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tomo-old/textdraw/layout.go

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package textdraw
import "unicode"
import "golang.org/x/image/font"
import "golang.org/x/image/math/fixed"
// Align specifies a text alignment method.
type Align int
const (
// AlignLeft aligns the start of each line to the beginning point
// of each dot.
AlignLeft Align = iota
AlignRight
AlignCenter
AlignJustify
)
// RuneLayout contains layout information for a single rune relative to its
// word.
type RuneLayout struct {
X fixed.Int26_6
Width fixed.Int26_6
Rune rune
}
// WordLayout contains layout information for a single word relative to its
// line.
type WordLayout struct {
X fixed.Int26_6
Width fixed.Int26_6
SpaceAfter fixed.Int26_6
Runes []RuneLayout
}
// DoWord consumes exactly one word from the given string, and produces a word
// layout according to the given font. It returns the remaining text as well.
func DoWord (text []rune, face font.Face) (word WordLayout, remaining []rune) {
remaining = text
gettingSpace := false
x := fixed.Int26_6(0)
lastRune := rune(-1)
for _, char := range text {
// if we run into a line break, we must break out immediately
// because it is not DoWord's job to handle that.
if char == '\n' { break }
// if we suddenly run into spaces, and then run into a word
// again, we must break out immediately.
if unicode.IsSpace(char) {
gettingSpace = true
} else if gettingSpace {
break
}
// apply kerning
if lastRune >= 0 { x += face.Kern(lastRune, char) }
lastRune = char
// consume and process the rune
remaining = remaining[1:]
_, advance, ok := face.GlyphBounds(char)
if !ok { continue }
word.Runes = append (word.Runes, RuneLayout {
X: x,
Width: advance,
Rune: char,
})
// advance
if gettingSpace {
word.SpaceAfter += advance
} else {
word.Width += advance
}
x += advance
}
return
}
// LastRune returns the last rune in the word.
func (word WordLayout) LastRune () rune {
if word.Runes == nil {
return -1
} else {
return word.Runes[len(word.Runes) - 1].Rune
}
}
// FirstRune returns the last rune in the word.
func (word WordLayout) FirstRune () rune {
if word.Runes == nil {
return -1
} else {
return word.Runes[0].Rune
}
}
// LineLayout contains layout information for a single line.
type LineLayout struct {
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Y fixed.Int26_6
Width fixed.Int26_6
ContentWidth fixed.Int26_6
SpaceAfter fixed.Int26_6
Words []WordLayout
BreakAfter bool
}
// DoLine consumes exactly one line from the given string, and produces a line
// layout according to the given font. It returns the remaining text as well. If
// maxWidth is greater than zero, this function will stop processing words once
// the limit is crossed. The word which would have crossed over the limit will
// not be processed.
func DoLine (text []rune, face font.Face, maxWidth fixed.Int26_6) (line LineLayout, remaining []rune) {
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remaining = text
x := fixed.Int26_6(0)
lastWord := WordLayout { }
isFirstWord := true
for {
// process one word
word, remainingFromWord := DoWord(remaining, face)
word.X = x
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x += word.Width
// if we have gone over the maximum width, stop processing
// words (if maxWidth is even specified)
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if !isFirstWord && maxWidth > 0 && x > maxWidth {
break
}
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x += word.SpaceAfter
remaining = remainingFromWord
// if the word actually has contents, add it
if word.Runes != nil {
lastWord = word
line.Words = append(line.Words, word)
}
// if we have hit the end of the line, stop processing words
if len(remaining) == 0 { break }
if remaining[0] == '\n' {
line.BreakAfter = true
remaining = remaining[1:]
break
}
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isFirstWord = false
}
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// set the width of the line's content.
line.ContentWidth = lastWord.X + lastWord.Width
// set the line's width. this is subject to be overridden by the
// TypeSetter to match the longest line.
if maxWidth > 0 {
line.Width = maxWidth
} else {
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line.Width = line.ContentWidth
line.SpaceAfter = lastWord.SpaceAfter
}
return
}
// Align aligns the text in the line according to the specified alignment
// method.
func (line *LineLayout) Align (align Align) {
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if len(line.Words) == 0 { return }
if align == AlignJustify {
line.justify()
return
}
leftOffset := -line.Words[0].X
if align == AlignCenter {
leftOffset += (line.Width - line.ContentWidth) / 2
} else if align == AlignRight {
leftOffset += line.Width - line.ContentWidth
}
for index := range line.Words {
line.Words[index].X += leftOffset
}
}
func (line *LineLayout) justify () {
if len(line.Words) < 2 {
line.Align(AlignLeft)
return
}
// We are going to be moving the words, so we can't take SpaceAfter into
// account.
trueContentWidth := fixed.Int26_6(0)
for _, word := range line.Words {
trueContentWidth += word.Width
}
spaceCount := fixed.Int26_6(len(line.Words) - 1)
spacePerWord := (line.Width - trueContentWidth) / spaceCount
x := fixed.Int26_6(0)
for index, word := range line.Words {
line.Words[index].X = x
x += spacePerWord + word.Width
}
}