// Copyright 2010 The Freetype-Go Authors. All rights reserved. // Use of this source code is governed by your choice of either the // FreeType License or the GNU General Public License version 2, // both of which can be found in the LICENSE file. package raster import ( "exp/draw" "image" "math" ) // A Span is a horizontal segment of pixels with constant alpha. X0 is an // inclusive bound and X1 is exclusive, the same as for slices. A fully // opaque Span has A == 1<<32 - 1. type Span struct { Y, X0, X1 int A uint32 } // A Painter knows how to paint a batch of Spans. Rasterization may involve // Painting multiple batches, and done will be true for the final batch. // The Spans' Y values are monotonically increasing during a rasterization. // Paint may use all of ss as scratch space during the call. type Painter interface { Paint(ss []Span, done bool) } // The PainterFunc type adapts an ordinary function to the Painter interface. type PainterFunc func(ss []Span, done bool) // Paint just delegates the call to f. func (f PainterFunc) Paint(ss []Span, done bool) { f(ss, done) } // An AlphaPainter is a Painter that paints Spans onto an image.Alpha. type AlphaPainter struct { // The image to compose onto. Image *image.Alpha // The Porter-Duff composition operator. Op draw.Op // An offset (in pixels) to the painted spans. Dx, Dy int } // Paint satisfies the Painter interface by painting ss onto an image.Alpha. func (r *AlphaPainter) Paint(ss []Span, done bool) { for _, s := range ss { y := r.Dy + s.Y if y < 0 { continue } if y >= len(r.Image.Pixel) { return } p := r.Image.Pixel[y] x0, x1 := r.Dx+s.X0, r.Dx+s.X1 if x0 < 0 { x0 = 0 } if x1 > len(p) { x1 = len(p) } if r.Op == draw.Over { a := int(s.A >> 24) for x := x0; x < x1; x++ { ax := int(p[x].A) ax = (ax*255 + (255-ax)*a) / 255 p[x] = image.AlphaColor{uint8(ax)} } } else { color := image.AlphaColor{uint8(s.A >> 24)} for x := x0; x < x1; x++ { p[x] = color } } } } // NewAlphaPainter creates a new AlphaPainter for the given image. func NewAlphaPainter(m *image.Alpha) *AlphaPainter { return &AlphaPainter{Image: m} } type RGBAPainter struct { // The image to compose onto. Image *image.RGBA // The Porter-Duff composition operator. Op draw.Op // An offset (in pixels) to the painted spans. Dx, Dy int // The 16-bit color to paint the spans. cr, cg, cb, ca uint32 } // Paint satisfies the Painter interface by painting ss onto an image.RGBA. func (r *RGBAPainter) Paint(ss []Span, done bool) { for _, s := range ss { y := r.Dy + s.Y if y < 0 { continue } if y >= len(r.Image.Pixel) { return } p := r.Image.Pixel[y] x0, x1 := r.Dx+s.X0, r.Dx+s.X1 if x0 < 0 { x0 = 0 } if x1 > len(p) { x1 = len(p) } for x := x0; x < x1; x++ { // This code is duplicated from drawGlyphOver in $GOROOT/src/pkg/exp/draw/draw.go. // TODO(nigeltao): Factor out common code into a utility function, once the compiler // can inline such function calls. ma := s.A >> 16 const M = 1<<16 - 1 if r.Op == draw.Over { rgba := p[x] dr := uint32(rgba.R) dg := uint32(rgba.G) db := uint32(rgba.B) da := uint32(rgba.A) a := M - (r.ca * ma / M) a *= 0x101 dr = (dr*a + r.cr*ma) / M dg = (dg*a + r.cg*ma) / M db = (db*a + r.cb*ma) / M da = (da*a + r.ca*ma) / M p[x] = image.RGBAColor{uint8(dr >> 8), uint8(dg >> 8), uint8(db >> 8), uint8(da >> 8)} } else { dr := r.cr * ma / M dg := r.cg * ma / M db := r.cb * ma / M da := r.ca * ma / M p[x] = image.RGBAColor{uint8(dr >> 8), uint8(dg >> 8), uint8(db >> 8), uint8(da >> 8)} } } } } // SetColor sets the color to paint the spans. func (r *RGBAPainter) SetColor(c image.Color) { r.cr, r.cg, r.cb, r.ca = c.RGBA() r.cr >>= 16 r.cg >>= 16 r.cb >>= 16 r.ca >>= 16 } // NewRGBAPainter creates a new RGBAPainter for the given image. func NewRGBAPainter(m *image.RGBA) *RGBAPainter { return &RGBAPainter{Image: m} } // A MonochromePainter wraps another Painter, quantizing each Span's alpha to // be either fully opaque or fully transparent. type MonochromePainter struct { Painter Painter y, x0, x1 int } // Paint delegates to the wrapped Painter after quantizing each Span's alpha // value and merging adjacent fully opaque Spans. func (m *MonochromePainter) Paint(ss []Span, done bool) { // We compact the ss slice, discarding any Spans whose alpha quantizes to zero. j := 0 for _, s := range ss { if s.A >= 1<<31 { if m.y == s.Y && m.x1 == s.X0 { m.x1 = s.X1 } else { ss[j] = Span{m.y, m.x0, m.x1, 1<<32 - 1} j++ m.y, m.x0, m.x1 = s.Y, s.X0, s.X1 } } } if done { // Flush the accumulated Span. finalSpan := Span{m.y, m.x0, m.x1, 1<<32 - 1} if j < len(ss) { ss[j] = finalSpan j++ m.Painter.Paint(ss[0:j], true) } else if j == len(ss) { m.Painter.Paint(ss, false) if cap(ss) > 0 { ss = ss[0:1] } else { ss = make([]Span, 1) } ss[0] = finalSpan m.Painter.Paint(ss, true) } else { panic("unreachable") } // Reset the accumulator, so that this Painter can be re-used. m.y, m.x0, m.x1 = 0, 0, 0 } else { m.Painter.Paint(ss[0:j], false) } } // NewMonochromePainter creates a new MonochromePainter that wraps the given // Painter. func NewMonochromePainter(p Painter) *MonochromePainter { return &MonochromePainter{Painter: p} } // A GammaCorrectionPainter wraps another Painter, performing gamma-correction // on each Span's alpha value. type GammaCorrectionPainter struct { // The wrapped Painter. Painter Painter // Precomputed alpha values for linear interpolation, with fully opaque == 1<<16-1. a [256]uint16 // Whether gamma correction is a no-op. gammaIsOne bool } // Paint delegates to the wrapped Painter after performing gamma-correction // on each Span. func (g *GammaCorrectionPainter) Paint(ss []Span, done bool) { if !g.gammaIsOne { const ( M = 0x1010101 // 255*M == 1<<32-1 N = 0x8080 // N = M>>9, and N < 1<<16-1 ) for i, _ := range ss { if ss[i].A == 0 || ss[i].A == 1<<32-1 { continue } p, q := ss[i].A/M, (ss[i].A%M)>>9 // The resultant alpha is a linear interpolation of g.a[p] and g.a[p+1]. a := uint32(g.a[p])*(N-q) + uint32(g.a[p+1])*q a = (a + N/2) / N // Convert the alpha from 16-bit (which is g.a's range) to 32-bit. a |= a << 16 ss[i].A = a } } g.Painter.Paint(ss, done) } // SetGamma sets the gamma value. func (g *GammaCorrectionPainter) SetGamma(gamma float) { if gamma == 1.0 { g.gammaIsOne = true return } g.gammaIsOne = false gamma64 := float64(gamma) for i := 0; i < 256; i++ { a := float64(i) / 0xff a = math.Pow(a, gamma64) g.a[i] = uint16(0xffff * a) } } // NewGammaCorrectionPainter creates a new GammaCorrectionPainter that wraps // the given Painter. func NewGammaCorrectionPainter(p Painter, gamma float) *GammaCorrectionPainter { g := &GammaCorrectionPainter{Painter: p} g.SetGamma(gamma) return g }