harfbuzz/src/hb-subset-cff1.cc

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/*
* Copyright © 2018 Adobe Systems Incorporated.
*
* This is part of HarfBuzz, a text shaping library.
*
* Permission is hereby granted, without written agreement and without
* license or royalty fees, to use, copy, modify, and distribute this
* software and its documentation for any purpose, provided that the
* above copyright notice and the following two paragraphs appear in
* all copies of this software.
*
* IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR
* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
* ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN
* IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE.
*
* THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING,
* BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS
* ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO
* PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
*
* Adobe Author(s): Michiharu Ariza
*/
#include "hb-open-type.hh"
#include "hb-ot-cff1-table.hh"
#include "hb-set.h"
#include "hb-subset-cff1.hh"
#include "hb-subset-plan.hh"
#include "hb-subset-cff-common.hh"
#include "hb-cff1-interp-cs.hh"
using namespace CFF;
struct RemapSID : Remap
{
inline unsigned int add (unsigned int sid)
{
if ((sid != CFF_UNDEF_SID) && !is_std_std (sid))
return offset_sid (Remap::add (unoffset_sid (sid)));
else
return sid;
}
inline unsigned int operator[] (unsigned int sid) const
{
if (is_std_std (sid))
return sid;
else
return offset_sid (Remap::operator [] (unoffset_sid (sid)));
}
static const unsigned int num_std_strings = 391;
static inline bool is_std_std (unsigned int sid) { return sid < num_std_strings; }
static inline unsigned int offset_sid (unsigned int sid) { return sid + num_std_strings; }
static inline unsigned int unoffset_sid (unsigned int sid) { return sid - num_std_strings; }
};
struct CFF1SubTableOffsets : CFFSubTableOffsets
{
inline CFF1SubTableOffsets (void)
: CFFSubTableOffsets (),
nameIndexOffset (0),
encodingOffset (0)
{
stringIndexInfo.init ();
charsetInfo.init ();
privateDictInfo.init ();
}
unsigned int nameIndexOffset;
TableInfo stringIndexInfo;
unsigned int encodingOffset;
TableInfo charsetInfo;
TableInfo privateDictInfo;
};
/* a copy of a parsed out CFF1TopDictValues augmented with additional operators */
struct CFF1TopDictValuesMod : CFF1TopDictValues
{
inline void init (const CFF1TopDictValues *base_= &Null(CFF1TopDictValues))
{
SUPER::init ();
base = base_;
}
inline void fini (void)
{
SUPER::fini ();
}
inline unsigned getNumValues (void) const
{
return base->getNumValues () + SUPER::getNumValues ();
}
inline const CFF1TopDictVal &getValue (unsigned int i) const
{
if (i < base->getNumValues ())
return (*base)[i];
else
return SUPER::values[i - base->getNumValues ()];
}
inline const CFF1TopDictVal &operator [] (unsigned int i) const { return getValue (i); }
inline void reassignSIDs (const RemapSID& sidmap)
{
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for (unsigned int i = 0; i < NameDictValues::ValCount; i++)
nameSIDs[i] = sidmap[base->nameSIDs[i]];
}
protected:
typedef CFF1TopDictValues SUPER;
const CFF1TopDictValues *base;
};
struct TopDictModifiers
{
inline TopDictModifiers (const CFF1SubTableOffsets &offsets_,
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const unsigned int (&nameSIDs_)[NameDictValues::ValCount])
: offsets (offsets_),
nameSIDs (nameSIDs_)
{}
const CFF1SubTableOffsets &offsets;
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const unsigned int (&nameSIDs)[NameDictValues::ValCount];
};
struct CFF1TopDict_OpSerializer : CFFTopDict_OpSerializer<CFF1TopDictVal>
{
inline bool serialize (hb_serialize_context_t *c,
const CFF1TopDictVal &opstr,
const TopDictModifiers &mod) const
{
TRACE_SERIALIZE (this);
OpCode op = opstr.op;
switch (op)
{
case OpCode_charset:
return_trace (FontDict::serialize_offset4_op(c, op, mod.offsets.charsetInfo.offset));
case OpCode_Encoding:
return_trace (FontDict::serialize_offset4_op(c, op, mod.offsets.encodingOffset));
case OpCode_Private:
{
if (unlikely (!UnsizedByteStr::serialize_int2 (c, mod.offsets.privateDictInfo.size)))
return_trace (false);
if (unlikely (!UnsizedByteStr::serialize_int4 (c, mod.offsets.privateDictInfo.offset)))
return_trace (false);
HBUINT8 *p = c->allocate_size<HBUINT8> (1);
if (unlikely (p == nullptr)) return_trace (false);
p->set (OpCode_Private);
}
break;
case OpCode_version:
case OpCode_Notice:
case OpCode_Copyright:
case OpCode_FullName:
case OpCode_FamilyName:
case OpCode_Weight:
case OpCode_PostScript:
case OpCode_BaseFontName:
case OpCode_FontName:
return_trace (FontDict::serialize_offset2_op(c, op, mod.nameSIDs[NameDictValues::name_op_to_index (op)]));
case OpCode_ROS:
{
/* for registry & ordering, reassigned SIDs are serialized
* for supplement, the original byte string is copied along with the op code */
OpStr supp_op;
supp_op.op = op;
supp_op.str.str = opstr.str.str + opstr.last_arg_offset;
assert (opstr.str.len >= opstr.last_arg_offset + 3);
supp_op.str.len = opstr.str.len - opstr.last_arg_offset;
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return_trace (UnsizedByteStr::serialize_int2 (c, mod.nameSIDs[NameDictValues::registry]) &&
UnsizedByteStr::serialize_int2 (c, mod.nameSIDs[NameDictValues::ordering]) &&
copy_opstr (c, supp_op));
}
default:
return_trace (CFFTopDict_OpSerializer<CFF1TopDictVal>::serialize (c, opstr, mod.offsets));
}
return_trace (true);
}
inline unsigned int calculate_serialized_size (const CFF1TopDictVal &opstr) const
{
OpCode op = opstr.op;
switch (op)
{
case OpCode_charset:
case OpCode_Encoding:
return OpCode_Size (OpCode_longintdict) + 4 + OpCode_Size (op);
case OpCode_Private:
return OpCode_Size (OpCode_longintdict) + 4 + OpCode_Size (OpCode_shortint) + 2 + OpCode_Size (OpCode_Private);
case OpCode_version:
case OpCode_Notice:
case OpCode_Copyright:
case OpCode_FullName:
case OpCode_FamilyName:
case OpCode_Weight:
case OpCode_PostScript:
case OpCode_BaseFontName:
case OpCode_FontName:
return OpCode_Size (OpCode_shortint) + 2 + OpCode_Size (op);
case OpCode_ROS:
return ((OpCode_Size (OpCode_shortint) + 2) * 2) + (opstr.str.len - opstr.last_arg_offset)/* supplement + op */;
default:
return CFFTopDict_OpSerializer<CFF1TopDictVal>::calculate_serialized_size (opstr);
}
}
};
struct FontDictValuesMod
{
inline void init (const CFF1FontDictValues *base_,
unsigned int fontName_,
const TableInfo &privateDictInfo_)
{
base = base_;
fontName = fontName_;
privateDictInfo = privateDictInfo_;
}
inline unsigned getNumValues (void) const
{
return base->getNumValues ();
}
inline const OpStr &operator [] (unsigned int i) const { return (*base)[i]; }
const CFF1FontDictValues *base;
TableInfo privateDictInfo;
unsigned int fontName;
};
struct CFF1FontDict_OpSerializer : CFFFontDict_OpSerializer
{
inline bool serialize (hb_serialize_context_t *c,
const OpStr &opstr,
const FontDictValuesMod &mod) const
{
TRACE_SERIALIZE (this);
if (opstr.op == OpCode_FontName)
return_trace (FontDict::serialize_uint2_op (c, opstr.op, mod.fontName));
else
return_trace (SUPER::serialize (c, opstr, mod.privateDictInfo));
}
inline unsigned int calculate_serialized_size (const OpStr &opstr) const
{
if (opstr.op == OpCode_FontName)
return OpCode_Size (OpCode_shortint) + 2 + OpCode_Size (OpCode_FontName);
else
return SUPER::calculate_serialized_size (opstr);
}
private:
typedef CFFFontDict_OpSerializer SUPER;
};
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struct CFF1CSOpSet_Flatten : CFF1CSOpSet<CFF1CSOpSet_Flatten, FlattenParam>
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{
static inline void flush_args_and_op (OpCode op, CFF1CSInterpEnv &env, FlattenParam& param)
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{
switch (op)
{
case OpCode_hstem:
case OpCode_hstemhm:
case OpCode_vstem:
case OpCode_vstemhm:
case OpCode_hintmask:
case OpCode_cntrmask:
case OpCode_hflex:
case OpCode_flex:
case OpCode_hflex1:
case OpCode_flex1:
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if (param.drop_hints)
{
env.clear_args ();
return;
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}
/* NO BREAK */
default:
SUPER::flush_args_and_op (op, env, param);
break;
}
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}
static inline void flush_n_args (unsigned int n, CFF1CSInterpEnv &env, FlattenParam& param)
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{
for (unsigned int i = env.argStack.count - n; i < env.argStack.count; i++)
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param.flatStr.encode_num (env.argStack.elements[i]);
SUPER::flush_n_args (n, env, param);
}
static inline void flush_op (OpCode op, CFF1CSInterpEnv &env, FlattenParam& param)
{
param.flatStr.encode_op (op);
}
static inline void flush_hintmask (OpCode op, CFF1CSInterpEnv &env, FlattenParam& param)
{
SUPER::flush_hintmask (op, env, param);
if (!param.drop_hints)
for (unsigned int i = 0; i < env.hintmask_size; i++)
param.flatStr.encode_byte (env.substr[i]);
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}
private:
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typedef CFF1CSOpSet<CFF1CSOpSet_Flatten, FlattenParam> SUPER;
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};
struct cff_subset_plan {
inline cff_subset_plan (void)
: final_size (0),
orig_fdcount (0),
subset_fdcount (1),
subset_fdselect_format (0),
offsets (),
drop_hints (false)
{
topdict_sizes.init ();
topdict_sizes.resize (1);
topdict_mod.init ();
subset_fdselect_first_glyphs.init ();
fdmap.init ();
subset_charstrings.init ();
flat_charstrings.init ();
fontdicts_mod.init ();
subset_enc_code_ranges.init ();
subset_enc_supp_codes.init ();
subset_charset_ranges.init ();
sidmap.init ();
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for (unsigned int i = 0; i < NameDictValues::ValCount; i++)
topDictModSIDs[i] = CFF_UNDEF_SID;
}
inline ~cff_subset_plan (void)
{
topdict_sizes.fini ();
topdict_mod.fini ();
subset_fdselect_first_glyphs.fini ();
fdmap.fini ();
subset_charstrings.fini ();
flat_charstrings.fini ();
fontdicts_mod.fini ();
subset_enc_code_ranges.fini ();
subset_enc_supp_codes.init ();
subset_charset_ranges.fini ();
sidmap.fini ();
fontdicts_mod.fini ();
}
inline unsigned int plan_subset_encoding (const OT::cff1::accelerator_subset_t &acc, hb_subset_plan_t *plan)
{
const Encoding *encoding = acc.encoding;
unsigned int size0, size1, supp_size;
hb_codepoint_t code, last_code = CFF_UNDEF_CODE;
hb_vector_t<hb_codepoint_t> supp_codes;
subset_enc_code_ranges.resize (0);
supp_size = 0;
supp_codes.init ();
subset_enc_num_codes = plan->glyphs.len - 1;
unsigned int glyph;
for (glyph = 1; glyph < plan->glyphs.len; glyph++)
{
hb_codepoint_t orig_glyph = plan->glyphs[glyph];
code = acc.glyph_to_code (orig_glyph);
if (code == CFF_UNDEF_CODE)
{
subset_enc_num_codes = glyph - 1;
break;
}
if (code != last_code + 1)
{
if (subset_enc_code_ranges.len > 0)
{
code_pair &pair = subset_enc_code_ranges[subset_enc_code_ranges.len - 1];
pair.glyph = glyph - pair.glyph - 1;
}
code_pair pair = { code, glyph };
subset_enc_code_ranges.push (pair);
}
last_code = code;
if (encoding != &Null(Encoding))
{
hb_codepoint_t sid = acc.glyph_to_sid (orig_glyph);
encoding->get_supplement_codes (sid, supp_codes);
for (unsigned int i = 0; i < supp_codes.len; i++)
{
code_pair pair = { supp_codes[i], sid };
subset_enc_supp_codes.push (pair);
}
supp_size += SuppEncoding::static_size * supp_codes.len;
}
}
supp_codes.fini ();
if (subset_enc_code_ranges.len > 0)
{
code_pair &pair = subset_enc_code_ranges[subset_enc_code_ranges.len - 1];
pair.glyph = glyph - pair.glyph - 1;
}
assert (subset_enc_num_codes <= 0xFF);
size0 = Encoding0::min_size + HBUINT8::static_size * subset_enc_num_codes;
size1 = Encoding1::min_size + Encoding1_Range::static_size * subset_enc_code_ranges.len;
if (size0 < size1)
subset_enc_format = 0;
else
subset_enc_format = 1;
return Encoding::calculate_serialized_size (
subset_enc_format,
subset_enc_format? subset_enc_code_ranges.len: subset_enc_num_codes,
subset_enc_supp_codes.len);
}
inline unsigned int plan_subset_charset (const OT::cff1::accelerator_subset_t &acc, hb_subset_plan_t *plan)
{
unsigned int size0, size_ranges;
hb_codepoint_t sid, last_sid = CFF_UNDEF_CODE;
bool two_byte = false;
subset_charset_ranges.resize (0);
unsigned int glyph;
for (glyph = 1; glyph < plan->glyphs.len; glyph++)
{
hb_codepoint_t orig_glyph = plan->glyphs[glyph];
sid = acc.glyph_to_sid (orig_glyph);
if (!acc.is_CID ())
sid = sidmap.add (sid);
if (sid != last_sid + 1)
{
if (subset_charset_ranges.len > 0)
{
code_pair &pair = subset_charset_ranges[subset_charset_ranges.len - 1];
pair.glyph = glyph - pair.glyph - 1;
if ((pair.glyph & ~0xFF) != 0) two_byte = true;
}
code_pair pair = { sid, glyph };
subset_charset_ranges.push (pair);
}
last_sid = sid;
}
if (subset_charset_ranges.len > 0)
{
code_pair &pair = subset_charset_ranges[subset_charset_ranges.len - 1];
pair.glyph = glyph - pair.glyph - 1;
if ((pair.glyph & ~0xFF) != 0) two_byte = true;
}
size0 = Charset0::min_size + HBUINT16::static_size * (plan->glyphs.len - 1);
if (!two_byte)
size_ranges = Charset1::min_size + Charset1_Range::static_size * subset_charset_ranges.len;
else
size_ranges = Charset2::min_size + Charset2_Range::static_size * subset_charset_ranges.len;
if (size0 < size_ranges)
subset_charset_format = 0;
else if (!two_byte)
subset_charset_format = 1;
else
subset_charset_format = 2;
return Charset::calculate_serialized_size (
subset_charset_format,
subset_charset_format? subset_charset_ranges.len: plan->glyphs.len);
}
inline bool collect_sids_in_dicts (const OT::cff1::accelerator_subset_t &acc)
{
if (unlikely (!sidmap.reset (acc.stringIndex->count)))
return false;
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for (unsigned int i = 0; i < NameDictValues::ValCount; i++)
{
unsigned int sid = acc.topDict.nameSIDs[i];
if (sid != CFF_UNDEF_SID)
{
(void)sidmap.add (sid);
topDictModSIDs[i] = sidmap[sid];
}
}
if (acc.fdArray != &Null(CFF1FDArray))
for (unsigned int fd = 0; fd < orig_fdcount; fd++)
if (!fdmap.excludes (fd))
(void)sidmap.add (acc.fontDicts[fd].fontName);
return true;
}
inline bool create (const OT::cff1::accelerator_subset_t &acc,
hb_subset_plan_t *plan)
{
/* make sure notdef is first */
if ((plan->glyphs.len == 0) || (plan->glyphs[0] != 0)) return false;
final_size = 0;
num_glyphs = plan->glyphs.len;
orig_fdcount = acc.fdCount;
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drop_hints = plan->drop_hints;
/* check whether the subset renumbers any glyph IDs */
gid_renum = false;
for (unsigned int glyph = 0; glyph < plan->glyphs.len; glyph++)
{
if (plan->glyphs[glyph] != glyph) {
gid_renum = true;
break;
}
}
subset_charset = gid_renum || !acc.is_predef_charset ();
subset_encoding = !acc.is_CID() && (gid_renum || !acc.is_predef_encoding ());
/* CFF header */
final_size += OT::cff1::static_size;
/* Name INDEX */
offsets.nameIndexOffset = final_size;
final_size += acc.nameIndex->get_size ();
/* top dict INDEX */
{
/* Add encoding/charset to a (copy of) top dict as necessary */
topdict_mod.init (&acc.topDict);
bool need_to_add_enc = (subset_encoding && !acc.topDict.hasOp (OpCode_Encoding));
bool need_to_add_set = (subset_charset && !acc.topDict.hasOp (OpCode_charset));
if (need_to_add_enc || need_to_add_set)
{
if (need_to_add_enc)
topdict_mod.addOp (OpCode_Encoding);
if (need_to_add_set)
topdict_mod.addOp (OpCode_charset);
}
offsets.topDictInfo.offset = final_size;
CFF1TopDict_OpSerializer topSzr;
unsigned int topDictSize = TopDict::calculate_serialized_size (topdict_mod, topSzr);
offsets.topDictInfo.offSize = calcOffSize(topDictSize);
final_size += CFF1IndexOf<TopDict>::calculate_serialized_size<CFF1TopDictValuesMod>
(offsets.topDictInfo.offSize,
&topdict_mod, 1, topdict_sizes, topSzr);
}
/* Determine re-mapping of font index as fdmap among other info */
if (acc.fdSelect != &Null(CFF1FDSelect)
&& unlikely (!hb_plan_subset_cff_fdselect (plan->glyphs,
orig_fdcount,
*acc.fdSelect,
subset_fdcount,
offsets.FDSelectInfo.size,
subset_fdselect_format,
subset_fdselect_first_glyphs,
fdmap)))
return false;
/* remove unused SIDs & reassign SIDs */
{
/* SIDs for name strings in dicts are added before glyph names so they fit in 16-bit int range */
if (unlikely (!collect_sids_in_dicts (acc)))
return false;
assert (sidmap.get_count () <= 0x8000);
if (subset_charset)
offsets.charsetInfo.size = plan_subset_charset (acc, plan);
topdict_mod.reassignSIDs (sidmap);
}
/* String INDEX */
{
offsets.stringIndexInfo.offset = final_size;
offsets.stringIndexInfo.size = acc.stringIndex->calculate_serialized_size (offsets.stringIndexInfo.offSize, sidmap);
final_size += offsets.stringIndexInfo.size;
}
{
/* Flatten global & local subrs */
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SubrFlattener<const OT::cff1::accelerator_subset_t, CFF1CSInterpEnv, CFF1CSOpSet_Flatten>
flattener(acc, plan->glyphs, plan->drop_hints);
if (!flattener.flatten (flat_charstrings))
return false;
/* no global/local subroutines */
offsets.globalSubrsInfo.size = HBUINT16::static_size; /* count 0 only */
}
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/* global subrs */
offsets.globalSubrsInfo.offset = final_size;
final_size += offsets.globalSubrsInfo.size;
/* Encoding */
offsets.encodingOffset = final_size;
if (subset_encoding)
final_size += plan_subset_encoding (acc, plan);
/* Charset */
offsets.charsetInfo.offset = final_size;
final_size += offsets.charsetInfo.size;
/* FDSelect */
if (acc.fdSelect != &Null(CFF1FDSelect))
{
offsets.FDSelectInfo.offset = final_size;
if (!is_fds_subsetted ())
offsets.FDSelectInfo.size = acc.fdSelect->calculate_serialized_size (acc.num_glyphs);
final_size += offsets.FDSelectInfo.size;
}
/* FDArray (FDIndex) */
if (acc.fdArray != &Null(CFF1FDArray)) {
offsets.FDArrayInfo.offset = final_size;
CFF1FontDict_OpSerializer fontSzr;
unsigned int dictsSize = 0;
for (unsigned int i = 0; i < acc.fontDicts.len; i++)
if (!fdmap.excludes (i))
dictsSize += FontDict::calculate_serialized_size (acc.fontDicts[i], fontSzr);
offsets.FDArrayInfo.offSize = calcOffSize (dictsSize + 1);
final_size += CFF1Index::calculate_serialized_size (offsets.FDArrayInfo.offSize, subset_fdcount, dictsSize);
}
/* CharStrings */
{
offsets.charStringsInfo.offset = final_size;
unsigned int dataSize = 0;
for (unsigned int i = 0; i < plan->glyphs.len; i++)
{
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ByteStrBuff &flatstr = flat_charstrings[i];
ByteStr str (&flatstr[0], flatstr.len);
subset_charstrings.push (str);
dataSize += flatstr.len;
}
offsets.charStringsInfo.offSize = calcOffSize (dataSize + 1);
final_size += CFF1CharStrings::calculate_serialized_size (offsets.charStringsInfo.offSize, plan->glyphs.len, dataSize);
}
/* private dicts & local subrs */
offsets.privateDictInfo.offset = final_size;
for (unsigned int i = 0; i < orig_fdcount; i++)
{
if (!fdmap.excludes (i))
{
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CFFPrivateDict_OpSerializer privSzr (plan->drop_hints);
unsigned int priv_size = PrivateDict::calculate_serialized_size (acc.privateDicts[i], privSzr);
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TableInfo privInfo = { final_size, priv_size, 0 };
FontDictValuesMod fontdict_mod;
fontdict_mod.init ( &acc.fontDicts[i], sidmap[acc.fontDicts[i].fontName], privInfo );
fontdicts_mod.push (fontdict_mod);
final_size += privInfo.size;
}
}
if (!acc.is_CID ())
offsets.privateDictInfo = fontdicts_mod[0].privateDictInfo;
return ((subset_charstrings.len == plan->glyphs.len) &&
(fontdicts_mod.len == subset_fdcount));
}
inline unsigned int get_final_size (void) const { return final_size; }
unsigned int final_size;
hb_vector_t<unsigned int> topdict_sizes;
CFF1TopDictValuesMod topdict_mod;
CFF1SubTableOffsets offsets;
unsigned int num_glyphs;
unsigned int orig_fdcount;
unsigned int subset_fdcount;
inline bool is_fds_subsetted (void) const { return subset_fdcount < orig_fdcount; }
unsigned int subset_fdselect_format;
hb_vector_t<hb_codepoint_t> subset_fdselect_first_glyphs;
/* font dict index remap table from fullset FDArray to subset FDArray.
* set to CFF_UNDEF_CODE if excluded from subset */
Remap fdmap;
hb_vector_t<ByteStr> subset_charstrings;
ByteStrBuffArray flat_charstrings;
hb_vector_t<FontDictValuesMod> fontdicts_mod;
bool flatten_subrs;
bool drop_hints;
bool gid_renum;
bool subset_encoding;
uint8_t subset_enc_format;
unsigned int subset_enc_num_codes;
hb_vector_t<code_pair> subset_enc_code_ranges;
hb_vector_t<code_pair> subset_enc_supp_codes;
uint8_t subset_charset_format;
hb_vector_t<code_pair> subset_charset_ranges;
bool subset_charset;
RemapSID sidmap;
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unsigned int topDictModSIDs[NameDictValues::ValCount];
};
static inline bool _write_cff1 (const cff_subset_plan &plan,
const OT::cff1::accelerator_subset_t &acc,
const hb_vector_t<hb_codepoint_t>& glyphs,
unsigned int dest_sz,
void *dest)
{
hb_serialize_context_t c (dest, dest_sz);
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char RETURN_OP[1] = { OpCode_return };
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const ByteStr NULL_SUBR (RETURN_OP, 1);
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OT::cff1 *cff = c.start_serialize<OT::cff1> ();
if (unlikely (!c.extend_min (*cff)))
return false;
/* header */
cff->version.major.set (0x01);
cff->version.minor.set (0x00);
cff->nameIndex.set (cff->min_size);
cff->offSize.set (4); /* unused? */
/* name INDEX */
{
assert (cff->nameIndex == c.head - c.start);
CFF1NameIndex *dest = c.start_embed<CFF1NameIndex> ();
if (unlikely (dest == nullptr)) return false;
if (unlikely (!dest->serialize (&c, *acc.nameIndex)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF name INDEX");
return false;
}
}
/* top dict INDEX */
{
assert (plan.offsets.topDictInfo.offset == c.head - c.start);
CFF1IndexOf<TopDict> *dest = c.start_embed< CFF1IndexOf<TopDict> > ();
if (dest == nullptr) return false;
CFF1TopDict_OpSerializer topSzr;
TopDictModifiers modifier (plan.offsets, plan.topDictModSIDs);
if (unlikely (!dest->serialize (&c, plan.offsets.topDictInfo.offSize,
&plan.topdict_mod, 1,
plan.topdict_sizes, topSzr, modifier)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF top dict");
return false;
}
}
/* String INDEX */
{
assert (plan.offsets.stringIndexInfo.offset == c.head - c.start);
CFF1StringIndex *dest = c.start_embed<CFF1StringIndex> ();
if (unlikely (dest == nullptr)) return false;
if (unlikely (!dest->serialize (&c, *acc.stringIndex, plan.offsets.stringIndexInfo.offSize, plan.sidmap)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF string INDEX");
return false;
}
}
/* global subrs */
{
assert (plan.offsets.globalSubrsInfo.offset != 0);
assert (plan.offsets.globalSubrsInfo.offset == c.head - c.start);
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CFF1Subrs *dest = c.allocate_size <CFF1Subrs> (HBUINT16::static_size);
if (unlikely (dest == nullptr)) return false;
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dest->count.set (0);
}
/* Encoding */
if (plan.subset_encoding)
{
assert (plan.offsets.encodingOffset == c.head - c.start);
Encoding *dest = c.start_embed<Encoding> ();
if (unlikely (dest == nullptr)) return false;
if (unlikely (!dest->serialize (&c,
plan.subset_enc_format,
plan.subset_enc_num_codes,
plan.subset_enc_code_ranges,
plan.subset_enc_supp_codes)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize Encoding");
return false;
}
}
/* Charset */
if (plan.subset_charset)
{
assert (plan.offsets.charsetInfo.offset == c.head - c.start);
Charset *dest = c.start_embed<Charset> ();
if (unlikely (dest == nullptr)) return false;
if (unlikely (!dest->serialize (&c,
plan.subset_charset_format,
plan.num_glyphs,
plan.subset_charset_ranges)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize Charset");
return false;
}
}
/* FDSelect */
if (acc.fdSelect != &Null(CFF1FDSelect))
{
assert (plan.offsets.FDSelectInfo.offset == c.head - c.start);
if (plan.is_fds_subsetted ())
{
if (unlikely (!hb_serialize_cff_fdselect (&c, glyphs, *acc.fdSelect, acc.fdCount,
plan.subset_fdselect_format, plan.offsets.FDSelectInfo.size,
plan.subset_fdselect_first_glyphs,
plan.fdmap)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF subset FDSelect");
return false;
}
}
else
{
CFF1FDSelect *dest = c.start_embed<CFF1FDSelect> ();
if (unlikely (!dest->serialize (&c, *acc.fdSelect, acc.num_glyphs)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF FDSelect");
return false;
}
}
}
/* FDArray (FD Index) */
if (acc.fdArray != &Null(CFF1FDArray))
{
assert (plan.offsets.FDArrayInfo.offset == c.head - c.start);
CFF1FDArray *fda = c.start_embed<CFF1FDArray> ();
if (unlikely (fda == nullptr)) return false;
CFF1FontDict_OpSerializer fontSzr;
if (unlikely (!fda->serialize (&c, plan.offsets.FDArrayInfo.offSize,
plan.fontdicts_mod,
fontSzr)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF FDArray");
return false;
}
}
/* CharStrings */
{
assert (plan.offsets.charStringsInfo.offset == c.head - c.start);
CFF1CharStrings *cs = c.start_embed<CFF1CharStrings> ();
if (unlikely (cs == nullptr)) return false;
if (unlikely (!cs->serialize (&c, plan.offsets.charStringsInfo.offSize, plan.subset_charstrings)))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF CharStrings");
return false;
}
}
/* private dicts & local subrs */
assert (plan.offsets.privateDictInfo.offset == c.head - c.start);
for (unsigned int i = 0; i < acc.privateDicts.len; i++)
{
if (!plan.fdmap.excludes (i))
{
PrivateDict *pd = c.start_embed<PrivateDict> ();
if (unlikely (pd == nullptr)) return false;
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unsigned int priv_size = plan.fontdicts_mod[plan.fdmap[i]].privateDictInfo.size;
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bool result;
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CFFPrivateDict_OpSerializer privSzr (plan.drop_hints);
/* N.B. local subrs immediately follows its corresponding private dict. i.e., subr offset == private dict size */
result = pd->serialize (&c, acc.privateDicts[i], privSzr, priv_size);
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if (unlikely (!result))
{
DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF Private Dict[%d]", i);
return false;
}
}
}
assert (c.head == c.end);
c.end_serialize ();
return true;
}
static bool
_hb_subset_cff1 (const OT::cff1::accelerator_subset_t &acc,
const char *data,
hb_subset_plan_t *plan,
hb_blob_t **prime /* OUT */)
{
cff_subset_plan cff_plan;
if (unlikely (!cff_plan.create (acc, plan)))
{
DEBUG_MSG(SUBSET, nullptr, "Failed to generate a cff subsetting plan.");
return false;
}
unsigned int cff_prime_size = cff_plan.get_final_size ();
char *cff_prime_data = (char *) calloc (1, cff_prime_size);
if (unlikely (!_write_cff1 (cff_plan, acc, plan->glyphs,
cff_prime_size, cff_prime_data))) {
DEBUG_MSG(SUBSET, nullptr, "Failed to write a subset cff.");
free (cff_prime_data);
return false;
}
*prime = hb_blob_create (cff_prime_data,
cff_prime_size,
HB_MEMORY_MODE_READONLY,
cff_prime_data,
free);
return true;
}
/**
* hb_subset_cff1:
* Subsets the CFF table according to a provided plan.
*
* Return value: subsetted cff table.
**/
bool
hb_subset_cff1 (hb_subset_plan_t *plan,
hb_blob_t **prime /* OUT */)
{
hb_blob_t *cff_blob = hb_sanitize_context_t().reference_table<CFF::cff1> (plan->source);
const char *data = hb_blob_get_data(cff_blob, nullptr);
OT::cff1::accelerator_subset_t acc;
acc.init(plan->source);
bool result = likely (acc.is_valid ()) &&
_hb_subset_cff1 (acc, data, plan, prime);
hb_blob_destroy (cff_blob);
acc.fini ();
return result;
}