251 lines
6.2 KiB
Go
251 lines
6.2 KiB
Go
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package typeset
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import "unicode"
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import "golang.org/x/image/font"
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import "golang.org/x/image/math/fixed"
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// Align specifies a text alignment method.
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type Align int
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const (
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// X | Y
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AlignStart Align = iota // left | top
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AlignMiddle // center | center
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AlignEnd // right | bottom
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AlignEven // justified | evenly spaced
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)
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// RuneLayout contains layout information for a single rune relative to its
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// word.
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type RuneLayout struct {
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X fixed.Int26_6
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Width fixed.Int26_6
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Rune rune
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}
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// WordLayout contains layout information for a single word relative to its
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// line.
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type WordLayout struct {
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X fixed.Int26_6
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Width fixed.Int26_6
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SpaceAfter fixed.Int26_6
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Runes []RuneLayout
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}
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// DoWord consumes exactly one word from the given string, and produces a word
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// layout according to the given font. It returns the remaining text as well.
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func DoWord (text []rune, face font.Face) (word WordLayout, remaining []rune) {
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remaining = text
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gettingSpace := false
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x := fixed.Int26_6(0)
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lastRune := rune(-1)
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for _, char := range text {
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// if we run into a line break, we must break out immediately
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// because it is not DoWord's job to handle that.
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if char == '\n' { break }
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// if we suddenly run into spaces, and then run into a word
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// again, we must break out immediately.
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if unicode.IsSpace(char) {
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gettingSpace = true
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} else if gettingSpace {
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break
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}
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// apply kerning
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if lastRune >= 0 { x += face.Kern(lastRune, char) }
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lastRune = char
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// consume and process the rune
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remaining = remaining[1:]
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advance, ok := face.GlyphAdvance(char)
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if !ok {
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advance = tofuAdvance(face)
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}
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runeLayout := RuneLayout {
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X: x,
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Width: advance,
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Rune: char,
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}
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word.Runes = append(word.Runes, runeLayout)
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// advance
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if gettingSpace {
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word.SpaceAfter += advance
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} else {
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word.Width += advance
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}
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x += advance
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}
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return
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}
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// LastRune returns the last rune in the word.
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func (word WordLayout) LastRune () rune {
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if word.Runes == nil {
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return -1
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} else {
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return word.Runes[len(word.Runes) - 1].Rune
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}
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}
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// FirstRune returns the last rune in the word.
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func (word WordLayout) FirstRune () rune {
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if word.Runes == nil {
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return -1
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} else {
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return word.Runes[0].Rune
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}
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}
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// LineLayout contains layout information for a single line.
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type LineLayout struct {
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Y fixed.Int26_6
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Width fixed.Int26_6
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ContentWidth fixed.Int26_6
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SpaceAfter fixed.Int26_6
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Words []WordLayout
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BreakAfter bool
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}
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// DoLine consumes exactly one line from the given string, and produces a line
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// layout according to the given font. It returns the remaining text as well. If
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// wrap is set to true, this function will stop processing words once maxWidth
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// is crossed. The word which would have crossed over the limit will not be
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// processed.
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func DoLine (text []rune, face font.Face, wrap bool, width fixed.Int26_6) (line LineLayout, remaining []rune) {
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remaining = text
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x := fixed.Int26_6(0)
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isFirstWord := true
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for {
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// process one word
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word, remainingFromWord := DoWord(remaining, face)
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x += word.Width
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// if we have gone over the preferred width, stop processing
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// words (if wrap is enabled)
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if !isFirstWord && wrap && x > width {
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break
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}
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x += word.SpaceAfter
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remaining = remainingFromWord
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// if the word actually has contents, add it
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if word.Runes != nil {
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line.Words = append(line.Words, word)
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}
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// if we have hit the end of the line, stop processing words
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if len(remaining) == 0 { break }
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if remaining[0] == '\n' {
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line.BreakAfter = true
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remaining = remaining[1:]
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break
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}
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isFirstWord = false
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}
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// set the width of the line's content.
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line.Width = width
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// TODO: just have RecommendedHeight want aligned layout?
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if len(line.Words) > 0 {
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lastWord := line.Words[len(line.Words) - 1]
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line.ContentWidth = x - lastWord.SpaceAfter
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line.SpaceAfter = lastWord.SpaceAfter
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}
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return
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}
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// Length returns the amount of runes within the line, including the trailing
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// line break if it exists.
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func (line *LineLayout) Length () int {
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lineSize := 0
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for _, word := range line.Words {
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lineSize += len(word.Runes)
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}
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if line.BreakAfter { lineSize ++ }
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return lineSize
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}
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// Align aligns the text in the line according to the specified alignment
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// method.
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func (line *LineLayout) Align (align Align, tabWidth fixed.Int26_6) {
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if len(line.Words) == 0 { return }
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if align == AlignEven {
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line.justify(tabWidth)
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} else {
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line.contract(tabWidth)
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var leftOffset fixed.Int26_6
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if align == AlignMiddle {
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leftOffset = (line.Width - line.ContentWidth) / 2
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} else if align == AlignEnd {
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leftOffset = line.Width - line.ContentWidth
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}
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for index := range line.Words {
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line.Words[index].X += leftOffset
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}
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}
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}
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// assume line has content > 0
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func (line *LineLayout) contract (tabWidth fixed.Int26_6) {
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x := fixed.Int26_6(0)
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for index, word := range line.Words {
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word.X = x
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x += word.Width
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x += word.SpaceAfter
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line.Words[index] = word
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}
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lastWord := line.Words[len(line.Words) - 1]
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line.ContentWidth = lastWord.X + lastWord.Width
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line.SpaceAfter = lastWord.SpaceAfter
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}
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// assume line has content > 0
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func (line *LineLayout) justify (tabWidth fixed.Int26_6) {
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if len(line.Words) <= 1 {
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line.Align(AlignStart, tabWidth)
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return
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}
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// We are going to be moving the words, so we can't take SpaceAfter into
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// account.
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trueContentWidth := fixed.Int26_6(0)
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for _, word := range line.Words {
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trueContentWidth += word.Width
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}
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spaceCount := len(line.Words) - 1
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spacePerWord := (line.Width - trueContentWidth) / fixed.Int26_6(spaceCount)
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x := fixed.Int26_6(0)
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for index, word := range line.Words {
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line.Words[index].X = x
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x += spacePerWord + word.Width
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}
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}
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func tabStop (x, tabWidth fixed.Int26_6, delta int) fixed.Int26_6 {
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return fixed.I((tabWidth * 64 / x).Floor() + delta).Mul(tabWidth)
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}
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func tofuAdvance (face font.Face) fixed.Int26_6 {
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if advance, ok := face.GlyphAdvance('M'); ok {
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return advance
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} else {
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return 16
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}
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}
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func tofuBounds (face font.Face) (fixed.Rectangle26_6, fixed.Int26_6) {
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if bounds, advance, ok := face.GlyphBounds('M'); ok {
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return bounds, advance
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} else {
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return fixed.R(0, -16, 14, 0), 16
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}
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}
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