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/* GRAPHITE2 LICENSING
Copyright 2012, SIL International
All rights reserved.
This library is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published
by the Free Software Foundation; either version 2.1 of License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should also have received a copy of the GNU Lesser General Public
License along with this library in the file named "LICENSE".
If not, write to the Free Software Foundation, 51 Franklin Street,
Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
internet at http://www.fsf.org/licenses/lgpl.html.
Alternatively, the contents of this file may be used under the terms of the
Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
#include "graphite2/Font.h"
#include "inc/Main.h"
#include "inc/Face.h" //for the tags
#include "inc/GlyphCache.h"
#include "inc/GlyphFace.h"
#include "inc/Endian.h"
#include "inc/bits.h"
using namespace graphite2;
namespace
{
// Iterator over version 1 or 2 glat entries which consist of a series of
// +-+-+-+-+-+-+-+-+-+-+ +-+-+-+-+-+-+-+-+-+-+-+-+
// v1 |k|n|v1 |v2 |...|vN | or v2 | k | n |v1 |v2 |...|vN |
// +-+-+-+-+-+-+-+-+-+-+ +-+-+-+-+-+-+-+-+-+-+-+-+
// variable length structures.
template<typename W>
class _glat_iterator : public std::iterator<std::input_iterator_tag, std::pair<sparse::key_type, sparse::mapped_type> >
{
unsigned short key() const { return be::peek<W>(_e) + _n; }
unsigned int run() const { return be::peek<W>(_e+sizeof(W)); }
void advance_entry() { _n = 0; _e = _v; be::skip<W>(_v,2); }
public:
_glat_iterator(const void * glat=0) : _e(reinterpret_cast<const byte *>(glat)), _v(_e+2*sizeof(W)), _n(0) {}
_glat_iterator<W> & operator ++ () {
++_n; be::skip<uint16>(_v);
if (_n == run()) advance_entry();
return *this;
}
_glat_iterator<W> operator ++ (int) { _glat_iterator<W> tmp(*this); operator++(); return tmp; }
// This is strictly a >= operator. A true == operator could be
// implemented that test for overlap but it would be more expensive a
// test.
bool operator == (const _glat_iterator<W> & rhs) { return _v >= rhs._e - 1; }
bool operator != (const _glat_iterator<W> & rhs) { return !operator==(rhs); }
value_type operator * () const {
return value_type(key(), be::peek<uint16>(_v));
}
protected:
const byte * _e, * _v;
size_t _n;
};
typedef _glat_iterator<uint8> glat_iterator;
typedef _glat_iterator<uint16> glat2_iterator;
}
const SlantBox SlantBox::empty = {0,0,0,0};
class GlyphCache::Loader
{
public:
Loader(const Face & face, const bool dumb_font); //return result indicates success. Do not use if failed.
operator bool () const throw();
unsigned short int units_per_em() const throw();
unsigned short int num_glyphs() const throw();
unsigned short int num_attrs() const throw();
bool has_boxes() const throw();
const GlyphFace * read_glyph(unsigned short gid, GlyphFace &, int *numsubs) const throw();
GlyphBox * read_box(uint16 gid, GlyphBox *curr, const GlyphFace & face) const throw();
CLASS_NEW_DELETE;
private:
Face::Table _head,
_hhea,
_hmtx,
_glyf,
_loca,
m_pGlat,
m_pGloc;
bool _long_fmt;
bool _has_boxes;
unsigned short _num_glyphs_graphics, //i.e. boundary box and advance
_num_glyphs_attributes,
_num_attrs; // number of glyph attributes per glyph
};
GlyphCache::GlyphCache(const Face & face, const uint32 face_options)
: _glyph_loader(new Loader(face, bool(face_options & gr_face_dumbRendering))),
_glyphs(_glyph_loader && *_glyph_loader && _glyph_loader->num_glyphs()
? grzeroalloc<const GlyphFace *>(_glyph_loader->num_glyphs()) : 0),
_boxes(_glyph_loader && _glyph_loader->has_boxes() && _glyph_loader->num_glyphs()
? grzeroalloc<GlyphBox *>(_glyph_loader->num_glyphs()) : 0),
_num_glyphs(_glyphs ? _glyph_loader->num_glyphs() : 0),
_num_attrs(_glyphs ? _glyph_loader->num_attrs() : 0),
_upem(_glyphs ? _glyph_loader->units_per_em() : 0)
{
if ((face_options & gr_face_preloadGlyphs) && _glyph_loader && _glyphs)
{
int numsubs = 0;
GlyphFace * const glyphs = new GlyphFace [_num_glyphs];
if (!glyphs)
return;
// The 0 glyph is definately required.
_glyphs[0] = _glyph_loader->read_glyph(0, glyphs[0], &numsubs);
// glyphs[0] has the same address as the glyphs array just allocated,
// thus assigning the &glyphs[0] to _glyphs[0] means _glyphs[0] points
// to the entire array.
const GlyphFace * loaded = _glyphs[0];
for (uint16 gid = 1; loaded && gid != _num_glyphs; ++gid)
_glyphs[gid] = loaded = _glyph_loader->read_glyph(gid, glyphs[gid], &numsubs);
if (!loaded)
{
_glyphs[0] = 0;
delete [] glyphs;
}
else if (numsubs > 0 && _boxes)
{
GlyphBox * boxes = (GlyphBox *)gralloc<char>(_num_glyphs * sizeof(GlyphBox) + numsubs * 8 * sizeof(float));
GlyphBox * currbox = boxes;
for (uint16 gid = 0; currbox && gid != _num_glyphs; ++gid)
{
_boxes[gid] = currbox;
currbox = _glyph_loader->read_box(gid, currbox, *_glyphs[gid]);
}
if (!currbox)
{
free(boxes);
_boxes[0] = 0;
}
}
delete _glyph_loader;
_glyph_loader = 0;
}
if (_glyphs && glyph(0) == 0)
{
free(_glyphs);
_glyphs = 0;
if (_boxes)
{
free(_boxes);
_boxes = 0;
}
_num_glyphs = _num_attrs = _upem = 0;
}
}
GlyphCache::~GlyphCache()
{
if (_glyphs)
{
if (_glyph_loader)
{
const GlyphFace * * g = _glyphs;
for(unsigned short n = _num_glyphs; n; --n, ++g)
delete *g;
}
else
delete [] _glyphs[0];
free(_glyphs);
}
if (_boxes)
{
if (_glyph_loader)
{
GlyphBox * * g = _boxes;
for (uint16 n = _num_glyphs; n; --n, ++g)
free(*g);
}
else
free(_boxes[0]);
free(_boxes);
}
delete _glyph_loader;
}
const GlyphFace *GlyphCache::glyph(unsigned short glyphid) const //result may be changed by subsequent call with a different glyphid
{
if (glyphid >= numGlyphs())
return _glyphs[0];
const GlyphFace * & p = _glyphs[glyphid];
if (p == 0 && _glyph_loader)
{
int numsubs = 0;
GlyphFace * g = new GlyphFace();
if (g) p = _glyph_loader->read_glyph(glyphid, *g, &numsubs);
if (!p)
{
delete g;
return *_glyphs;
}
if (_boxes)
{
_boxes[glyphid] = (GlyphBox *)gralloc<char>(sizeof(GlyphBox) + 8 * numsubs * sizeof(float));
if (!_glyph_loader->read_box(glyphid, _boxes[glyphid], *_glyphs[glyphid]))
{
free(_boxes[glyphid]);
_boxes[glyphid] = 0;
}
}
}
return p;
}
GlyphCache::Loader::Loader(const Face & face, const bool dumb_font)
: _head(face, Tag::head),
_hhea(face, Tag::hhea),
_hmtx(face, Tag::hmtx),
_glyf(face, Tag::glyf),
_loca(face, Tag::loca),
_long_fmt(false),
_has_boxes(false),
_num_glyphs_graphics(0),
_num_glyphs_attributes(0),
_num_attrs(0)
{
if (!operator bool())
return;
const Face::Table maxp = Face::Table(face, Tag::maxp);
if (!maxp) { _head = Face::Table(); return; }
_num_glyphs_graphics = TtfUtil::GlyphCount(maxp);
// This will fail if the number of glyphs is wildly out of range.
if (_glyf && TtfUtil::LocaLookup(_num_glyphs_graphics-1, _loca, _loca.size(), _head) == size_t(-2))
{
_head = Face::Table();
return;
}
if (!dumb_font)
{
if ((m_pGlat = Face::Table(face, Tag::Glat, 0x00030000)) == NULL
|| (m_pGloc = Face::Table(face, Tag::Gloc)) == NULL
|| m_pGloc.size() < 8)
{
_head = Face::Table();
return;
}
const byte * p = m_pGloc;
int version = be::read<uint32>(p);
const uint16 flags = be::read<uint16>(p);
_num_attrs = be::read<uint16>(p);
// We can accurately calculate the number of attributed glyphs by
// subtracting the length of the attribids array (numAttribs long if present)
// and dividing by either 2 or 4 depending on shor or lonf format
_long_fmt = flags & 1;
int tmpnumgattrs = (m_pGloc.size()
- (p - m_pGloc)
- sizeof(uint16)*(flags & 0x2 ? _num_attrs : 0))
/ (_long_fmt ? sizeof(uint32) : sizeof(uint16)) - 1;
if (version >= 0x00020000 || tmpnumgattrs < 0 || tmpnumgattrs > 65535
|| _num_attrs == 0 || _num_attrs > 0x3000 // is this hard limit appropriate?
|| _num_glyphs_graphics > tmpnumgattrs
|| m_pGlat.size() < 4)
{
_head = Face::Table();
return;
}
_num_glyphs_attributes = static_cast<unsigned short>(tmpnumgattrs);
p = m_pGlat;
version = be::read<uint32>(p);
if (version >= 0x00040000 || (version >= 0x00030000 && m_pGlat.size() < 8)) // reject Glat tables that are too new
{
_head = Face::Table();
return;
}
else if (version >= 0x00030000)
{
unsigned int glatflags = be::read<uint32>(p);
_has_boxes = glatflags & 1;
// delete this once the compiler is fixed
_has_boxes = true;
}
}
}
inline
GlyphCache::Loader::operator bool () const throw()
{
return _head && _hhea && _hmtx && !(bool(_glyf) != bool(_loca));
}
inline
unsigned short int GlyphCache::Loader::units_per_em() const throw()
{
return _head ? TtfUtil::DesignUnits(_head) : 0;
}
inline
unsigned short int GlyphCache::Loader::num_glyphs() const throw()
{
return max(_num_glyphs_graphics, _num_glyphs_attributes);
}
inline
unsigned short int GlyphCache::Loader::num_attrs() const throw()
{
return _num_attrs;
}
inline
bool GlyphCache::Loader::has_boxes () const throw()
{
return _has_boxes;
}
const GlyphFace * GlyphCache::Loader::read_glyph(unsigned short glyphid, GlyphFace & glyph, int *numsubs) const throw()
{
Rect bbox;
Position advance;
if (glyphid < _num_glyphs_graphics)
{
int nLsb;
unsigned int nAdvWid;
if (_glyf)
{
int xMin, yMin, xMax, yMax;
size_t locidx = TtfUtil::LocaLookup(glyphid, _loca, _loca.size(), _head);
void *pGlyph = TtfUtil::GlyfLookup(_glyf, locidx, _glyf.size());
if (pGlyph && TtfUtil::GlyfBox(pGlyph, xMin, yMin, xMax, yMax))
{
if ((xMin > xMax) || (yMin > yMax))
return 0;
bbox = Rect(Position(static_cast<float>(xMin), static_cast<float>(yMin)),
Position(static_cast<float>(xMax), static_cast<float>(yMax)));
}
}
if (TtfUtil::HorMetrics(glyphid, _hmtx, _hmtx.size(), _hhea, nLsb, nAdvWid))
advance = Position(static_cast<float>(nAdvWid), 0);
}
if (glyphid < _num_glyphs_attributes)
{
const byte * gloc = m_pGloc;
size_t glocs = 0, gloce = 0;
be::skip<uint32>(gloc);
be::skip<uint16>(gloc,2);
if (_long_fmt)
{
if (8 + glyphid * sizeof(uint32) > m_pGloc.size())
return 0;
be::skip<uint32>(gloc, glyphid);
glocs = be::read<uint32>(gloc);
gloce = be::peek<uint32>(gloc);
}
else
{
if (8 + glyphid * sizeof(uint16) > m_pGloc.size())
return 0;
be::skip<uint16>(gloc, glyphid);
glocs = be::read<uint16>(gloc);
gloce = be::peek<uint16>(gloc);
}
if (glocs >= m_pGlat.size() - 1 || gloce > m_pGlat.size())
return 0;
const uint32 glat_version = be::peek<uint32>(m_pGlat);
if (glat_version >= 0x00030000)
{
if (glocs >= gloce)
return 0;
const byte * p = m_pGlat + glocs;
uint16 bmap = be::read<uint16>(p);
int num = bit_set_count((uint32)bmap);
if (numsubs) *numsubs += num;
glocs += 6 + 8 * num;
if (glocs > gloce)
return 0;
}
if (glat_version < 0x00020000)
{
if (gloce - glocs < 2*sizeof(byte)+sizeof(uint16)
|| gloce - glocs > _num_attrs*(2*sizeof(byte)+sizeof(uint16)))
return 0;
new (&glyph) GlyphFace(bbox, advance, glat_iterator(m_pGlat + glocs), glat_iterator(m_pGlat + gloce));
}
else
{
if (gloce - glocs < 3*sizeof(uint16) // can a glyph have no attributes? why not?
|| gloce - glocs > _num_attrs*3*sizeof(uint16)
|| glocs > m_pGlat.size() - 2*sizeof(uint16))
return 0;
new (&glyph) GlyphFace(bbox, advance, glat2_iterator(m_pGlat + glocs), glat2_iterator(m_pGlat + gloce));
}
if (!glyph.attrs() || glyph.attrs().capacity() > _num_attrs)
return 0;
}
return &glyph;
}
inline float scale_to(uint8 t, float zmin, float zmax)
{
return (zmin + t * (zmax - zmin) / 255);
}
Rect readbox(Rect &b, uint8 zxmin, uint8 zymin, uint8 zxmax, uint8 zymax)
{
return Rect(Position(scale_to(zxmin, b.bl.x, b.tr.x), scale_to(zymin, b.bl.y, b.tr.y)),
Position(scale_to(zxmax, b.bl.x, b.tr.x), scale_to(zymax, b.bl.y, b.tr.y)));
}
GlyphBox * GlyphCache::Loader::read_box(uint16 gid, GlyphBox *curr, const GlyphFace & glyph) const throw()
{
if (gid >= _num_glyphs_attributes) return 0;
const byte * gloc = m_pGloc;
size_t glocs = 0, gloce = 0;
be::skip<uint32>(gloc);
be::skip<uint16>(gloc,2);
if (_long_fmt)
{
be::skip<uint32>(gloc, gid);
glocs = be::read<uint32>(gloc);
gloce = be::peek<uint32>(gloc);
}
else
{
be::skip<uint16>(gloc, gid);
glocs = be::read<uint16>(gloc);
gloce = be::peek<uint16>(gloc);
}
if (gloce > m_pGlat.size() || glocs + 6 >= gloce)
return 0;
const byte * p = m_pGlat + glocs;
uint16 bmap = be::read<uint16>(p);
int num = bit_set_count((uint32)bmap);
Rect bbox = glyph.theBBox();
Rect diamax(Position(bbox.bl.x + bbox.bl.y, bbox.bl.x - bbox.tr.y),
Position(bbox.tr.x + bbox.tr.y, bbox.tr.x - bbox.bl.y));
Rect diabound = readbox(diamax, p[0], p[2], p[1], p[3]);
::new (curr) GlyphBox(num, bmap, &diabound);
be::skip<uint8>(p, 4);
if (glocs + 6 + num * 8 >= gloce)
return 0;
for (int i = 0; i < num * 2; ++i)
{
Rect box = readbox((i & 1) ? diamax : bbox, p[0], p[2], p[1], p[3]);
curr->addSubBox(i >> 1, i & 1, &box);
be::skip<uint8>(p, 4);
}
return (GlyphBox *)((char *)(curr) + sizeof(GlyphBox) + 2 * num * sizeof(Rect));
}
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