From e8121e3c7d0c57e6ef016903585084e497b04745 Mon Sep 17 00:00:00 2001 From: Nigel Tao Date: Tue, 18 Aug 2015 16:33:14 +1000 Subject: [PATCH] Don't use backtick quotes in the comments. --- example/raster/main.go | 2 +- freetype.go | 4 ++-- raster/raster.go | 24 +++++++++++++++--------- truetype/glyph.go | 6 +++--- 4 files changed, 21 insertions(+), 15 deletions(-) diff --git a/example/raster/main.go b/example/raster/main.go index ebe6c36..f55a3c8 100644 --- a/example/raster/main.go +++ b/example/raster/main.go @@ -28,7 +28,7 @@ type node struct { x, y, degree int } -// These contours "outside" and "inside" are from the `A' glyph from the Droid +// These contours "outside" and "inside" are from the 'A' glyph from the Droid // Serif Regular font. var outside = []node{ diff --git a/freetype.go b/freetype.go index 221485f..032ccfe 100644 --- a/freetype.go +++ b/freetype.go @@ -84,7 +84,7 @@ type Context struct { cache [nGlyphs * nXFractions * nYFractions]cacheEntry } -// PointToFixed converts the given number of points (as in ``a 12 point font'') +// PointToFixed converts the given number of points (as in "a 12 point font") // into a 26.6 fixed point number of pixels. func (c *Context) PointToFixed(x float64) fixed.Int26_6 { return fixed.Int26_6(x * float64(c.dpi) * (64.0 / 72.0)) @@ -304,7 +304,7 @@ func (c *Context) SetFont(font *truetype.Font) { c.recalc() } -// SetFontSize sets the font size in points (as in ``a 12 point font''). +// SetFontSize sets the font size in points (as in "a 12 point font"). func (c *Context) SetFontSize(fontSize float64) { if c.fontSize == fontSize { return diff --git a/raster/raster.go b/raster/raster.go index a666cb4..5d01c23 100644 --- a/raster/raster.go +++ b/raster/raster.go @@ -304,7 +304,7 @@ func (r *Rasterizer) Add1(b fixed.Point26_6) { // Add2 adds a quadratic segment to the current curve. func (r *Rasterizer) Add2(b, c fixed.Point26_6) { // Calculate nSplit (the number of recursive decompositions) based on how - // `curvy' it is. Specifically, how much the middle point b deviates from + // 'curvy' it is. Specifically, how much the middle point b deviates from // (a+c)/2. dev := maxAbs(r.a.X-2*b.X+c.X, r.a.Y-2*b.Y+c.Y) / fixed.Int26_6(r.splitScale2) nsplit := 0 @@ -312,7 +312,8 @@ func (r *Rasterizer) Add2(b, c fixed.Point26_6) { dev /= 4 nsplit++ } - // dev is 32-bit, and nsplit++ every time we shift off 2 bits, so maxNsplit is 16. + // dev is 32-bit, and nsplit++ every time we shift off 2 bits, so maxNsplit + // is 16. const maxNsplit = 16 if nsplit > maxNsplit { panic("freetype/raster: Add2 nsplit too large: " + strconv.Itoa(nsplit)) @@ -331,8 +332,9 @@ func (r *Rasterizer) Add2(b, c fixed.Point26_6) { s := sStack[i] p := pStack[2*i:] if s > 0 { - // Split the quadratic curve p[:3] into an equivalent set of two shorter curves: - // p[:3] and p[2:5]. The new p[4] is the old p[2], and p[0] is unchanged. + // Split the quadratic curve p[:3] into an equivalent set of two + // shorter curves: p[:3] and p[2:5]. The new p[4] is the old p[2], + // and p[0] is unchanged. mx := p[1].X p[4].X = p[2].X p[3].X = (p[4].X + mx) / 2 @@ -348,7 +350,8 @@ func (r *Rasterizer) Add2(b, c fixed.Point26_6) { sStack[i+1] = s - 1 i++ } else { - // Replace the level-0 quadratic with a two-linear-piece approximation. + // Replace the level-0 quadratic with a two-linear-piece + // approximation. midx := (p[0].X + 2*p[1].X + p[2].X) / 4 midy := (p[0].Y + 2*p[1].Y + p[2].Y) / 4 r.Add1(fixed.Point26_6{midx, midy}) @@ -360,7 +363,8 @@ func (r *Rasterizer) Add2(b, c fixed.Point26_6) { // Add3 adds a cubic segment to the current curve. func (r *Rasterizer) Add3(b, c, d fixed.Point26_6) { - // Calculate nSplit (the number of recursive decompositions) based on how `curvy' it is. + // Calculate nSplit (the number of recursive decompositions) based on how + // 'curvy' it is. dev2 := maxAbs(r.a.X-3*(b.X+c.X)+d.X, r.a.Y-3*(b.Y+c.Y)+d.Y) / fixed.Int26_6(r.splitScale2) dev3 := maxAbs(r.a.X-2*b.X+d.X, r.a.Y-2*b.Y+d.Y) / fixed.Int26_6(r.splitScale3) nsplit := 0 @@ -369,7 +373,8 @@ func (r *Rasterizer) Add3(b, c, d fixed.Point26_6) { dev3 /= 4 nsplit++ } - // devN is 32-bit, and nsplit++ every time we shift off 2 bits, so maxNsplit is 16. + // devN is 32-bit, and nsplit++ every time we shift off 2 bits, so + // maxNsplit is 16. const maxNsplit = 16 if nsplit > maxNsplit { panic("freetype/raster: Add3 nsplit too large: " + strconv.Itoa(nsplit)) @@ -389,8 +394,9 @@ func (r *Rasterizer) Add3(b, c, d fixed.Point26_6) { s := sStack[i] p := pStack[3*i:] if s > 0 { - // Split the cubic curve p[:4] into an equivalent set of two shorter curves: - // p[:4] and p[3:7]. The new p[6] is the old p[3], and p[0] is unchanged. + // Split the cubic curve p[:4] into an equivalent set of two + // shorter curves: p[:4] and p[3:7]. The new p[6] is the old p[3], + // and p[0] is unchanged. m01x := (p[0].X + p[1].X) / 2 m12x := (p[1].X + p[2].X) / 2 m23x := (p[2].X + p[3].X) / 2 diff --git a/truetype/glyph.go b/truetype/glyph.go index 7fbc4ef..4735a66 100644 --- a/truetype/glyph.go +++ b/truetype/glyph.go @@ -21,11 +21,11 @@ const ( // TODO: implement VerticalHinting. ) -// A Point is a co-ordinate pair plus whether it is ``on'' a contour or an -// ``off'' control point. +// A Point is a co-ordinate pair plus whether it is 'on' a contour or an 'off' +// control point. type Point struct { X, Y fixed.Int26_6 - // The Flags' LSB means whether or not this Point is ``on'' the contour. + // The Flags' LSB means whether or not this Point is 'on' the contour. // Other bits are reserved for internal use. Flags uint32 }