx&^((1<<facebits)-1) != 0 {
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panic("face index out of bounds")
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}
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if ppem&^((1<<sizebits)-1) != 0 {
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panic("ppem out of bounds")
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}
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// Mask off the upper 16 bits of ppem. This still allows values up to
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// 1023.
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ppem &= ((1 << sizebits) - 1)
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return GlyphID(faceIdx)<<(gidbits+sizebits) | GlyphID(ppem)<<(gidbits) | GlyphID(gid)
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}
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// splitGlyphID is the opposite of newGlyphID.
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func splitGlyphID(g GlyphID) (fixed.Int26_6, int, font.GID) {
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faceIdx := int(g) >> (gidbits + sizebits)
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ppem := fixed.Int26_6((g & ((1<<sizebits - 1) << gidbits)) >> gidbits)
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gid := font.GID(g) & (1<<gidbits - 1)
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return ppem, faceIdx, gid
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}
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// Shape converts a slice of glyphs into a path describing their collective
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// shape. All glyphs are expected to be from a single line of text (their
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// Y offsets are ignored).
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func (l *Shaper) Shape(gs []Glyph) clip.PathSpec {
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key := l.pathCache.hashGlyphs(gs)
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shape, ok := l.pathCache.Get(key, gs)
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if ok {
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return shape
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}
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ops := new(op.Ops)
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shape = l.shaper.Shape(ops, gs)
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l.pathCache.Put(key, gs, shape)
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return shape
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}
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