tomo/typeset
tomo/typeset
1
0
Fork 0
Code Issues 1 Pull Requests Packages Projects Releases 12 Wiki Activity

Remove old files

Browse Source
This commit is contained in:
Sasha Koshka 2024-09-20 00:39:43 -04:00
parent f386684454
commit 436686961b
3 changed files with 0 additions and 762 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

84
old/drawer.go
View File

@ -1,84 +0,0 @@
package typeset
import "image"
import "unicode"
import "image/draw"
import "image/color"
import "golang.org/x/image/math/fixed"
// Drawer is an extended TypeSetter that is able to draw text. Much like
// TypeSetter, It has no constructor and its zero value can be used safely.
type Drawer struct { TypeSetter }
// Draw draws the drawer's text onto the specified canvas at the given offset.
func (drawer Drawer) Draw (
destination draw.Image,
col color.Color,
offset image.Point,
) (
updatedRegion image.Rectangle,
) {
source := image.NewUniform(col)
drawer.ForRunes (func (
index int,
char rune,
position fixed.Point26_6,
) bool {
// leave empty space for space characters
if unicode.IsSpace(char) {
return true
}
dot := fixed.P (
offset.X + position.X.Round(),
offset.Y + position.Y.Round())
destinationRectangle,
mask, maskPoint, _, ok := drawer.face.Glyph(dot, char)
// tofu
if !ok {
drawer.drawTofu(char, destination, col, dot)
return true
}
// FIXME:? clip destination rectangle if we are on the cusp of
// the maximum height.
draw.DrawMask (
destination,
destinationRectangle,
source, image.Point { },
mask, maskPoint,
draw.Over)
updatedRegion = updatedRegion.Union(destinationRectangle)
return true
})
return
}
func (drawer Drawer) drawTofu (
char rune,
destination draw.Image,
col color.Color,
position fixed.Point26_6,
) {
bounds, _ := tofuBounds(drawer.face)
rectBounds := image.Rect (
bounds.Min.X.Round(),
bounds.Min.Y.Round(),
bounds.Max.X.Round(),
bounds.Max.Y.Round()).Add(image.Pt(
position.X.Round(),
position.Y.Round()))
for x := rectBounds.Min.X; x < rectBounds.Max.X; x ++ {
destination.Set(x, rectBounds.Min.Y, col)
}
for y := rectBounds.Min.Y; y < rectBounds.Max.Y; y ++ {
destination.Set(rectBounds.Min.X, y, col)
destination.Set(rectBounds.Max.X - 1, y, col)
}
for x := rectBounds.Min.X; x < rectBounds.Max.X; x ++ {
destination.Set(x, rectBounds.Max.Y - 1, col)
}
}

250
old/layout.go
View File

@ -1,250 +0,0 @@
package typeset
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 (
// X | Y
AlignStart Align = iota // left | top
AlignMiddle // center | center
AlignEnd // right | bottom
AlignEven // justified | evenly spaced
)
// 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.GlyphAdvance(char)
if !ok {
advance = tofuAdvance(face)
}
runeLayout := RuneLayout {
X: x,
Width: advance,
Rune: char,
}
word.Runes = append(word.Runes, runeLayout)
// 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 {
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
// wrap is set to true, this function will stop processing words once maxWidth
// is crossed. The word which would have crossed over the limit will not be
// processed.
func DoLine (text []rune, face font.Face, wrap bool, width fixed.Int26_6) (line LineLayout, remaining []rune) {
remaining = text
x := fixed.Int26_6(0)
isFirstWord := true
for {
// process one word
word, remainingFromWord := DoWord(remaining, face)
x += word.Width
// if we have gone over the preferred width, stop processing
// words (if wrap is enabled)
if !isFirstWord && wrap && x > width {
break
}
x += word.SpaceAfter
remaining = remainingFromWord
// if the word actually has contents, add it
if word.Runes != nil {
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
}
isFirstWord = false
}
// set the width of the line's content.
line.Width = width
// TODO: just have RecommendedHeight want aligned layout?
if len(line.Words) > 0 {
lastWord := line.Words[len(line.Words) - 1]
line.ContentWidth = x - lastWord.SpaceAfter
line.SpaceAfter = lastWord.SpaceAfter
}
return
}
// Length returns the amount of runes within the line, including the trailing
// line break if it exists.
func (line *LineLayout) Length () int {
lineSize := 0
for _, word := range line.Words {
lineSize += len(word.Runes)
}
if line.BreakAfter { lineSize ++ }
return lineSize
}
// Align aligns the text in the line according to the specified alignment
// method.
func (line *LineLayout) Align (align Align, tabWidth fixed.Int26_6) {
if len(line.Words) == 0 { return }
if align == AlignEven {
line.justify(tabWidth)
} else {
line.contract(tabWidth)
var leftOffset fixed.Int26_6
if align == AlignMiddle {
leftOffset = (line.Width - line.ContentWidth) / 2
} else if align == AlignEnd {
leftOffset = line.Width - line.ContentWidth
}
for index := range line.Words {
line.Words[index].X += leftOffset
}
}
}
// assume line has content > 0
func (line *LineLayout) contract (tabWidth fixed.Int26_6) {
x := fixed.Int26_6(0)
for index, word := range line.Words {
word.X = x
x += word.Width
x += word.SpaceAfter
line.Words[index] = word
}
lastWord := line.Words[len(line.Words) - 1]
line.ContentWidth = lastWord.X + lastWord.Width
line.SpaceAfter = lastWord.SpaceAfter
}
// assume line has content > 0
func (line *LineLayout) justify (tabWidth fixed.Int26_6) {
if len(line.Words) <= 1 {
line.Align(AlignStart, tabWidth)
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 := len(line.Words) - 1
spacePerWord := (line.Width - trueContentWidth) / fixed.Int26_6(spaceCount)
x := fixed.Int26_6(0)
for index, word := range line.Words {
line.Words[index].X = x
x += spacePerWord + word.Width
}
}
func tabStop (x, tabWidth fixed.Int26_6, delta int) fixed.Int26_6 {
return fixed.I((tabWidth * 64 / x).Floor() + delta).Mul(tabWidth)
}
func tofuAdvance (face font.Face) fixed.Int26_6 {
if advance, ok := face.GlyphAdvance('M'); ok {
return advance
} else {
return 16
}
}
func tofuBounds (face font.Face) (fixed.Rectangle26_6, fixed.Int26_6) {
if bounds, advance, ok := face.GlyphBounds('M'); ok {
return bounds, advance
} else {
return fixed.R(0, -16, 14, 0), 16
}
}

428
old/setter.go
View File

@ -1,428 +0,0 @@
package typeset
import "image"
import "golang.org/x/image/font"
import "golang.org/x/image/math/fixed"
// TypeSetter manages several lines of text, and can perform layout operations
// on them. It automatically avoids performing redundant work. It has no
// constructor and its zero value can be used safely.
type TypeSetter struct {
lines []LineLayout
text []rune
layoutClean bool
alignClean bool
hAlign, vAlign Align
face font.Face
width, height int
wrap bool
tabWidth fixed.Int26_6
minWidth fixed.Int26_6
layoutBounds image.Rectangle
layoutBoundsSpace image.Rectangle
}
func (setter *TypeSetter) needLayout () {
if setter.layoutClean { return }
setter.layoutClean = true
setter.alignClean = false
setter.lines = nil
setter.layoutBounds = image.Rectangle { }
setter.layoutBoundsSpace = image.Rectangle { }
setter.minWidth = 0
if setter.face == nil { return }
horizontalExtent := fixed.Int26_6(0)
horizontalExtentSpace := fixed.Int26_6(0)
metrics := setter.face.Metrics()
remaining := setter.text
y := fixed.Int26_6(0)
// function to add line and update bounds statistics
addLine := func (line LineLayout) {
line.Y = y
y += metrics.Height
if line.ContentWidth > horizontalExtent {
horizontalExtent = line.ContentWidth
}
lineWidthSpace := line.ContentWidth + line.SpaceAfter
if lineWidthSpace > horizontalExtentSpace {
horizontalExtentSpace = lineWidthSpace
}
setter.lines = append(setter.lines, line)
}
// process every line until there are no more remaining runes
for len(remaining) > 0 {
line, remainingFromLine := DoLine (
remaining, setter.face, setter.wrap,
fixed.I(setter.width))
remaining = remainingFromLine
addLine(line)
}
// if there were no lines processed or the last line has a break after
// it, add a blank line at the end
needBlankLine :=
len(setter.lines) == 0 ||
setter.lines[len(setter.lines) - 1].BreakAfter
if needBlankLine { addLine(LineLayout { }) }
// if we are wrapping text, the width must be the user-set width
if setter.wrap {
horizontalExtent = fixed.I(setter.width)
horizontalExtentSpace = fixed.I(setter.width)
}
// calculate layout boundaries
setter.minWidth = horizontalExtentSpace
setter.layoutBounds.Max.X = horizontalExtent.Round()
setter.layoutBoundsSpace.Max.X = horizontalExtentSpace.Round()
y -= metrics.Height
setter.layoutBounds.Min.Y = -metrics.Ascent.Round()
setter.layoutBounds.Max.Y =
y.Round() +
metrics.Descent.Round()
setter.layoutBoundsSpace.Min.Y = setter.layoutBounds.Min.Y
setter.layoutBoundsSpace.Max.Y = setter.layoutBounds.Max.Y
}
func (setter *TypeSetter) needAlignedLayout () {
if setter.alignClean && setter.layoutClean { return }
setter.needLayout()
setter.alignClean = true
setter.alignHorizontally()
setter.alignVertically()
}
// should only be called from within setter.needAlignedLayout
func (setter *TypeSetter) alignHorizontally () {
if len(setter.lines) == 0 { return }
for index := range setter.lines {
align := setter.hAlign
// if the horizontal align is even, align lines with breaks
// after them to the left anyways
if align == AlignEven {
except :=
index == len(setter.lines) - 1 ||
setter.lines[index].BreakAfter
if except { align = AlignStart }
}
// align line
setter.lines[index].Align(align, setter.tabWidth)
}
}
// should only be called from within setter.needAlignedLayout
func (setter *TypeSetter) alignVertically () {
if setter.height == 0 { return }
if len(setter.lines) == 0 { return }
if setter.vAlign == AlignEven {
setter.justifyVertically()
return
}
// determine how much to shift lines
topOffset := fixed.I(0)
contentHeight := setter.layoutBoundsSpace.Dy()
if setter.vAlign == AlignMiddle {
topOffset += fixed.I((setter.height - contentHeight) / 2)
} else if setter.vAlign == AlignEnd {
topOffset += fixed.I(setter.height - contentHeight)
}
// we may be re-aligning already aligned text. if the text is shifted
// away from the origin, account for that.
if len(setter.lines) > 0 {
topOffset -= setter.lines[0].Y
}
// shift lines
for index := range setter.lines {
setter.lines[index].Y += topOffset
}
}
// should only be called from within setter.alignVertically
func (setter *TypeSetter) justifyVertically () {
spaceCount := len(setter.lines) - 1
contentHeight := setter.layoutBoundsSpace.Dy()
spacePerLine :=
fixed.Int26_6(setter.height - contentHeight) /
fixed.Int26_6(spaceCount)
y := fixed.Int26_6(0)
for index := range setter.lines {
setter.lines[index].Y = y
y += spacePerLine + setter.LineHeight()
}
}
// SetWrap sets whether or not the text wraps around and forms new lines.
func (setter *TypeSetter) SetWrap (wrap bool) {
if setter.wrap == wrap { return }
setter.layoutClean = false
setter.wrap = wrap
}
// SetAlign sets the alignment method of the typesetter.
func (setter *TypeSetter) SetAlign (horizontal, vertical Align) {
if setter.hAlign == horizontal && setter.vAlign == vertical { return }
setter.alignClean = false
setter.hAlign = horizontal
setter.vAlign = vertical
}
// SetText sets the text content of the typesetter.
func (setter *TypeSetter) SetText (text []rune) {
setter.layoutClean = false
setter.alignClean = false
setter.text = text
}
// SetFace sets the font face of the typesetter.
func (setter *TypeSetter) SetFace (face font.Face) {
if setter.face == face { return }
setter.layoutClean = false
setter.alignClean = false
setter.face = face
}
// SetWidth sets the width of the typesetter. Text will still be able
// to overflow outside of this width if wrapping is disabled.
func (setter *TypeSetter) SetWidth (width int) {
if setter.width == width { return }
setter.layoutClean = false
setter.alignClean = false
setter.width = width
}
// SetHeight sets the height of the typesetter. If the height is greater than
// zero, no lines will be laid out past it. If the height is zero, the text's
// maximum height will not be constrained.
func (setter *TypeSetter) SetHeight (heignt int) {
if setter.height == heignt { return }
setter.layoutClean = false
setter.alignClean = false
setter.height = heignt
}
// SetTabWidth sets the distance between tab stops.
func (setter *TypeSetter) SetTabWidth (tabWidth fixed.Int26_6) {
if setter.tabWidth == tabWidth { return }
setter.layoutClean = false
setter.alignClean = false
setter.tabWidth = tabWidth
}
// Em returns the width of one emspace according to the typesetter's font, which
// is the width of the capital letter 'M'.
func (setter *TypeSetter) Em () (width fixed.Int26_6) {
if setter.face == nil { return 0 }
width, _ = setter.face.GlyphAdvance('M')
return
}
// LineHeight returns the height of one line according to the typesetter's font.
func (setter *TypeSetter) LineHeight () fixed.Int26_6 {
if setter.face == nil { return 0 }
return setter.face.Metrics().Height
}
// Width returns the height of the typesetter as set by SetWidth.
func (setter *TypeSetter) Width () int {
return setter.width
}
// Height returns the height of the typesetter as set by SetHeight.
func (setter *TypeSetter) Height () int {
return setter.height
}
// Face returns the TypeSetter's font face as set by SetFace.
func (setter *TypeSetter) Face () font.Face {
return setter.face
}
// Length returns the amount of runes in the typesetter.
func (setter *TypeSetter) Length () int {
return len(setter.text)
}
// RuneIterator is a function that can iterate accross a typesetter's runes.
type RuneIterator func (
index int,
char rune,
position fixed.Point26_6,
) (
keepGoing bool,
)
// For calls the specified iterator for every rune in the typesetter. If the
// iterator returns false, the loop will immediately stop. This method will
// insert a fake null rune at the end.
func (setter *TypeSetter) For (iterator RuneIterator) {
setter.forInternal(iterator, true)
}
// ForRunes is like For, but leaves out the fake null rune.
func (setter *TypeSetter) ForRunes (iterator RuneIterator) {
setter.forInternal(iterator, false)
}
func (setter *TypeSetter) forInternal (iterator RuneIterator, fakeNull bool) {
setter.needAlignedLayout()
index := 0
lastLineY := fixed.Int26_6(0)
lastCharRightBound := fixed.Int26_6(0)
for _, line := range setter.lines {
lastLineY = line.Y
for _, word := range line.Words {
for _, char := range word.Runes {
lastCharRightBound = word.X + char.X + char.Width
keepGoing := iterator(index, char.Rune, fixed.Point26_6 {
X: word.X + char.X,
Y: line.Y,
})
if !keepGoing { return }
index ++
}}
if line.BreakAfter {
keepGoing := iterator(index, '\n', fixed.Point26_6 {
X: lastCharRightBound,
Y: line.Y,
})
if !keepGoing { return }
index ++
lastCharRightBound = fixed.Int26_6(0)
}
}
if fakeNull {
keepGoing := iterator (index, '\000', fixed.Point26_6 {
X: lastCharRightBound,
Y: lastLineY,
})
if !keepGoing { return }
index ++
}
}
// AtPosition returns the index of the rune at the specified position.
func (setter *TypeSetter) AtPosition (position fixed.Point26_6) (index int) {
setter.needAlignedLayout()
if setter.lines == nil { return }
if setter.face == nil { return }
// find the first line who's bottom bound is greater than position.Y. if
// we haven't found it, then dont set the line variable (defaults to the
// last line)
metrics := setter.face.Metrics()
lastLine := setter.lines[len(setter.lines) - 1]
for _, curLine := range setter.lines {
if curLine.Y + metrics.Descent > position.Y {
lastLine = curLine
break
}
index += curLine.Length()
}
if lastLine.Words == nil { return }
// find the first rune who's right bound is greater than position.X.
for _, curWord := range lastLine.Words {
for _, curChar := range curWord.Runes {
x := curWord.X + curChar.X + curChar.Width
if x > position.X { goto foundRune }
index ++
}
}
foundRune:
return
}
// PositionAt returns the position of the rune at the specified index.
func (setter *TypeSetter) PositionAt (index int) (position fixed.Point26_6) {
setter.needAlignedLayout()
setter.For (func (i int, r rune, p fixed.Point26_6) bool {
position = p
return i < index
})
return
}
// LayoutBounds returns the semantic bounding box of the text. The origin point
// (0, 0) of the rectangle corresponds to the origin of the first line's
// baseline.
func (setter *TypeSetter) LayoutBounds () (image.Rectangle) {
setter.needLayout()
return setter.layoutBounds
}
// LayoutBoundsSpace is like LayoutBounds, but it also takes into account the
// trailing whitespace at the end of each line (if it exists).
func (setter *TypeSetter) LayoutBoundsSpace () (image.Rectangle) {
setter.needLayout()
return setter.layoutBoundsSpace
}
// MinimumSize returns the minimum width and height needed to display text. If
// wrapping is enabled, this method will return (Em(), 0)
func (setter *TypeSetter) MinimumSize () image.Point {
setter.needLayout()
if setter.wrap {
return image.Pt(setter.Em().Round(), 0)
}
width := setter.minWidth
height := fixed.Int26_6(len(setter.lines)) * setter.LineHeight()
return image.Pt(width.Round(), height.Round())
}
// RecommendedHeight returns the reccomended max height if the text were to have
// its maximum width set to the given width. This does not alter the
// typesetter's state.
func (setter *TypeSetter) RecommendedHeight (width int) (height int) {
setter.needLayout()
if setter.lines == nil { return }
if setter.face == nil { return }
metrics := setter.face.Metrics()
dot := fixed.Point26_6 { X: 0, Y: metrics.Height }
firstWord := true
for _, line := range setter.lines {
for _, word := range line.Words {
if word.Width + dot.X > fixed.I(width) && !firstWord {
dot.Y += metrics.Height
dot.X = 0
firstWord = true
}
dot.X += word.Width + word.SpaceAfter
firstWord = false
}
if line.BreakAfter {
dot.Y += metrics.Height
dot.X = 0
firstWord = true
}
}
return dot.Y.Round()
}