/* * Copyright © 2018 Adobe Inc. * * 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 { 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; } unsigned int operator[] (unsigned int sid) const { if (is_std_std (sid) || (sid == CFF_UNDEF_SID)) return sid; else return offset_sid (Remap::operator [] (unoffset_sid (sid))); } static const unsigned int num_std_strings = 391; static bool is_std_std (unsigned int sid) { return sid < num_std_strings; } static unsigned int offset_sid (unsigned int sid) { return sid + num_std_strings; } static unsigned int unoffset_sid (unsigned int sid) { return sid - num_std_strings; } }; struct CFF1SubTableOffsets : CFFSubTableOffsets { CFF1SubTableOffsets () : 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 { void init (const CFF1TopDictValues *base_= &Null(CFF1TopDictValues)) { SUPER::init (); base = base_; } void fini () { SUPER::fini (); } unsigned get_count () const { return base->get_count () + SUPER::get_count (); } const CFF1TopDictVal &get_value (unsigned int i) const { if (i < base->get_count ()) return (*base)[i]; else return SUPER::values[i - base->get_count ()]; } const CFF1TopDictVal &operator [] (unsigned int i) const { return get_value (i); } void reassignSIDs (const RemapSID& sidmap) { for (unsigned int i = 0; i < NameDictValues::ValCount; i++) nameSIDs[i] = sidmap[base->nameSIDs[i]]; } protected: typedef CFF1TopDictValues SUPER; const CFF1TopDictValues *base; }; struct TopDictModifiers { TopDictModifiers (const CFF1SubTableOffsets &offsets_, const unsigned int (&nameSIDs_)[NameDictValues::ValCount]) : offsets (offsets_), nameSIDs (nameSIDs_) {} const CFF1SubTableOffsets &offsets; const unsigned int (&nameSIDs)[NameDictValues::ValCount]; }; struct CFF1TopDict_OpSerializer : CFFTopDict_OpSerializer<CFF1TopDictVal> { 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; if ( unlikely (!(opstr.str.len >= opstr.last_arg_offset + 3))) return_trace (false); supp_op.str.len = opstr.str.len - opstr.last_arg_offset; 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); } 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 { void init (const CFF1FontDictValues *base_, unsigned int fontName_, const TableInfo &privateDictInfo_) { base = base_; fontName = fontName_; privateDictInfo = privateDictInfo_; } unsigned get_count () const { return base->get_count (); } const OpStr &operator [] (unsigned int i) const { return (*base)[i]; } const CFF1FontDictValues *base; TableInfo privateDictInfo; unsigned int fontName; }; struct CFF1FontDict_OpSerializer : CFFFontDict_OpSerializer { 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)); } 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; }; struct CFF1CSOpSet_Flatten : CFF1CSOpSet<CFF1CSOpSet_Flatten, FlattenParam> { static void flush_args_and_op (OpCode op, CFF1CSInterpEnv &env, FlattenParam& param) { if (env.arg_start > 0) flush_width (env, param); switch (op) { case OpCode_hstem: case OpCode_hstemhm: case OpCode_vstem: case OpCode_vstemhm: case OpCode_hintmask: case OpCode_cntrmask: case OpCode_dotsection: if (param.drop_hints) { env.clear_args (); return; } HB_FALLTHROUGH; default: SUPER::flush_args_and_op (op, env, param); break; } } static void flush_args (CFF1CSInterpEnv &env, FlattenParam& param) { StrEncoder encoder (param.flatStr); for (unsigned int i = env.arg_start; i < env.argStack.get_count (); i++) encoder.encode_num (env.eval_arg (i)); SUPER::flush_args (env, param); } static void flush_op (OpCode op, CFF1CSInterpEnv &env, FlattenParam& param) { StrEncoder encoder (param.flatStr); encoder.encode_op (op); } static void flush_width (CFF1CSInterpEnv &env, FlattenParam& param) { assert (env.has_width); StrEncoder encoder (param.flatStr); encoder.encode_num (env.width); } static void flush_hintmask (OpCode op, CFF1CSInterpEnv &env, FlattenParam& param) { SUPER::flush_hintmask (op, env, param); if (!param.drop_hints) { StrEncoder encoder (param.flatStr); for (unsigned int i = 0; i < env.hintmask_size; i++) encoder.encode_byte (env.substr[i]); } } private: typedef CFF1CSOpSet<CFF1CSOpSet_Flatten, FlattenParam> SUPER; }; struct RangeList : hb_vector_t<code_pair> { /* replace the first glyph ID in the "glyph" field each range with a nLeft value */ bool finalize (unsigned int last_glyph) { bool two_byte = false; for (unsigned int i = (*this).len; i > 0; i--) { code_pair &pair = (*this)[i - 1]; unsigned int nLeft = last_glyph - pair.glyph - 1; if (nLeft >= 0x100) two_byte = true; last_glyph = pair.glyph; pair.glyph = nLeft; } return two_byte; } }; struct CFF1CSOpSet_SubrSubset : CFF1CSOpSet<CFF1CSOpSet_SubrSubset, SubrSubsetParam> { static void process_op (OpCode op, CFF1CSInterpEnv &env, SubrSubsetParam& param) { switch (op) { case OpCode_return: param.current_parsed_str->add_op (op, env.substr); param.current_parsed_str->set_parsed (); env.returnFromSubr (); param.set_current_str (env, false); break; case OpCode_endchar: param.current_parsed_str->add_op (op, env.substr); param.current_parsed_str->set_parsed (); SUPER::process_op (op, env, param); break; case OpCode_callsubr: process_call_subr (op, CSType_LocalSubr, env, param, env.localSubrs, param.local_closure); break; case OpCode_callgsubr: process_call_subr (op, CSType_GlobalSubr, env, param, env.globalSubrs, param.global_closure); break; default: SUPER::process_op (op, env, param); param.current_parsed_str->add_op (op, env.substr); break; } } protected: static void process_call_subr (OpCode op, CSType type, CFF1CSInterpEnv &env, SubrSubsetParam& param, CFF1BiasedSubrs& subrs, hb_set_t *closure) { SubByteStr substr = env.substr; env.callSubr (subrs, type); param.current_parsed_str->add_call_op (op, substr, env.context.subr_num); hb_set_add (closure, env.context.subr_num); param.set_current_str (env, true); } private: typedef CFF1CSOpSet<CFF1CSOpSet_SubrSubset, SubrSubsetParam> SUPER; }; struct CFF1SubrSubsetter : SubrSubsetter<CFF1SubrSubsetter, CFF1Subrs, const OT::cff1::accelerator_subset_t, CFF1CSInterpEnv, CFF1CSOpSet_SubrSubset> { static void finalize_parsed_str (CFF1CSInterpEnv &env, SubrSubsetParam& param, ParsedCStr &charstring) { /* insert width at the beginning of the charstring as necessary */ if (env.has_width) charstring.set_prefix (env.width); /* subroutines/charstring left on the call stack are legally left unmarked * unmarked when a subroutine terminates with endchar. mark them. */ param.current_parsed_str->set_parsed (); for (unsigned int i = 0; i < env.callStack.get_count (); i++) { ParsedCStr *parsed_str = param.get_parsed_str_for_context (env.callStack[i]); if (likely (parsed_str != nullptr)) parsed_str->set_parsed (); else env.set_error (); } } }; struct cff_subset_plan { cff_subset_plan () : final_size (0), offsets (), orig_fdcount (0), subset_fdcount (1), subset_fdselect_format (0), drop_hints (false), desubroutinize(false) { topdict_sizes.init (); topdict_sizes.resize (1); topdict_mod.init (); subset_fdselect_ranges.init (); fdmap.init (); subset_charstrings.init (); subset_globalsubrs.init (); subset_localsubrs.init (); fontdicts_mod.init (); subset_enc_code_ranges.init (); subset_enc_supp_codes.init (); subset_charset_ranges.init (); sidmap.init (); for (unsigned int i = 0; i < NameDictValues::ValCount; i++) topDictModSIDs[i] = CFF_UNDEF_SID; } ~cff_subset_plan () { topdict_sizes.fini (); topdict_mod.fini (); subset_fdselect_ranges.fini (); fdmap.fini (); subset_charstrings.fini_deep (); subset_globalsubrs.fini_deep (); subset_localsubrs.fini_deep (); fontdicts_mod.fini (); subset_enc_code_ranges.fini (); subset_enc_supp_codes.init (); subset_charset_ranges.fini (); sidmap.fini (); fontdicts_mod.fini (); } 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) { 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 (); subset_enc_code_ranges.finalize (glyph); 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); } 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; 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) { code_pair pair = { sid, glyph }; subset_charset_ranges.push (pair); } last_sid = sid; } bool two_byte = subset_charset_ranges.finalize (glyph); 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); } bool collect_sids_in_dicts (const OT::cff1::accelerator_subset_t &acc) { if (unlikely (!sidmap.reset (acc.stringIndex->count))) return false; 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 i = 0; i < orig_fdcount; i++) if (fdmap.includes (i)) (void)sidmap.add (acc.fontDicts[i].fontName); return true; } 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; drop_hints = plan->drop_hints; desubroutinize = plan->desubroutinize; /* 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() && !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.has_op (OpCode_Encoding)); bool need_to_add_set = (subset_charset && !acc.topDict.has_op (OpCode_charset)); if (need_to_add_enc || need_to_add_set) { if (need_to_add_enc) topdict_mod.add_op (OpCode_Encoding); if (need_to_add_set) topdict_mod.add_op (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); if (unlikely (offsets.topDictInfo.offSize > 4)) return false; 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)) { if (unlikely (!hb_plan_subset_cff_fdselect (plan->glyphs, orig_fdcount, *acc.fdSelect, subset_fdcount, offsets.FDSelectInfo.size, subset_fdselect_format, subset_fdselect_ranges, fdmap))) return false; } else fdmap.identity (1); /* 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; if (unlikely (sidmap.get_count () > 0x8000)) /* assumption: a dict won't reference that many strings */ return false; 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; } if (desubroutinize) { /* Flatten global & local subrs */ SubrFlattener<const OT::cff1::accelerator_subset_t, CFF1CSInterpEnv, CFF1CSOpSet_Flatten> flattener(acc, plan->glyphs, plan->drop_hints); if (!flattener.flatten (subset_charstrings)) return false; /* no global/local subroutines */ offsets.globalSubrsInfo.size = CFF1Subrs::calculate_serialized_size (1, 0, 0); } else { /* Subset subrs: collect used subroutines, leaving all unused ones behind */ if (!subr_subsetter.subset (acc, plan->glyphs, plan->drop_hints)) return false; /* encode charstrings, global subrs, local subrs with new subroutine numbers */ if (!subr_subsetter.encode_charstrings (acc, plan->glyphs, subset_charstrings)) return false; if (!subr_subsetter.encode_globalsubrs (subset_globalsubrs)) return false; /* global subrs */ unsigned int dataSize = subset_globalsubrs.total_size (); offsets.globalSubrsInfo.offSize = calcOffSize (dataSize); if (unlikely (offsets.globalSubrsInfo.offSize > 4)) return false; offsets.globalSubrsInfo.size = CFF1Subrs::calculate_serialized_size (offsets.globalSubrsInfo.offSize, subset_globalsubrs.len, dataSize); /* local subrs */ if (!offsets.localSubrsInfos.resize (orig_fdcount)) return false; if (!subset_localsubrs.resize (orig_fdcount)) return false; for (unsigned int fd = 0; fd < orig_fdcount; fd++) { subset_localsubrs[fd].init (); offsets.localSubrsInfos[fd].init (); if (fdmap.includes (fd)) { if (!subr_subsetter.encode_localsubrs (fd, subset_localsubrs[fd])) return false; unsigned int dataSize = subset_localsubrs[fd].total_size (); if (dataSize > 0) { offsets.localSubrsInfos[fd].offset = final_size; offsets.localSubrsInfos[fd].offSize = calcOffSize (dataSize); if (unlikely (offsets.localSubrsInfos[fd].offSize > 4)) return false; offsets.localSubrsInfos[fd].size = CFF1Subrs::calculate_serialized_size (offsets.localSubrsInfos[fd].offSize, subset_localsubrs[fd].len, dataSize); } } } } /* global subrs */ offsets.globalSubrsInfo.offset = final_size; final_size += offsets.globalSubrsInfo.size; /* Encoding */ if (!subset_encoding) offsets.encodingOffset = acc.topDict.EncodingOffset; else { offsets.encodingOffset = final_size; final_size += plan_subset_encoding (acc, plan); } /* Charset */ if (!subset_charset && acc.is_predef_charset ()) offsets.charsetInfo.offset = acc.topDict.CharsetOffset; else offsets.charsetInfo.offset = final_size; final_size += offsets.charsetInfo.size; /* FDSelect */ if (acc.fdSelect != &Null(CFF1FDSelect)) { offsets.FDSelectInfo.offset = final_size; 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.includes (i)) dictsSize += FontDict::calculate_serialized_size (acc.fontDicts[i], fontSzr); offsets.FDArrayInfo.offSize = calcOffSize (dictsSize); if (unlikely (offsets.FDArrayInfo.offSize > 4)) return false; final_size += CFF1Index::calculate_serialized_size (offsets.FDArrayInfo.offSize, subset_fdcount, dictsSize); } /* CharStrings */ { offsets.charStringsInfo.offset = final_size; unsigned int dataSize = subset_charstrings.total_size (); offsets.charStringsInfo.offSize = calcOffSize (dataSize); if (unlikely (offsets.charStringsInfo.offSize > 4)) return false; 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.includes (i)) { bool has_localsubrs = offsets.localSubrsInfos[i].size > 0; CFFPrivateDict_OpSerializer privSzr (desubroutinize, plan->drop_hints); unsigned int priv_size = PrivateDict::calculate_serialized_size (acc.privateDicts[i], privSzr, has_localsubrs); TableInfo privInfo = { final_size, priv_size, 0 }; FontDictValuesMod fontdict_mod; if (!acc.is_CID ()) fontdict_mod.init ( &Null(CFF1FontDictValues), CFF_UNDEF_SID, privInfo ); else fontdict_mod.init ( &acc.fontDicts[i], sidmap[acc.fontDicts[i].fontName], privInfo ); fontdicts_mod.push (fontdict_mod); final_size += privInfo.size; if (!plan->desubroutinize && has_localsubrs) { offsets.localSubrsInfos[i].offset = final_size; final_size += offsets.localSubrsInfos[i].size; } } } if (!acc.is_CID ()) offsets.privateDictInfo = fontdicts_mod[0].privateDictInfo; return ((subset_charstrings.len == plan->glyphs.len) && (fontdicts_mod.len == subset_fdcount)); } unsigned int get_final_size () 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; unsigned int subset_fdselect_format; hb_vector_t<code_pair> subset_fdselect_ranges; /* font dict index remap table from fullset FDArray to subset FDArray. * set to CFF_UNDEF_CODE if excluded from subset */ Remap fdmap; StrBuffArray subset_charstrings; StrBuffArray subset_globalsubrs; hb_vector_t<StrBuffArray> subset_localsubrs; hb_vector_t<FontDictValuesMod> fontdicts_mod; bool drop_hints; bool gid_renum; bool subset_encoding; uint8_t subset_enc_format; unsigned int subset_enc_num_codes; RangeList subset_enc_code_ranges; hb_vector_t<code_pair> subset_enc_supp_codes; uint8_t subset_charset_format; RangeList subset_charset_ranges; bool subset_charset; RemapSID sidmap; unsigned int topDictModSIDs[NameDictValues::ValCount]; bool desubroutinize; CFF1SubrSubsetter subr_subsetter; }; 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); char RETURN_OP[1] = { OpCode_return }; const ByteStr NULL_SUBR (RETURN_OP, 1); 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); CFF1Subrs *dest = c.start_embed <CFF1Subrs> (); if (unlikely (dest == nullptr)) return false; if (unlikely (!dest->serialize (&c, plan.offsets.globalSubrsInfo.offSize, plan.subset_globalsubrs))) { DEBUG_MSG (SUBSET, nullptr, "failed to serialize global subroutines"); return false; } } /* 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 (unlikely (!hb_serialize_cff_fdselect (&c, glyphs.len, *acc.fdSelect, acc.fdCount, plan.subset_fdselect_format, plan.offsets.FDSelectInfo.size, plan.subset_fdselect_ranges))) { DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF subset 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.includes (i)) { PrivateDict *pd = c.start_embed<PrivateDict> (); if (unlikely (pd == nullptr)) return false; unsigned int priv_size = plan.fontdicts_mod[plan.fdmap[i]].privateDictInfo.size; bool result; CFFPrivateDict_OpSerializer privSzr (plan.desubroutinize, plan.drop_hints); /* N.B. local subrs immediately follows its corresponding private dict. i.e., subr offset == private dict size */ unsigned int subroffset = (plan.offsets.localSubrsInfos[i].size > 0)? priv_size: 0; result = pd->serialize (&c, acc.privateDicts[i], privSzr, subroffset); if (unlikely (!result)) { DEBUG_MSG (SUBSET, nullptr, "failed to serialize CFF Private Dict[%d]", i); return false; } if (plan.offsets.localSubrsInfos[i].size > 0) { CFF1Subrs *dest = c.start_embed <CFF1Subrs> (); if (unlikely (dest == nullptr)) return false; if (unlikely (!dest->serialize (&c, plan.offsets.localSubrsInfos[i].offSize, plan.subset_localsubrs[i]))) { DEBUG_MSG (SUBSET, nullptr, "failed to serialize local subroutines"); 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; }