/*

 * Copyright © 2014  Google, 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.

 *

 * Google Author(s): Behdad Esfahbod

 */

#ifndef HB_OT_CMAP_TABLE_HH

#define HB_OT_CMAP_TABLE_HH

#include "hb-ot-os2-table.hh"

#include "hb-ot-shaper-arabic-pua.hh"

#include "hb-open-type.hh"

#include "hb-set.hh"

#include "hb-cache.hh"

/*

 * cmap -- Character to Glyph Index Mapping

 * https://docs.microsoft.com/en-us/typography/opentype/spec/cmap

 */

#define HB_OT_TAG_cmap HB_TAG('c','m','a','p')

namespace OT {

static inline uint8_t unicode_to_macroman (hb_codepoint_t u)

{

  static const struct unicode_to_macroman_t

  {

    uint16_t unicode;

    uint8_t macroman;

  }

  mapping[] =

  {

    { 0x00A0, 0xCA },

    { 0x00A1, 0xC1 },

    { 0x00A2, 0xA2 },

    { 0x00A3, 0xA3 },

    { 0x00A5, 0xB4 },

    { 0x00A7, 0xA4 },

    { 0x00A8, 0xAC },

    { 0x00A9, 0xA9 },

    { 0x00AA, 0xBB },

    { 0x00AB, 0xC7 },

    { 0x00AC, 0xC2 },

    { 0x00AE, 0xA8 },

    { 0x00AF, 0xF8 },

    { 0x00B0, 0xA1 },

    { 0x00B1, 0xB1 },

    { 0x00B4, 0xAB },

    { 0x00B5, 0xB5 },

    { 0x00B6, 0xA6 },

    { 0x00B7, 0xE1 },

    { 0x00B8, 0xFC },

    { 0x00BA, 0xBC },

    { 0x00BB, 0xC8 },

    { 0x00BF, 0xC0 },

    { 0x00C0, 0xCB },

    { 0x00C1, 0xE7 },

    { 0x00C2, 0xE5 },

    { 0x00C3, 0xCC },

    { 0x00C4, 0x80 },

    { 0x00C5, 0x81 },

    { 0x00C6, 0xAE },

    { 0x00C7, 0x82 },

    { 0x00C8, 0xE9 },

    { 0x00C9, 0x83 },

    { 0x00CA, 0xE6 },

    { 0x00CB, 0xE8 },

    { 0x00CC, 0xED },

    { 0x00CD, 0xEA },

    { 0x00CE, 0xEB },

    { 0x00CF, 0xEC },

    { 0x00D1, 0x84 },

    { 0x00D2, 0xF1 },

    { 0x00D3, 0xEE },

    { 0x00D4, 0xEF },

    { 0x00D5, 0xCD },

    { 0x00D6, 0x85 },

    { 0x00D8, 0xAF },

    { 0x00D9, 0xF4 },

    { 0x00DA, 0xF2 },

    { 0x00DB, 0xF3 },

    { 0x00DC, 0x86 },

    { 0x00DF, 0xA7 },

    { 0x00E0, 0x88 },

    { 0x00E1, 0x87 },

    { 0x00E2, 0x89 },

    { 0x00E3, 0x8B },

    { 0x00E4, 0x8A },

    { 0x00E5, 0x8C },

    { 0x00E6, 0xBE },

    { 0x00E7, 0x8D },

    { 0x00E8, 0x8F },

    { 0x00E9, 0x8E },

    { 0x00EA, 0x90 },

    { 0x00EB, 0x91 },

    { 0x00EC, 0x93 },

    { 0x00ED, 0x92 },

    { 0x00EE, 0x94 },

    { 0x00EF, 0x95 },

    { 0x00F1, 0x96 },

    { 0x00F2, 0x98 },

    { 0x00F3, 0x97 },

    { 0x00F4, 0x99 },

    { 0x00F5, 0x9B },

    { 0x00F6, 0x9A },

    { 0x00F7, 0xD6 },

    { 0x00F8, 0xBF },

    { 0x00F9, 0x9D },

    { 0x00FA, 0x9C },

    { 0x00FB, 0x9E },

    { 0x00FC, 0x9F },

    { 0x00FF, 0xD8 },

    { 0x0131, 0xF5 },

    { 0x0152, 0xCE },

    { 0x0153, 0xCF },

    { 0x0178, 0xD9 },

    { 0x0192, 0xC4 },

    { 0x02C6, 0xF6 },

    { 0x02C7, 0xFF },

    { 0x02D8, 0xF9 },

    { 0x02D9, 0xFA },

    { 0x02DA, 0xFB },

    { 0x02DB, 0xFE },

    { 0x02DC, 0xF7 },

    { 0x02DD, 0xFD },

    { 0x03A9, 0xBD },

    { 0x03C0, 0xB9 },

    { 0x2013, 0xD0 },

    { 0x2014, 0xD1 },

    { 0x2018, 0xD4 },

    { 0x2019, 0xD5 },

    { 0x201A, 0xE2 },

    { 0x201C, 0xD2 },

    { 0x201D, 0xD3 },

    { 0x201E, 0xE3 },

    { 0x2020, 0xA0 },

    { 0x2021, 0xE0 },

    { 0x2022, 0xA5 },

    { 0x2026, 0xC9 },

    { 0x2030, 0xE4 },

    { 0x2039, 0xDC },

    { 0x203A, 0xDD },

    { 0x2044, 0xDA },

    { 0x20AC, 0xDB },

    { 0x2122, 0xAA },

    { 0x2202, 0xB6 },

    { 0x2206, 0xC6 },

    { 0x220F, 0xB8 },

    { 0x2211, 0xB7 },

    { 0x221A, 0xC3 },

    { 0x221E, 0xB0 },

    { 0x222B, 0xBA },

    { 0x2248, 0xC5 },

    { 0x2260, 0xAD },

    { 0x2264, 0xB2 },

    { 0x2265, 0xB3 },

    { 0x25CA, 0xD7 },

    { 0xF8FF, 0xF0 },

    { 0xFB01, 0xDE },

    { 0xFB02, 0xDF },

  };

  auto *c = hb_bsearch (u, mapping, ARRAY_LENGTH (mapping), sizeof (mapping[0]),

      _hb_cmp_operator<uint16_t, uint16_t>);

  return c ? c->macroman : 0;

}

Unexecuted instantiation: hb-face.cc:OT::unicode_to_macroman(unsigned int)

Unexecuted instantiation: hb-ot-face.cc:OT::unicode_to_macroman(unsigned int)

Unexecuted instantiation: hb-static.cc:OT::unicode_to_macroman(unsigned int)

Unexecuted instantiation: hb-subset.cc:OT::unicode_to_macroman(unsigned int)

Unexecuted instantiation: hb-ot-font.cc:OT::unicode_to_macroman(unsigned int)

Unexecuted instantiation: hb-subset-plan.cc:OT::unicode_to_macroman(unsigned int)

struct CmapSubtableFormat0

{

  bool get_glyph (hb_codepoint_t codepoint, hb_codepoint_t *glyph) const

  {

    hb_codepoint_t gid = codepoint < 256 ? glyphIdArray[codepoint] : 0;

    if (unlikely (!gid))

      return false;

    *glyph = gid;

    return true;

  }

  unsigned get_language () const

  {

    return language;

  }

  void collect_unicodes (hb_set_t *out) const

  {

    for (unsigned int i = 0; i < 256; i++)

      if (glyphIdArray[i])

  out->add (i);

  }

  void collect_mapping (hb_set_t *unicodes, /* OUT */

      hb_map_t *mapping /* OUT */) const

  {

    for (unsigned i = 0; i < 256; i++)

      if (glyphIdArray[i])

      {

  hb_codepoint_t glyph = glyphIdArray[i];

  unicodes->add (i);

  mapping->set (i, glyph);

      }

  }

  bool sanitize (hb_sanitize_context_t *c) const

  {

    TRACE_SANITIZE (this);

    return_trace (c->check_struct (this));

  }

  protected:

  HBUINT16  format;   /* Format number is set to 0. */

  HBUINT16  length;   /* Byte length of this subtable. */

  HBUINT16  language; /* Ignore. */

  HBUINT8 glyphIdArray[256];/* An array that maps character

         * code to glyph index values. */

  public:

  DEFINE_SIZE_STATIC (6 + 256);

};

struct CmapSubtableFormat4

{

  template<typename Iterator,

      typename Writer,

     hb_requires (hb_is_iterator (Iterator))>

  void to_ranges (Iterator it, Writer& range_writer)

  {

    hb_codepoint_t start_cp = 0, prev_run_start_cp = 0, run_start_cp = 0, end_cp = 0, last_gid = 0;

    int run_length = 0 , delta = 0, prev_delta = 0;

    enum {

      FIRST_SUB_RANGE,

      FOLLOWING_SUB_RANGE,

    } mode;

    while (it) {

      // Start a new range

      {

        const auto& pair = *it;

        start_cp = pair.first;

        prev_run_start_cp = start_cp;

        run_start_cp = start_cp;

        end_cp = start_cp;

        last_gid = pair.second;

        run_length = 1;

        prev_delta = 0;

      }

      delta = last_gid - start_cp;

      mode = FIRST_SUB_RANGE;

      it++;

      while (it) {

        // Process range

        const auto& pair = *it;

        hb_codepoint_t next_cp = pair.first;

        hb_codepoint_t next_gid = pair.second;

        if (next_cp != end_cp + 1) {

          // Current range is over, stop processing.

          break;

        }

        if (next_gid == last_gid + 1) {

          // The current run continues.

          end_cp = next_cp;

          run_length++;

          last_gid = next_gid;

          it++;

          continue;

        }

        // A new run is starting, decide if we want to commit the current run.

        int split_cost = (mode == FIRST_SUB_RANGE) ? 8 : 16;

        int run_cost = run_length * 2;

        if (run_cost >= split_cost) {

          commit_current_range(start_cp,

                               prev_run_start_cp,

                               run_start_cp,

                               end_cp,

                               delta,

                               prev_delta,

                               split_cost,

                               range_writer);

          start_cp = next_cp;

        }

        // Start the new run

        mode = FOLLOWING_SUB_RANGE;

        prev_run_start_cp = run_start_cp;

        run_start_cp = next_cp;

        end_cp = next_cp;

        prev_delta = delta;

        delta = next_gid - run_start_cp;

        run_length = 1;

        last_gid = next_gid;

        it++;

      }

      // Finalize range

      commit_current_range (start_cp,

                            prev_run_start_cp,

                            run_start_cp,

                            end_cp,

                            delta,

                            prev_delta,

                            8,

                            range_writer);

    }

    if (likely (end_cp != 0xFFFF)) {

      range_writer (0xFFFF, 0xFFFF, 1);

    }

  }

Unexecuted instantiation: void OT::CmapSubtableFormat4::to_ranges<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_find_segcount<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>)::Counter, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_find_segcount<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>)::Counter&)

Unexecuted instantiation: void OT::CmapSubtableFormat4::to_ranges<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)::Writer, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)::Writer&)

Unexecuted instantiation: void OT::CmapSubtableFormat4::to_ranges<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_find_segcount<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>)::Counter, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_find_segcount<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>)::Counter&)

Unexecuted instantiation: void OT::CmapSubtableFormat4::to_ranges<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)::Writer, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)::Writer&)

  /*

   * Writes the current range as either one or two ranges depending on what is most efficient.

   */

  template<typename Writer>

  void commit_current_range (hb_codepoint_t start,

                             hb_codepoint_t prev_run_start,

                             hb_codepoint_t run_start,

                             hb_codepoint_t end,

                             int run_delta,

                             int previous_run_delta,

                             int split_cost,

                             Writer& range_writer) {

    bool should_split = false;

    if (start < run_start && run_start < end) {

      int run_cost = (end - run_start + 1) * 2;

      if (run_cost >= split_cost) {

        should_split = true;

      }

    }

    // TODO(grieger): handle case where delta is legitimately 0, mark range offset array instead?

    if (should_split) {

      if (start == prev_run_start)

        range_writer (start, run_start - 1, previous_run_delta);

      else

        range_writer (start, run_start - 1, 0);

      range_writer (run_start, end, run_delta);

      return;

    }

    if (start == run_start) {

      // Range is only a run

      range_writer (start, end, run_delta);

      return;

    }

    // Write only a single non-run range.

    range_writer (start, end, 0);

  }

Unexecuted instantiation: void OT::CmapSubtableFormat4::commit_current_range<OT::CmapSubtableFormat4::serialize_find_segcount<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>)::Counter>(unsigned int, unsigned int, unsigned int, unsigned int, int, int, int, OT::CmapSubtableFormat4::serialize_find_segcount<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_array_t<hb_pair_t<unsigned int, unsigned int> const>)::Counter&)

Unexecuted instantiation: void OT::CmapSubtableFormat4::commit_current_range<OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)::Writer>(unsigned int, unsigned int, unsigned int, unsigned int, int, int, int, OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)::Writer&)

  template<typename Iterator,

     hb_requires (hb_is_iterator (Iterator))>

  unsigned serialize_find_segcount (Iterator it) {

    struct Counter {

      unsigned segcount = 0;

      void operator() (hb_codepoint_t start,

                       hb_codepoint_t end,

                       int delta) {

        segcount++;

      }

    } counter;

    to_ranges (+it, counter);

    return counter.segcount;

  }

  template<typename Iterator,

     hb_requires (hb_is_iterator (Iterator))>

  bool serialize_start_end_delta_arrays (hb_serialize_context_t *c,

                                         Iterator it,

                                         int segcount)

  {

    struct Writer {

      hb_serialize_context_t *serializer_;

      HBUINT16* end_code_;

      HBUINT16* start_code_;

      HBINT16* id_delta_;

      int index_;

      Writer(hb_serialize_context_t *serializer)

          : serializer_(serializer),

            end_code_(nullptr),

            start_code_(nullptr),

            id_delta_(nullptr),

            index_ (0) {}

      void operator() (hb_codepoint_t start,

                       hb_codepoint_t end,

                       int delta) {

        start_code_[index_] = start;

        end_code_[index_] = end;

        id_delta_[index_] = delta;

        index_++;

      }

    } writer(c);

    writer.end_code_ = c->allocate_size<HBUINT16> (HBUINT16::static_size * segcount, false);

    (void) c->allocate_size<HBUINT16> (2); // padding

    writer.start_code_ = c->allocate_size<HBUINT16> (HBUINT16::static_size * segcount, false);

    writer.id_delta_ = c->allocate_size<HBINT16> (HBINT16::static_size * segcount, false);

    if (unlikely (!writer.end_code_ || !writer.start_code_ || !writer.id_delta_)) return false;

    to_ranges (+it, writer);

    return true;

  }

Unexecuted instantiation: bool OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)

Unexecuted instantiation: bool OT::CmapSubtableFormat4::serialize_start_end_delta_arrays<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, int)

  template<typename Iterator,

          hb_requires (hb_is_iterator (Iterator))>

  HBUINT16* serialize_rangeoffset_glyid (hb_serialize_context_t *c,

                                         Iterator it,

           HBUINT16 *endCode,

           HBUINT16 *startCode,

           HBINT16 *idDelta,

           unsigned segcount)

  {

    hb_map_t cp_to_gid { it };

    HBUINT16 *idRangeOffset = c->allocate_size<HBUINT16> (HBUINT16::static_size * segcount);

    if (unlikely (!c->check_success (idRangeOffset))) return nullptr;

    if (unlikely ((char *)idRangeOffset - (char *)idDelta != (int) segcount * (int) HBINT16::static_size)) return nullptr;

    for (unsigned i : + hb_range (segcount)

          | hb_filter ([&] (const unsigned _) { return idDelta[_] == 0; }))

    {

      idRangeOffset[i] = 2 * (c->start_embed<HBUINT16> () - idRangeOffset - i);

      for (hb_codepoint_t cp = startCode[i]; cp <= endCode[i]; cp++)

      {

        HBUINT16 gid;

        gid = cp_to_gid[cp];

        c->copy<HBUINT16> (gid);

      }

    }

    return idRangeOffset;

  }

Unexecuted instantiation: OT::IntType<unsigned short, 2u>* OT::CmapSubtableFormat4::serialize_rangeoffset_glyid<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::IntType<unsigned short, 2u>*, OT::IntType<unsigned short, 2u>*, OT::IntType<short, 2u>*, unsigned int)

Unexecuted instantiation: OT::IntType<unsigned short, 2u>* OT::CmapSubtableFormat4::serialize_rangeoffset_glyid<hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, (void*)0>(hb_serialize_context_t*, hb_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::IntType<unsigned short, 2u>*, OT::IntType<unsigned short, 2u>*, OT::IntType<short, 2u>*, unsigned int)

  template<typename Iterator,

     hb_requires (hb_is_iterator (Iterator))>

  void serialize (hb_serialize_context_t *c,

      Iterator it)

  {

    auto format4_iter =

    + it

    | hb_filter ([&] (const hb_codepoint_pair_t _)

     { return _.first <= 0xFFFF; })

Unexecuted instantiation: hb-subset.cc:OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>)::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}::operator()(hb_pair_t<unsigned int, unsigned int>) const

Unexecuted instantiation: hb-subset.cc:OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>)::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}::operator()(hb_pair_t<unsigned int, unsigned int>) const

    ;

    if (!format4_iter) return;

    unsigned table_initpos = c->length ();

    if (unlikely (!c->extend_min (this))) return;

    this->format = 4;

    hb_vector_t<hb_codepoint_pair_t> cp_to_gid {

      format4_iter

    };

    //serialize endCode[], startCode[], idDelta[]

    HBUINT16* endCode = c->start_embed<HBUINT16> ();

    unsigned segcount = serialize_find_segcount (cp_to_gid.iter());

    if (unlikely (!serialize_start_end_delta_arrays (c, cp_to_gid.iter(), segcount)))

      return;

    HBUINT16 *startCode = endCode + segcount + 1;

    HBINT16 *idDelta = ((HBINT16*)startCode) + segcount;

    HBUINT16 *idRangeOffset = serialize_rangeoffset_glyid (c,

                                                           cp_to_gid.iter (),

                                                           endCode,

                                                           startCode,

                                                           idDelta,

                                                           segcount);

    if (unlikely (!c->check_success (idRangeOffset))) return;

    this->length = c->length () - table_initpos;

    if ((long long) this->length != (long long) c->length () - table_initpos)

    {

      // Length overflowed. Discard the current object before setting the error condition, otherwise

      // discard is a noop which prevents the higher level code from reverting the serializer to the

      // pre-error state in cmap4 overflow handling code.

      c->pop_discard ();

      c->err (HB_SERIALIZE_ERROR_INT_OVERFLOW);

      return;

    }

    this->segCountX2 = segcount * 2;

    this->entrySelector = hb_max (1u, hb_bit_storage (segcount)) - 1;

    this->searchRange = 2 * (1u << this->entrySelector);

    this->rangeShift = segcount * 2 > this->searchRange

           ? 2 * segcount - this->searchRange

           : 0;

  }

Unexecuted instantiation: hb-face.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>)

Unexecuted instantiation: hb-face.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>)

Unexecuted instantiation: hb-ot-face.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>)

Unexecuted instantiation: hb-ot-face.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>)

Unexecuted instantiation: hb-static.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>)

Unexecuted instantiation: hb-static.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>)

Unexecuted instantiation: hb-subset.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>)

Unexecuted instantiation: hb-subset.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>)

Unexecuted instantiation: hb-ot-font.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_6 const&)0>)

Unexecuted instantiation: hb-ot-font.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>, ($_6 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_6 const&, (void*)0>)

Unexecuted instantiation: hb-subset-plan.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_5 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_5 const&)0>, ($_5 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_5 const&, (void*)0>, hb_set_t const&, $_8 const&, ($_5 const&)0>)

Unexecuted instantiation: hb-subset-plan.cc:void OT::CmapSubtableFormat4::serialize<hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_5 const&, (void*)0>, ($_5 const&)0>(hb_serialize_context_t*, hb_filter_iter_t<hb_sorted_array_t<hb_pair_t<unsigned int, unsigned int> const>, OT::cmap::subset(hb_subset_context_t*) const::{lambda(hb_pair_t<unsigned int, unsigned int>)#1}, $_5 const&, (void*)0>)

  unsigned get_language () const

  {

    return language;

  }

  struct accelerator_t

  {

    accelerator_t () {}

    accelerator_t (const CmapSubtableFormat4 *subtable) { init (subtable); }

    void init (const CmapSubtableFormat4 *subtable)

    {

      segCount = subtable->segCountX2 / 2;

      endCount = subtable->values.arrayZ;

      startCount = endCount + segCount + 1;

      idDelta = startCount + segCount;

      idRangeOffset = idDelta + segCount;

      glyphIdArray = idRangeOffset + segCount;

      glyphIdArrayLength = (subtable->length - 16 - 8 * segCount) / 2;

    }

    bool get_glyph (hb_codepoint_t codepoint, hb_codepoint_t *glyph) const

    {

      struct CustomRange

      {

  int cmp (hb_codepoint_t k,

     unsigned distance) const

  {

    if (k > last) return +1;

    if (k < (&last)[distance]/*first*/) return -1;

    return 0;

  }

  HBUINT16 last;

      };

      const HBUINT16 *found = hb_bsearch (codepoint,

            this->endCount,

            this->segCount,

            sizeof (CustomRange),

            _hb_cmp_method<hb_codepoint_t, CustomRange, unsigned>,

            this->segCount + 1);

      if (unlikely (!found))

  return false;

      unsigned int i = found - endCount;

      hb_codepoint_t gid;

      unsigned int rangeOffset = this->idRangeOffset[i];

      if (rangeOffset == 0)

  gid = codepoint + this->idDelta[i];

      else

      {

  /* Somebody has been smoking... */

  unsigned int index = rangeOffset / 2 + (codepoint - this->startCount[i]) + i - this->segCount;

  if (unlikely (index >= this->glyphIdArrayLength))

    return false;

  gid = this->glyphIdArray[index];

  if (unlikely (!gid))

    return false;

  gid += this->idDelta[i];

      }

      gid &= 0xFFFFu;

      if (unlikely (!gid))

  return false;

      *glyph = gid;

      return true;

    }

    HB_INTERNAL static bool get_glyph_func (const void *obj, hb_codepoint_t codepoint, hb_codepoint_t *glyph)

    { return ((const accelerator_t *) obj)->get_glyph (codepoint, glyph); }

    void collect_unicodes (hb_set_t *out) const

    {

      unsigned int count = this->segCount;

      if (count && this->startCount[count - 1] == 0xFFFFu)

  count--; /* Skip sentinel segment. */

      for (unsigned int i = 0; i < count; i++)

      {

  hb_codepoint_t start = this->startCount[i];

  hb_codepoint_t end = this->endCount[i];

  unsigned int rangeOffset = this->idRangeOffset[i];

        out->add_range(start, end);

  if (rangeOffset == 0)

  {

    for (hb_codepoint_t codepoint = start; codepoint <= end; codepoint++)

    {

      hb_codepoint_t gid = (codepoint + this->idDelta[i]) & 0xFFFFu;

      if (unlikely (!gid))

              out->del(codepoint);

    }

  }

  else

  {

    for (hb_codepoint_t codepoint = start; codepoint <= end; codepoint++)

    {

      unsigned int index = rangeOffset / 2 + (codepoint - this->startCount[i]) + i - this->segCount;

      if (unlikely (index >= this->glyphIdArrayLength))

            {

              out->del_range (codepoint, end);

        break;

            }

      hb_codepoint_t gid = this->glyphIdArray[index];

      if (unlikely (!gid))

              out->del(codepoint);

    }

  }

      }

    }

    void collect_mapping (hb_set_t *unicodes, /* OUT */

        hb_map_t *mapping /* OUT */) const

    {

      // TODO(grieger): optimize similar to collect_unicodes

      // (ie. use add_range())

      unsigned count = this->segCount;

      if (count && this->startCount[count - 1] == 0xFFFFu)

  count--; /* Skip sentinel segment. */

      for (unsigned i = 0; i < count; i++)

      {

  hb_codepoint_t start = this->startCount[i];

  hb_codepoint_t end = this->endCount[i];

  unsigned rangeOffset = this->idRangeOffset[i];

  if (rangeOffset == 0)

  {

    for (hb_codepoint_t codepoint = start; codepoint <= end; codepoint++)

    {

      hb_codepoint_t gid = (codepoint + this->idDelta[i]) & 0xFFFFu;

      if (unlikely (!gid))

        continue;

      unicodes->add (codepoint);

      mapping->set (codepoint, gid);

    }

  }

  else

  {

    for (hb_codepoint_t codepoint = start; codepoint <= end; codepoint++)

    {

      unsigned index = rangeOffset / 2 + (codepoint - this->startCount[i]) + i - this->segCount;

      if (unlikely (index >= this->glyphIdArrayLength))

        break;

      hb_codepoint_t gid = this->glyphIdArray[index];

      if (unlikely (!gid))

        continue;

      unicodes->add (codepoint);

      mapping->set (codepoint, gid);

    }

  }

      }

    }

    const HBUINT16 *endCount;

    const HBUINT16 *startCount;

    const HBUINT16 *idDelta;

    const HBUINT16 *idRangeOffset;

    const HBUINT16 *glyphIdArray;

    unsigned int segCount;

    unsigned int glyphIdArrayLength;

  };

  bool get_glyph (hb_codepoint_t codepoint, hb_codepoint_t *glyph) const

  {

    accelerator_t accel (this);

    return accel.get_glyph_func (&accel, codepoint, glyph);

  }

  void collect_unicodes (hb_set_t *out) const

  {

    accelerator_t accel (this);

    accel.collect_unicodes (out);

  }

  void collect_mapping (hb_set_t *unicodes, /* OUT */

      hb_map_t *mapping /* OUT */) const

  {

    accelerator_t accel (this);

    accel.collect_mapping (unicodes, mapping);

  }

  bool sanitize (hb_sanitize_context_t *c) const

  {

    TRACE_SANITIZE (this);

    if (unlikely (!c->check_struct (this)))

      return_trace (false);

    hb_barrier ();

    if (unlikely (!c->check_range (this, length)))

    {

      /* Some broken fonts have too long of a "length" value.

       * If that is the case, just change the value to truncate

       * the subtable at the end of the blob. */

      uint16_t new_length = (uint16_t) hb_min ((uintptr_t) 65535,

                 (uintptr_t) (c->end -

                  (char *) this));

      if (!c->try_set (&length, new_length))

  return_trace (false);

    }

    return_trace (16 + 4 * (unsigned int) segCountX2 <= length);

  }

  protected:

  HBUINT16  format;   /* Format number is set to 4. */

  HBUINT16  length;   /* This is the length in bytes of the

         * subtable. */

  HBUINT16  language; /* Ignore. */

  HBUINT16  segCountX2; /* 2 x segCount. */

  HBUINT16  searchRange;  /* 2 * (2**floor(log2(segCount))) */

  HBUINT16  entrySelector;  /* log2(searchRange/2) */

  HBUINT16  rangeShift; /* 2 x segCount - searchRange */

  UnsizedArrayOf<HBUINT16>

    values;

#if 0

  HBUINT16  endCount[segCount]; /* End characterCode for each segment,

           * last=0xFFFFu. */

  HBUINT16  reservedPad;    /* Set to 0. */

  HBUINT16  startCount[segCount]; /* Start character code for each segment. */

  HBINT16   idDelta[segCount];  /* Delta for all character codes in segment. */

  HBUINT16  idRangeOffset[segCount];/* Offsets into glyphIdArray or 0 */

  UnsizedArrayOf<HBUINT16>

    glyphIdArray; /* Glyph index array (arbitrary length) */

#endif

  public:

  DEFINE_SIZE_ARRAY (14, values);

};

struct CmapSubtableLongGroup

{

  friend struct CmapSubtableFormat12;

  friend struct CmapSubtableFormat13;

  template<typename U>

  friend struct CmapSubtableLongSegmented;

  friend struct cmap;

  int cmp (hb_codepoint_t codepoint) const

  {

    if (codepoint < startCharCode) return -1;

    if (codepoint > endCharCode)   return +1;

    return 0;

  }

  bool sanitize (hb_sanitize_context_t *c) const

  {

    TRACE_SANITIZE (this);

    return_trace (c->check_struct (this));

  }

  private:

  HBUINT32    startCharCode;  /* First character code in this group. */

  HBUINT32    endCharCode;  /* Last character code in this group. */

  HBUINT32    glyphID;  /* Glyph index; interpretation depends on

           * subtable format. */

  public:

  DEFINE_SIZE_STATIC (12);

};

DECLARE_NULL_NAMESPACE_BYTES (OT, CmapSubtableLongGroup);

template <typename UINT>

struct CmapSubtableTrimmed

{

  bool get_glyph (hb_codepoint_t codepoint, hb_codepoint_t *glyph) const

  {

    /* Rely on our implicit array bound-checking. */

    hb_codepoint_t gid = glyphIdArray[codepoint - startCharCode];

    if (unlikely (!gid))

      return false;

    *glyph = gid;

    return true;

  }

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned short, 2u> >::get_glyph(unsigned int, unsigned int*) const

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned int, 4u> >::get_glyph(unsigned int, unsigned int*) const

  unsigned get_language () const

  {

    return language;

  }

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned short, 2u> >::get_language() const

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned int, 4u> >::get_language() const

  void collect_unicodes (hb_set_t *out) const

  {

    hb_codepoint_t start = startCharCode;

    unsigned int count = glyphIdArray.len;

    for (unsigned int i = 0; i < count; i++)

      if (glyphIdArray[i])

  out->add (start + i);

  }

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned short, 2u> >::collect_unicodes(hb_set_t*) const

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned int, 4u> >::collect_unicodes(hb_set_t*) const

  void collect_mapping (hb_set_t *unicodes, /* OUT */

      hb_map_t *mapping /* OUT */) const

  {

    hb_codepoint_t start_cp = startCharCode;

    unsigned count = glyphIdArray.len;

    for (unsigned i = 0; i < count; i++)

      if (glyphIdArray[i])

      {

  hb_codepoint_t unicode = start_cp + i;

  hb_codepoint_t glyphid = glyphIdArray[i];

  unicodes->add (unicode);

  mapping->set (unicode, glyphid);

      }

  }

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned short, 2u> >::collect_mapping(hb_set_t*, hb_map_t*) const

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned int, 4u> >::collect_mapping(hb_set_t*, hb_map_t*) const

  bool sanitize (hb_sanitize_context_t *c) const

  {

    TRACE_SANITIZE (this);

    return_trace (c->check_struct (this) && glyphIdArray.sanitize (c));

  }

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned short, 2u> >::sanitize(hb_sanitize_context_t*) const

Unexecuted instantiation: OT::CmapSubtableTrimmed<OT::IntType<unsigned int, 4u> >::sanitize(hb_sanitize_context_t*) const

  protected:

  UINT    formatReserved; /* Subtable format and (maybe) padding. */

  UINT    length;   /* Byte length of this subtable. */

  UINT    language; /* Ignore. */

  UINT    startCharCode;  /* First character code covered. */

  ArrayOf<HBGlyphID16, UINT>

    glyphIdArray; /* Array of glyph index values for character

         * codes in the range. */

  public:

  DEFINE_SIZE_ARRAY (5 * sizeof (UINT), glyphIdArray);

};

struct CmapSubtableFormat6  : CmapSubtableTrimmed<HBUINT16> {};

struct CmapSubtableFormat10 : CmapSubtableTrimmed<HBUINT32> {};

template <typename T>

struct CmapSubtableLongSegmented

{

  friend struct cmap;

  bool get_glyph (hb_codepoint_t codepoint, hb_codepoint_t *glyph) const

  {

    hb_codepoint_t gid = T::group_get_glyph (groups.bsearch (codepoint), codepoint);

    if (unlikely (!gid))

      return false;

    *glyph = gid;

    return true;

  }

Unexecuted instantiation: OT::CmapSubtableLongSegmented<OT::CmapSubtableFormat12>::get_glyph(unsigned int, unsigned int*) const

Unexecuted instantiation: OT::CmapSubtableLongSegmented<OT::CmapSubtableFormat13>::get_glyph(unsigned int, unsigned int*) const

  unsigned get_language () const

  {

    return language;

  }

Unexecuted instantiation: OT::CmapSubtableLongSegmented<OT::CmapSubtableFormat12>::get_language() const

Unexecuted instantiation: OT::CmapSubtableLongSegmented<OT::CmapSubtableFormat13>::get_language() const

  void collect_unicodes (hb_set_t *out, unsigned int num_glyphs) const

  {

    for (unsigned int i = 0; i < this->groups.len; i++)

    {

      hb_codepoint_t start = this->groups[i].startCharCode;

      hb_codepoint_t end = hb_min ((hb_codepoint_t) this->groups[i].endCharCode,

           (hb_codepoint_t) HB_UNICODE_MAX);

      hb_codepoint_t gid = this->groups[i].glyphID;

      if (!gid)

      {

  /* Intention is: if (hb_is_same (T, CmapSubtableFormat13)) continue; */

  if (! T::group_get_glyph (this->groups[i], end)) continue;

  start++;

  gid++;

      }

      if (unlikely ((unsigned int) gid >= num_glyphs)) continue;

      if (unlikely ((unsigned int) (gid + end - start) >= num_glyphs))

  end = start + (hb_codepoint_t) num_glyphs - gid;

      out->add_range (start, hb_min (end, 0x10FFFFu));

    }

  }

Unexecuted instantiation: OT::CmapSubtableLongSegmented<OT::CmapSubtableFormat12>::collect_unicodes(hb_set_t*, unsigned int) const

Unexecuted instantiation: OT::CmapSubtableLongSegmented<OT::CmapSubtableFormat13>::collect_unicodes(hb_set_t*, unsigned int) const

  void collect_mapping (hb_set_t *unicodes, /* OUT */

      hb_map_t *mapping, /* OUT */

      unsigned num_glyphs) const

  {

    hb_codepoint_t last_end = 0;

    unsigned count = this->groups.len;

    for (unsigned i = 0; i < count; i++)

    {

      hb_codepoint_t start = this->groups.arrayZ[i].startCharCode;

      hb_codepoint_t end = hb_min ((hb_codepoint_t) this->groups.arrayZ[i].endCharCode,

           (hb_codepoint_t) HB_UNICODE_MAX);

      if (unlikely (start > end || start < last_end)) {