365 lines
11 KiB
Go
365 lines
11 KiB
Go
// Copyright 2010 The Freetype-Go Authors. All rights reserved.
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// Use of this source code is governed by your choice of either the
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// FreeType License or the GNU General Public License version 2 (or
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// any later version), both of which can be found in the LICENSE file.
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// The freetype package provides a convenient API to draw text onto an image.
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// Use the freetype/raster and freetype/truetype packages for lower level
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// control over rasterization and TrueType parsing.
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package freetype // import "git.fromouter.space/crunchy-rocks/freetype"
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import (
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"errors"
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"image"
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"image/draw"
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"git.fromouter.space/crunchy-rocks/emoji"
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"git.fromouter.space/crunchy-rocks/freetype/raster"
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"git.fromouter.space/crunchy-rocks/freetype/truetype"
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"golang.org/x/image/font"
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"golang.org/x/image/math/fixed"
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)
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// These constants determine the size of the glyph cache. The cache is keyed
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// primarily by the glyph index modulo nGlyphs, and secondarily by sub-pixel
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// position for the mask image. Sub-pixel positions are quantized to
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// nXFractions possible values in both the x and y directions.
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const (
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nGlyphs = 256
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nXFractions = 4
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nYFractions = 1
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)
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// An entry in the glyph cache is keyed explicitly by the glyph index and
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// implicitly by the quantized x and y fractional offset. It maps to a mask
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// image and an offset.
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type cacheEntry struct {
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valid bool
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glyph truetype.Index
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advanceWidth fixed.Int26_6
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mask *image.Alpha
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offset image.Point
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}
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// ParseFont just calls the Parse function from the freetype/truetype package.
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// It is provided here so that code that imports this package doesn't need
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// to also include the freetype/truetype package.
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func ParseFont(b []byte) (*truetype.Font, error) {
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return truetype.Parse(b)
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}
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// Pt converts from a co-ordinate pair measured in pixels to a fixed.Point26_6
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// co-ordinate pair measured in fixed.Int26_6 units.
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func Pt(x, y int) fixed.Point26_6 {
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return fixed.Point26_6{
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X: fixed.Int26_6(x << 6),
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Y: fixed.Int26_6(y << 6),
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}
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}
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// A Context holds the state for drawing text in a given font and size.
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type Context struct {
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r *raster.Rasterizer
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f *truetype.Font
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glyphBuf truetype.GlyphBuf
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// clip is the clip rectangle for drawing.
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clip image.Rectangle
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// dst and src are the destination and source images for drawing.
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dst draw.Image
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src image.Image
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// fontSize and dpi are used to calculate scale. scale is the number of
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// 26.6 fixed point units in 1 em. hinting is the hinting policy.
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fontSize, dpi float64
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scale fixed.Int26_6
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hinting font.Hinting
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// cache is the glyph cache.
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cache [nGlyphs * nXFractions * nYFractions]cacheEntry
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// emojis is the table of all parsable emojis
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emojis emoji.Table
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}
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// PointToFixed converts the given number of points (as in "a 12 point font")
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// into a 26.6 fixed point number of pixels.
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func (c *Context) PointToFixed(x float64) fixed.Int26_6 {
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return fixed.Int26_6(x * float64(c.dpi) * (64.0 / 72.0))
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}
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// drawContour draws the given closed contour with the given offset.
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func (c *Context) drawContour(ps []truetype.Point, dx, dy fixed.Int26_6) {
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if len(ps) == 0 {
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return
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}
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// The low bit of each point's Flags value is whether the point is on the
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// curve. Truetype fonts only have quadratic Bézier curves, not cubics.
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// Thus, two consecutive off-curve points imply an on-curve point in the
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// middle of those two.
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//
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// See http://chanae.walon.org/pub/ttf/ttf_glyphs.htm for more details.
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// ps[0] is a truetype.Point measured in FUnits and positive Y going
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// upwards. start is the same thing measured in fixed point units and
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// positive Y going downwards, and offset by (dx, dy).
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start := fixed.Point26_6{
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X: dx + ps[0].X,
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Y: dy - ps[0].Y,
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}
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others := []truetype.Point(nil)
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if ps[0].Flags&0x01 != 0 {
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others = ps[1:]
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} else {
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last := fixed.Point26_6{
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X: dx + ps[len(ps)-1].X,
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Y: dy - ps[len(ps)-1].Y,
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}
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if ps[len(ps)-1].Flags&0x01 != 0 {
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start = last
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others = ps[:len(ps)-1]
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} else {
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start = fixed.Point26_6{
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X: (start.X + last.X) / 2,
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Y: (start.Y + last.Y) / 2,
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}
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others = ps
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}
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}
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c.r.Start(start)
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q0, on0 := start, true
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for _, p := range others {
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q := fixed.Point26_6{
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X: dx + p.X,
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Y: dy - p.Y,
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}
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on := p.Flags&0x01 != 0
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if on {
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if on0 {
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c.r.Add1(q)
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} else {
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c.r.Add2(q0, q)
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}
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} else {
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if on0 {
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// No-op.
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} else {
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mid := fixed.Point26_6{
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X: (q0.X + q.X) / 2,
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Y: (q0.Y + q.Y) / 2,
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}
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c.r.Add2(q0, mid)
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}
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}
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q0, on0 = q, on
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}
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// Close the curve.
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if on0 {
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c.r.Add1(start)
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} else {
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c.r.Add2(q0, start)
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}
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}
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// rasterize returns the advance width, glyph mask and integer-pixel offset
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// to render the given glyph at the given sub-pixel offsets.
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// The 26.6 fixed point arguments fx and fy must be in the range [0, 1).
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func (c *Context) rasterize(glyph truetype.Index, fx, fy fixed.Int26_6) (
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fixed.Int26_6, *image.Alpha, image.Point, error) {
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if err := c.glyphBuf.Load(c.f, c.scale, glyph, c.hinting); err != nil {
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return 0, nil, image.Point{}, err
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}
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// Calculate the integer-pixel bounds for the glyph.
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xmin := int(fx+c.glyphBuf.Bounds.Min.X) >> 6
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ymin := int(fy-c.glyphBuf.Bounds.Max.Y) >> 6
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xmax := int(fx+c.glyphBuf.Bounds.Max.X+0x3f) >> 6
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ymax := int(fy-c.glyphBuf.Bounds.Min.Y+0x3f) >> 6
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if xmin > xmax || ymin > ymax {
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return 0, nil, image.Point{}, errors.New("freetype: negative sized glyph")
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}
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// A TrueType's glyph's nodes can have negative co-ordinates, but the
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// rasterizer clips anything left of x=0 or above y=0. xmin and ymin are
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// the pixel offsets, based on the font's FUnit metrics, that let a
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// negative co-ordinate in TrueType space be non-negative in rasterizer
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// space. xmin and ymin are typically <= 0.
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fx -= fixed.Int26_6(xmin << 6)
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fy -= fixed.Int26_6(ymin << 6)
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// Rasterize the glyph's vectors.
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c.r.Clear()
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e0 := 0
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for _, e1 := range c.glyphBuf.Ends {
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c.drawContour(c.glyphBuf.Points[e0:e1], fx, fy)
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e0 = e1
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}
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a := image.NewAlpha(image.Rect(0, 0, xmax-xmin, ymax-ymin))
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c.r.Rasterize(raster.NewAlphaSrcPainter(a))
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return c.glyphBuf.AdvanceWidth, a, image.Point{xmin, ymin}, nil
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}
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// glyph returns the advance width, glyph mask and integer-pixel offset to
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// render the given glyph at the given sub-pixel point. It is a cache for the
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// rasterize method. Unlike rasterize, p's co-ordinates do not have to be in
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// the range [0, 1).
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func (c *Context) glyph(glyph truetype.Index, p fixed.Point26_6) (
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fixed.Int26_6, *image.Alpha, image.Point, error) {
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// Split p.X and p.Y into their integer and fractional parts.
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ix, fx := int(p.X>>6), p.X&0x3f
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iy, fy := int(p.Y>>6), p.Y&0x3f
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// Calculate the index t into the cache array.
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tg := int(glyph) % nGlyphs
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tx := int(fx) / (64 / nXFractions)
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ty := int(fy) / (64 / nYFractions)
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t := ((tg*nXFractions)+tx)*nYFractions + ty
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// Check for a cache hit.
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if e := c.cache[t]; e.valid && e.glyph == glyph {
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return e.advanceWidth, e.mask, e.offset.Add(image.Point{ix, iy}), nil
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}
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// Rasterize the glyph and put the result into the cache.
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advanceWidth, mask, offset, err := c.rasterize(glyph, fx, fy)
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if err != nil {
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return 0, nil, image.Point{}, err
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}
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c.cache[t] = cacheEntry{true, glyph, advanceWidth, mask, offset}
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return advanceWidth, mask, offset.Add(image.Point{ix, iy}), nil
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}
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// DrawString draws s at p and returns p advanced by the text extent. The text
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// is placed so that the left edge of the em square of the first character of s
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// and the baseline intersect at p. The majority of the affected pixels will be
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// above and to the right of the point, but some may be below or to the left.
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// For example, drawing a string that starts with a 'J' in an italic font may
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// affect pixels below and left of the point.
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//
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// p is a fixed.Point26_6 and can therefore represent sub-pixel positions.
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func (c *Context) DrawString(s string, p fixed.Point26_6) (fixed.Point26_6, error) {
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if c.f == nil {
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return fixed.Point26_6{}, errors.New("freetype: DrawText called with a nil font")
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}
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prev, hasPrev := truetype.Index(0), false
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for fragment := range c.emojis.Iterate(s) {
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// Check if rune is an emoji
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if fragment.IsEmoji {
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img, err := loadIconAtSize(fragment.Emoji.Path, c.scale)
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h := emojiScale * c.scale / 90
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w := emojiScale * c.scale / 70
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if err == nil {
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// Draw pic
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ix, iy := int(p.X>>6), int((p.Y-h)>>6)
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draw.Draw(c.dst, c.dst.Bounds(), img, image.Point{-ix, -iy}, draw.Over)
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// Set some kerning variables
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p.X += w
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continue
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}
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}
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index := c.f.Index(fragment.Rune)
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if hasPrev {
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kern := c.f.Kern(c.scale, prev, index)
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if c.hinting != font.HintingNone {
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kern = (kern + 32) &^ 63
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}
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p.X += kern
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}
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advanceWidth, mask, offset, err := c.glyph(index, p)
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if err != nil {
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return fixed.Point26_6{}, err
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}
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p.X += advanceWidth
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glyphRect := mask.Bounds().Add(offset)
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dr := c.clip.Intersect(glyphRect)
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if !dr.Empty() {
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mp := image.Point{0, dr.Min.Y - glyphRect.Min.Y}
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draw.DrawMask(c.dst, dr, c.src, image.ZP, mask, mp, draw.Over)
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}
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prev, hasPrev = index, true
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}
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return p, nil
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}
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// recalc recalculates scale and bounds values from the font size, screen
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// resolution and font metrics, and invalidates the glyph cache.
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func (c *Context) recalc() {
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c.scale = fixed.Int26_6(c.fontSize * c.dpi * (64.0 / 72.0))
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if c.f == nil {
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c.r.SetBounds(0, 0)
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} else {
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// Set the rasterizer's bounds to be big enough to handle the largest glyph.
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b := c.f.Bounds(c.scale)
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xmin := +int(b.Min.X) >> 6
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ymin := -int(b.Max.Y) >> 6
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xmax := +int(b.Max.X+63) >> 6
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ymax := -int(b.Min.Y-63) >> 6
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c.r.SetBounds(xmax-xmin, ymax-ymin)
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}
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for i := range c.cache {
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c.cache[i] = cacheEntry{}
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}
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}
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// SetDPI sets the screen resolution in dots per inch.
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func (c *Context) SetDPI(dpi float64) {
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if c.dpi == dpi {
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return
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}
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c.dpi = dpi
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c.recalc()
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}
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// SetFont sets the font used to draw text.
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func (c *Context) SetFont(f *truetype.Font) {
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if c.f == f {
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return
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}
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c.f = f
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c.recalc()
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}
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// SetFontSize sets the font size in points (as in "a 12 point font").
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func (c *Context) SetFontSize(fontSize float64) {
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if c.fontSize == fontSize {
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return
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}
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c.fontSize = fontSize
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c.recalc()
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}
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// SetHinting sets the hinting policy.
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func (c *Context) SetHinting(hinting font.Hinting) {
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c.hinting = hinting
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for i := range c.cache {
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c.cache[i] = cacheEntry{}
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}
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}
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// SetDst sets the destination image for draw operations.
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func (c *Context) SetDst(dst draw.Image) {
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c.dst = dst
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}
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// SetSrc sets the source image for draw operations. This is typically an
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// image.Uniform.
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func (c *Context) SetSrc(src image.Image) {
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c.src = src
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}
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// SetClip sets the clip rectangle for drawing.
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func (c *Context) SetClip(clip image.Rectangle) {
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c.clip = clip
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}
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// TODO(nigeltao): implement Context.SetGamma.
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// NewContext creates a new Context.
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func NewContext() *Context {
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return &Context{
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r: raster.NewRasterizer(0, 0),
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fontSize: 12,
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dpi: 72,
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scale: 12 << 6,
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emojis: make(emoji.Table),
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}
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}
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// ScanEmojis scans a directory for emojis and adds them to the context's emoji repertoire
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func (c *Context) ScanEmojis(path string) (err error) {
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c.emojis, err = emoji.ScanEmojiDirectory(path)
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return
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}
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