// 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 (or // any later version), both of which can be found in the LICENSE file. // The freetype package provides a convenient API to draw text onto an image. // Use the freetype/raster and freetype/truetype packages for lower level // control over rasterization and TrueType parsing. package freetype import ( "freetype-go.googlecode.com/hg/freetype/raster" "freetype-go.googlecode.com/hg/freetype/truetype" "os" ) // ParseFont just calls the Parse function from the freetype/truetype package. // It is provided here so that code that imports this package doesn't need // to also include the freetype/truetype package. func ParseFont(b []byte) (*truetype.Font, os.Error) { return truetype.Parse(b) } // Pt converts from a co-ordinate pair measured in pixels to a raster.Point // co-ordinate pair measured in raster.Fix32 units. func Pt(x, y int) raster.Point { return raster.Point{raster.Fix32(x << 8), raster.Fix32(y << 8)} } // A Context holds the state for drawing text in a given font and size. type Context struct { r *raster.Rasterizer font *truetype.Font glyphBuf *truetype.GlyphBuf fontSize float dpi int upe int // A TrueType's glyph's nodes can have negative co-ordinates, but the // rasterizer clips anything left of x=0 or above y=0. xmin and ymin // are the pixel offsets, based on the font's FUnit metrics, that let // a negative co-ordinate in TrueType space be non-negative in // rasterizer space. xmin and ymin are typically <= 0. xmin, ymin int // scale is a multiplication factor to convert 256 FUnits (which is truetype's // native unit) to 24.8 fixed point units (which is the rasterizer's native unit). // At the default values of 72 DPI and 2048 units-per-em, one em of a 12 point // font is 12 pixels, which is 3072 fixed point units, and scale is // (pointSize * resolution * 256 * 256) / (unitsPerEm * 72), or // (12 * 72 * 256 * 256) / (2048 * 72), // which equals 384 fixed point units per 256 FUnits. // To check this, 1 em * 2048 FUnits per em * 384 fixed point units per 256 FUnits // equals 3072 fixed point units. scale int } // FUnitToFix32 converts the given number of FUnits into fixed point units, // rounding to nearest. func (c *Context) FUnitToFix32(x int) raster.Fix32 { return raster.Fix32((x*c.scale + 128) >> 8) } // FUnitToPixelRD converts the given number of FUnits into pixel units, // rounding down. func (c *Context) FUnitToPixelRD(x int) int { return x * c.scale >> 16 } // FUnitToPixelRU converts the given number of FUnits into pixel units, // rounding up. func (c *Context) FUnitToPixelRU(x int) int { return (x*c.scale + 0xffff) >> 16 } // PointToFix32 converts the given number of points (as in ``a 12 point font'') // into fixed point units. func (c *Context) PointToFix32(x float) raster.Fix32 { return raster.Fix32(x * float(c.dpi) * (256.0 / 72.0)) } // drawContour draws the given closed contour with the given offset. func (c *Context) drawContour(ps []truetype.Point, dx, dy raster.Fix32) { if len(ps) == 0 { return } // ps[0] is a truetype.Point measured in FUnits and positive Y going upwards. // start is the same thing measured in fixed point units and positive Y // going downwards, and offset by (dx, dy) start := raster.Point{ dx + c.FUnitToFix32(int(ps[0].X)), dy + c.FUnitToFix32(-int(ps[0].Y)), } c.r.Start(start) q0, on0 := start, true for _, p := range ps[1:] { q := raster.Point{ dx + c.FUnitToFix32(int(p.X)), dy + c.FUnitToFix32(-int(p.Y)), } on := p.Flags&0x01 != 0 if on { if on0 { c.r.Add1(q) } else { c.r.Add2(q0, q) } } else { if on0 { // No-op. } else { mid := raster.Point{ (q0.X + q.X) / 2, (q0.Y + q.Y) / 2, } c.r.Add2(q0, mid) } } q0, on0 = q, on } // Close the curve. if on0 { c.r.Add1(start) } else { c.r.Add2(q0, start) } } // DrawText draws s at pt using p. The text is placed so that the left edge of // the em square of the first character of s and the baseline intersect at pt. // The majority of the affected pixels will be above and to the right of pt, // but some may be below or to the left. For example, drawing a string that // starts with a 'J' in an italic font may affect pixels below and left of pt. // pt is a raster.Point and can therefore represent sub-pixel positions. func (c *Context) DrawText(p raster.Painter, pt raster.Point, s string) (err os.Error) { if c.font == nil { return os.NewError("freetype: DrawText called with a nil font") } // pt.X, pt.Y, x, y, dx, dy and x0 are measured in raster.Fix32 units, // c.r.Dx, c.r.Dy, c.xmin and c.ymin are measured in pixels, and // advance is measured in FUnits. var x, y raster.Fix32 advance, x0 := 0, pt.X dx := raster.Fix32(-c.xmin << 8) dy := raster.Fix32(-c.ymin << 8) c.r.Dy, y = c.ymin+int(pt.Y>>8), pt.Y&0xff y += dy prev, hasPrev := truetype.Index(0), false for _, ch := range s { index := c.font.Index(ch) // Load the next glyph (if it was different from the previous one) // and add any kerning adjustment. if hasPrev { advance += int(c.font.Kerning(prev, index)) if prev != index { err = c.glyphBuf.Load(c.font, index) if err != nil { return } } } else { err = c.glyphBuf.Load(c.font, index) if err != nil { return } } // Convert the advance from FUnits to raster.Fix32 units. x = x0 + c.FUnitToFix32(advance) // Break the co-ordinate down into an integer pixel part and a // sub-pixel part, making sure that the latter is non-negative. c.r.Dx, x = c.xmin+int(x>>8), x&0xff x += dx // Draw the contours. c.r.Clear() e0 := 0 for _, e := range c.glyphBuf.End { c.drawContour(c.glyphBuf.Point[e0:e], x, y) e0 = e } c.r.Rasterize(p) // Advance the cursor. advance += int(c.font.HMetric(index).AdvanceWidth) prev, hasPrev = index, true } return } // recalc recalculates scale and bounds values from the font size, screen // resolution and font metrics. func (c *Context) recalc() { c.scale = int((c.fontSize * float(c.dpi) * 256 * 256) / (float(c.upe) * 72)) if c.font == nil { c.xmin, c.ymin = 0, 0 } else { b := c.font.Bounds() c.xmin = c.FUnitToPixelRD(int(b.XMin)) c.ymin = c.FUnitToPixelRD(-int(b.YMax)) xmax := c.FUnitToPixelRU(int(b.XMax)) ymax := c.FUnitToPixelRU(-int(b.YMin)) c.r.SetBounds(xmax-c.xmin, ymax-c.ymin) } } // SetDPI sets the screen resolution in dots per inch. func (c *Context) SetDPI(dpi int) { c.dpi = dpi c.recalc() } // SetFont sets the font used to draw text. func (c *Context) SetFont(font *truetype.Font) { c.font = font c.upe = font.UnitsPerEm() if c.upe <= 0 { c.upe = 1 } c.recalc() } // SetFontSize sets the font size in points (as in ``a 12 point font''). func (c *Context) SetFontSize(fontSize float) { c.fontSize = fontSize c.recalc() } // NewContext creates a new Context. func NewContext() *Context { return &Context{ r: raster.NewRasterizer(0, 0), glyphBuf: truetype.NewGlyphBuf(), fontSize: 12, dpi: 72, upe: 2048, scale: (12 * 72 * 256 * 256) / (2048 * 72), } }