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OpenBoard/thirdparty/xpdf/xpdf-3.02/splash/SplashFTFont.cc

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//========================================================================
//
// SplashFTFont.cc
//
//========================================================================
#include <aconf.h>
#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H
#ifdef USE_GCC_PRAGMAS
#pragma implementation
#endif
#include <ft2build.h>
#include FT_OUTLINE_H
#include FT_SIZES_H
#include FT_GLYPH_H
#include "gmem.h"
#include "SplashMath.h"
#include "SplashGlyphBitmap.h"
#include "SplashPath.h"
#include "SplashFTFontEngine.h"
#include "SplashFTFontFile.h"
#include "SplashFTFont.h"
//------------------------------------------------------------------------
static int glyphPathMoveTo(const FT_Vector *pt, void *path);
static int glyphPathLineTo(const FT_Vector *pt, void *path);
static int glyphPathConicTo(const FT_Vector *ctrl, const FT_Vector *pt,
void *path);
static int glyphPathCubicTo(const FT_Vector *ctrl1, const FT_Vector *ctrl2,
const FT_Vector *pt, void *path);
//------------------------------------------------------------------------
// SplashFTFont
//------------------------------------------------------------------------
SplashFTFont::SplashFTFont(SplashFTFontFile *fontFileA, SplashCoord *matA,
SplashCoord *textMatA):
SplashFont(fontFileA, matA, textMatA, fontFileA->engine->aa)
{
FT_Face face;
SplashCoord size, div;
int x, y;
face = fontFileA->face;
if (FT_New_Size(face, &sizeObj)) {
return;
}
face->size = sizeObj;
size = splashSqrt(mat[2]*mat[2] + mat[3]*mat[3]);
if (FT_Set_Pixel_Sizes(face, 0, (int)size)) {
return;
}
// if the textMat values are too small, FreeType's fixed point
// arithmetic doesn't work so well
textScale = splashSqrt(textMat[2]*textMat[2] + textMat[3]*textMat[3]) / size;
div = face->bbox.xMax > 20000 ? 65536 : 1;
// transform the four corners of the font bounding box -- the min
// and max values form the bounding box of the transformed font
x = (int)((mat[0] * face->bbox.xMin + mat[2] * face->bbox.yMin) /
(div * face->units_per_EM));
xMin = xMax = x;
y = (int)((mat[1] * face->bbox.xMin + mat[3] * face->bbox.yMin) /
(div * face->units_per_EM));
yMin = yMax = y;
x = (int)((mat[0] * face->bbox.xMin + mat[2] * face->bbox.yMax) /
(div * face->units_per_EM));
if (x < xMin) {
xMin = x;
} else if (x > xMax) {
xMax = x;
}
y = (int)((mat[1] * face->bbox.xMin + mat[3] * face->bbox.yMax) /
(div * face->units_per_EM));
if (y < yMin) {
yMin = y;
} else if (y > yMax) {
yMax = y;
}
x = (int)((mat[0] * face->bbox.xMax + mat[2] * face->bbox.yMin) /
(div * face->units_per_EM));
if (x < xMin) {
xMin = x;
} else if (x > xMax) {
xMax = x;
}
y = (int)((mat[1] * face->bbox.xMax + mat[3] * face->bbox.yMin) /
(div * face->units_per_EM));
if (y < yMin) {
yMin = y;
} else if (y > yMax) {
yMax = y;
}
x = (int)((mat[0] * face->bbox.xMax + mat[2] * face->bbox.yMax) /
(div * face->units_per_EM));
if (x < xMin) {
xMin = x;
} else if (x > xMax) {
xMax = x;
}
y = (int)((mat[1] * face->bbox.xMax + mat[3] * face->bbox.yMax) /
(div * face->units_per_EM));
if (y < yMin) {
yMin = y;
} else if (y > yMax) {
yMax = y;
}
// This is a kludge: some buggy PDF generators embed fonts with
// zero bounding boxes.
if (xMax == xMin) {
xMin = 0;
xMax = (int)size;
}
if (yMax == yMin) {
yMin = 0;
yMax = (int)((SplashCoord)1.2 * size);
}
// compute the transform matrix
#if USE_FIXEDPOINT
matrix.xx = (FT_Fixed)((mat[0] / size).getRaw());
matrix.yx = (FT_Fixed)((mat[1] / size).getRaw());
matrix.xy = (FT_Fixed)((mat[2] / size).getRaw());
matrix.yy = (FT_Fixed)((mat[3] / size).getRaw());
textMatrix.xx = (FT_Fixed)((textMat[0] / (size * textScale)).getRaw());
textMatrix.yx = (FT_Fixed)((textMat[1] / (size * textScale)).getRaw());
textMatrix.xy = (FT_Fixed)((textMat[2] / (size * textScale)).getRaw());
textMatrix.yy = (FT_Fixed)((textMat[3] / (size * textScale)).getRaw());
#else
matrix.xx = (FT_Fixed)((mat[0] / size) * 65536);
matrix.yx = (FT_Fixed)((mat[1] / size) * 65536);
matrix.xy = (FT_Fixed)((mat[2] / size) * 65536);
matrix.yy = (FT_Fixed)((mat[3] / size) * 65536);
textMatrix.xx = (FT_Fixed)((textMat[0] / (size * textScale)) * 65536);
textMatrix.yx = (FT_Fixed)((textMat[1] / (size * textScale)) * 65536);
textMatrix.xy = (FT_Fixed)((textMat[2] / (size * textScale)) * 65536);
textMatrix.yy = (FT_Fixed)((textMat[3] / (size * textScale)) * 65536);
#endif
}
SplashFTFont::~SplashFTFont() {
}
GBool SplashFTFont::getGlyph(int c, int xFrac, int yFrac,
SplashGlyphBitmap *bitmap) {
return SplashFont::getGlyph(c, xFrac, 0, bitmap);
}
GBool SplashFTFont::makeGlyph(int c, int xFrac, int yFrac,
SplashGlyphBitmap *bitmap) {
SplashFTFontFile *ff;
FT_Vector offset;
FT_GlyphSlot slot;
FT_UInt gid;
int rowSize;
Guchar *p, *q;
int i;
ff = (SplashFTFontFile *)fontFile;
ff->face->size = sizeObj;
offset.x = (FT_Pos)(int)((SplashCoord)xFrac * splashFontFractionMul * 64);
offset.y = 0;
FT_Set_Transform(ff->face, &matrix, &offset);
slot = ff->face->glyph;
if (ff->codeToGID && c < ff->codeToGIDLen) {
gid = (FT_UInt)ff->codeToGID[c];
} else {
gid = (FT_UInt)c;
}
if (ff->trueType && gid == 0) {
// skip the TrueType notdef glyph
return gFalse;
}
// if we have the FT2 bytecode interpreter, autohinting won't be used
#ifdef TT_CONFIG_OPTION_BYTECODE_INTERPRETER
if (FT_Load_Glyph(ff->face, gid,
aa ? FT_LOAD_NO_BITMAP : FT_LOAD_DEFAULT)) {
return gFalse;
}
#else
// FT2's autohinting doesn't always work very well (especially with
// font subsets), so turn it off if anti-aliasing is enabled; if
// anti-aliasing is disabled, this seems to be a tossup - some fonts
// look better with hinting, some without, so leave hinting on
if (FT_Load_Glyph(ff->face, gid,
aa ? FT_LOAD_NO_HINTING | FT_LOAD_NO_BITMAP
: FT_LOAD_DEFAULT)) {
return gFalse;
}
#endif
if (FT_Render_Glyph(slot, aa ? ft_render_mode_normal
: ft_render_mode_mono)) {
return gFalse;
}
bitmap->x = -slot->bitmap_left;
bitmap->y = slot->bitmap_top;
bitmap->w = slot->bitmap.width;
bitmap->h = slot->bitmap.rows;
bitmap->aa = aa;
if (aa) {
rowSize = bitmap->w;
} else {
rowSize = (bitmap->w + 7) >> 3;
}
bitmap->data = (Guchar *)gmalloc(rowSize * bitmap->h);
bitmap->freeData = gTrue;
for (i = 0, p = bitmap->data, q = slot->bitmap.buffer;
i < bitmap->h;
++i, p += rowSize, q += slot->bitmap.pitch) {
memcpy(p, q, rowSize);
}
return gTrue;
}
struct SplashFTFontPath {
SplashPath *path;
SplashCoord textScale;
GBool needClose;
};
SplashPath *SplashFTFont::getGlyphPath(int c) {
static FT_Outline_Funcs outlineFuncs = {
#if FREETYPE_MINOR <= 1
(int (*)(FT_Vector *, void *))&glyphPathMoveTo,
(int (*)(FT_Vector *, void *))&glyphPathLineTo,
(int (*)(FT_Vector *, FT_Vector *, void *))&glyphPathConicTo,
(int (*)(FT_Vector *, FT_Vector *, FT_Vector *, void *))&glyphPathCubicTo,
#else
&glyphPathMoveTo,
&glyphPathLineTo,
&glyphPathConicTo,
&glyphPathCubicTo,
#endif
0, 0
};
SplashFTFontFile *ff;
SplashFTFontPath path;
FT_GlyphSlot slot;
FT_UInt gid;
FT_Glyph glyph;
ff = (SplashFTFontFile *)fontFile;
ff->face->size = sizeObj;
FT_Set_Transform(ff->face, &textMatrix, NULL);
slot = ff->face->glyph;
if (ff->codeToGID && c < ff->codeToGIDLen) {
gid = ff->codeToGID[c];
} else {
gid = (FT_UInt)c;
}
if (ff->trueType && gid == 0) {
// skip the TrueType notdef glyph
return NULL;
}
if (FT_Load_Glyph(ff->face, gid, FT_LOAD_NO_BITMAP)) {
return NULL;
}
if (FT_Get_Glyph(slot, &glyph)) {
return NULL;
}
path.path = new SplashPath();
path.textScale = textScale;
path.needClose = gFalse;
FT_Outline_Decompose(&((FT_OutlineGlyph)glyph)->outline,
&outlineFuncs, &path);
if (path.needClose) {
path.path->close();
}
FT_Done_Glyph(glyph);
return path.path;
}
static int glyphPathMoveTo(const FT_Vector *pt, void *path) {
SplashFTFontPath *p = (SplashFTFontPath *)path;
if (p->needClose) {
p->path->close();
p->needClose = gFalse;
}
p->path->moveTo((SplashCoord)pt->x * p->textScale / 64.0,
(SplashCoord)pt->y * p->textScale / 64.0);
return 0;
}
static int glyphPathLineTo(const FT_Vector *pt, void *path) {
SplashFTFontPath *p = (SplashFTFontPath *)path;
p->path->lineTo((SplashCoord)pt->x * p->textScale / 64.0,
(SplashCoord)pt->y * p->textScale / 64.0);
p->needClose = gTrue;
return 0;
}
static int glyphPathConicTo(const FT_Vector *ctrl, const FT_Vector *pt,
void *path) {
SplashFTFontPath *p = (SplashFTFontPath *)path;
SplashCoord x0, y0, x1, y1, x2, y2, x3, y3, xc, yc;
if (!p->path->getCurPt(&x0, &y0)) {
return 0;
}
xc = (SplashCoord)ctrl->x * p->textScale / 64.0;
yc = (SplashCoord)ctrl->y * p->textScale / 64.0;
x3 = (SplashCoord)pt->x * p->textScale / 64.0;
y3 = (SplashCoord)pt->y * p->textScale / 64.0;
// A second-order Bezier curve is defined by two endpoints, p0 and
// p3, and one control point, pc:
//
// p(t) = (1-t)^2*p0 + t*(1-t)*pc + t^2*p3
//
// A third-order Bezier curve is defined by the same two endpoints,
// p0 and p3, and two control points, p1 and p2:
//
// p(t) = (1-t)^3*p0 + 3t*(1-t)^2*p1 + 3t^2*(1-t)*p2 + t^3*p3
//
// Applying some algebra, we can convert a second-order curve to a
// third-order curve:
//
// p1 = (1/3) * (p0 + 2pc)
// p2 = (1/3) * (2pc + p3)
x1 = (SplashCoord)(1.0 / 3.0) * (x0 + (SplashCoord)2 * xc);
y1 = (SplashCoord)(1.0 / 3.0) * (y0 + (SplashCoord)2 * yc);
x2 = (SplashCoord)(1.0 / 3.0) * ((SplashCoord)2 * xc + x3);
y2 = (SplashCoord)(1.0 / 3.0) * ((SplashCoord)2 * yc + y3);
p->path->curveTo(x1, y1, x2, y2, x3, y3);
p->needClose = gTrue;
return 0;
}
static int glyphPathCubicTo(const FT_Vector *ctrl1, const FT_Vector *ctrl2,
const FT_Vector *pt, void *path) {
SplashFTFontPath *p = (SplashFTFontPath *)path;
p->path->curveTo((SplashCoord)ctrl1->x * p->textScale / 64.0,
(SplashCoord)ctrl1->y * p->textScale / 64.0,
(SplashCoord)ctrl2->x * p->textScale / 64.0,
(SplashCoord)ctrl2->y * p->textScale / 64.0,
(SplashCoord)pt->x * p->textScale / 64.0,
(SplashCoord)pt->y * p->textScale / 64.0);
p->needClose = gTrue;
return 0;
}
#endif // HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H