JDK14/Java14源码在线阅读

/*
 * Copyright 漏 2018  Ebrahim Byagowi
 * Copyright 漏 2018  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_AAT_LAYOUT_KERX_TABLE_HH
#define HB_AAT_LAYOUT_KERX_TABLE_HH

#include "hb-kern.hh"
#include "hb-aat-layout-ankr-table.hh"

/*
 * kerx -- Extended Kerning
 * https://developer.apple.com/fonts/TrueType-Reference-Manual/RM06/Chap6kerx.html
 */
#define HB_AAT_TAG_kerx HB_TAG('k','e','r','x')


namespace AAT {

using namespace OT;


static inline int
kerxTupleKern (int value,
               unsigned int tupleCount,
               const void *base,
               hb_aat_apply_context_t *c)
{
  if (likely (!tupleCount || !c)) return value;

  unsigned int offset = value;
  const FWORD *pv = &StructAtOffset<FWORD> (base, offset);
  if (unlikely (!c->sanitizer.check_array (pv, tupleCount))) return 0;
  return *pv;
}


struct hb_glyph_pair_t
{
  hb_codepoint_t left;
  hb_codepoint_t right;
};

struct KernPair
{
  int get_kerning () const { return value; }

  int cmp (const hb_glyph_pair_t &o) const
  {
    int ret = left.cmp (o.left);
    if (ret) return ret;
    return right.cmp (o.right);
  }

  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    return_trace (c->check_struct (this));
  }

  protected:
  GlyphID       left;
  GlyphID       right;
  FWORD         value;
  public:
  DEFINE_SIZE_STATIC (6);
};

template <typename KernSubTableHeader>
struct KerxSubTableFormat0
{
  int get_kerning (hb_codepoint_t left, hb_codepoint_t right,
                   hb_aat_apply_context_t *c = nullptr) const
  {
    hb_glyph_pair_t pair = {left, right};
    int v = pairs.bsearch (pair).get_kerning ();
    return kerxTupleKern (v, header.tuple_count (), this, c);
  }

  bool apply (hb_aat_apply_context_t *c) const
  {
    TRACE_APPLY (this);

    if (!c->plan->requested_kerning)
      return false;

    if (header.coverage & header.Backwards)
      return false;

    accelerator_t accel (*this, c);
    hb_kern_machine_t<accelerator_t> machine (accel, header.coverage & header.CrossStream);
    machine.kern (c->font, c->buffer, c->plan->kern_mask);

    return_trace (true);
  }

  struct accelerator_t
  {
    const KerxSubTableFormat0 &table;
    hb_aat_apply_context_t *c;

    accelerator_t (const KerxSubTableFormat0 &table_,
                   hb_aat_apply_context_t *c_) :
                     table (table_), c (c_) {}

    int get_kerning (hb_codepoint_t left, hb_codepoint_t right) const
    { return table.get_kerning (left, right, c); }
  };


  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    return_trace (likely (pairs.sanitize (c)));
  }

  protected:
  KernSubTableHeader    header;
  BinSearchArrayOf<KernPair, typename KernSubTableHeader::Types::HBUINT>
                        pairs;  /* Sorted kern records. */
  public:
  DEFINE_SIZE_ARRAY (KernSubTableHeader::static_size + 16, pairs);
};


template <bool extended>
struct Format1Entry;

template <>
struct Format1Entry<true>
{
  enum Flags
  {
    Push                = 0x8000,       /* If set, push this glyph on the kerning stack. */
    DontAdvance         = 0x4000,       /* If set, don't advance to the next glyph
                                         * before going to the new state. */
    Reset               = 0x2000,       /* If set, reset the kerning data (clear the stack) */
    Reserved            = 0x1FFF,       /* Not used; set to 0. */
  };

  struct EntryData
  {
    HBUINT16    kernActionIndex;/* Index into the kerning value array. If
                                 * this index is 0xFFFF, then no kerning
                                 * is to be performed. */
    public:
    DEFINE_SIZE_STATIC (2);
  };

  static bool performAction (const Entry<EntryData> &entry)
  { return entry.data.kernActionIndex != 0xFFFF; }

  static unsigned int kernActionIndex (const Entry<EntryData> &entry)
  { return entry.data.kernActionIndex; }
};
template <>
struct Format1Entry<false>
{
  enum Flags
  {
    Push                = 0x8000,       /* If set, push this glyph on the kerning stack. */
    DontAdvance         = 0x4000,       /* If set, don't advance to the next glyph
                                         * before going to the new state. */
    Offset              = 0x3FFF,       /* Byte offset from beginning of subtable to the
                                         * value table for the glyphs on the kerning stack. */

    Reset               = 0x0000,       /* Not supported? */
  };

  typedef void EntryData;

  static bool performAction (const Entry<EntryData> &entry)
  { return entry.flags & Offset; }

  static unsigned int kernActionIndex (const Entry<EntryData> &entry)
  { return entry.flags & Offset; }
};

template <typename KernSubTableHeader>
struct KerxSubTableFormat1
{
  typedef typename KernSubTableHeader::Types Types;
  typedef typename Types::HBUINT HBUINT;

  typedef Format1Entry<Types::extended> Format1EntryT;
  typedef typename Format1EntryT::EntryData EntryData;

  struct driver_context_t
  {
    static constexpr bool in_place = true;
    enum
    {
      DontAdvance       = Format1EntryT::DontAdvance,
    };

    driver_context_t (const KerxSubTableFormat1 *table_,
                      hb_aat_apply_context_t *c_) :
        c (c_),
        table (table_),
        /* Apparently the offset kernAction is from the beginning of the state-machine,
         * similar to offsets in morx table, NOT from beginning of this table, like
         * other subtables in kerx.  Discovered via testing. */
        kernAction (&table->machine + table->kernAction),
        depth (0),
        crossStream (table->header.coverage & table->header.CrossStream) {}

    bool is_actionable (StateTableDriver<Types, EntryData> *driver HB_UNUSED,
                        const Entry<EntryData> &entry)
    {
      return Format1EntryT::performAction (entry);
    }
    void transition (StateTableDriver<Types, EntryData> *driver,
                     const Entry<EntryData> &entry)
    {
      hb_buffer_t *buffer = driver->buffer;
      unsigned int flags = entry.flags;

      if (flags & Format1EntryT::Reset)
        depth = 0;

      if (flags & Format1EntryT::Push)
      {
        if (likely (depth < ARRAY_LENGTH (stack)))
          stack[depth++] = buffer->idx;
        else
          depth = 0; /* Probably not what CoreText does, but better? */
      }

      if (Format1EntryT::performAction (entry) && depth)
      {
        unsigned int tuple_count = MAX (1u, table->header.tuple_count ());

        unsigned int kern_idx = Format1EntryT::kernActionIndex (entry);
        kern_idx = Types::byteOffsetToIndex (kern_idx, &table->machine, kernAction.arrayZ);
        const FWORD *actions = &kernAction[kern_idx];
        if (!c->sanitizer.check_array (actions, depth, tuple_count))
        {
          depth = 0;
          return;
        }

        hb_mask_t kern_mask = c->plan->kern_mask;

        /* From Apple 'kern' spec:
         * "Each pops one glyph from the kerning stack and applies the kerning value to it.
         * The end of the list is marked by an odd value... */
        bool last = false;
        while (!last && depth)
        {
          unsigned int idx = stack[--depth];
          int v = *actions;
          actions += tuple_count;
          if (idx >= buffer->len) continue;

          /* "The end of the list is marked by an odd value..." */
          last = v & 1;
          v &= ~1;

          hb_glyph_position_t &o = buffer->pos[idx];

          /* Testing shows that CoreText only applies kern (cross-stream or not)
           * if none has been applied by previous subtables.  That is, it does
           * NOT seem to accumulate as otherwise implied by specs. */

          /* The following flag is undocumented in the spec, but described
           * in the 'kern' table example. */
          if (v == -0x8000)
          {
            o.attach_type() = ATTACH_TYPE_NONE;
            o.attach_chain() = 0;
            o.x_offset = o.y_offset = 0;
          }
          else if (HB_DIRECTION_IS_HORIZONTAL (buffer->props.direction))
          {
            if (crossStream)
            {
              if (buffer->pos[idx].attach_type() && !buffer->pos[idx].y_offset)
              {
                o.y_offset = c->font->em_scale_y (v);
                buffer->scratch_flags |= HB_BUFFER_SCRATCH_FLAG_HAS_GPOS_ATTACHMENT;
              }
            }
            else if (buffer->info[idx].mask & kern_mask)
            {
              if (!buffer->pos[idx].x_offset)
              {
                buffer->pos[idx].x_advance += c->font->em_scale_x (v);
                buffer->pos[idx].x_offset += c->font->em_scale_x (v);
              }
            }
          }
          else
          {
            if (crossStream)
            {
              /* CoreText doesn't do crossStream kerning in vertical.  We do. */
              if (buffer->pos[idx].attach_type() && !buffer->pos[idx].x_offset)
              {
                o.x_offset = c->font->em_scale_x (v);
                buffer->scratch_flags |= HB_BUFFER_SCRATCH_FLAG_HAS_GPOS_ATTACHMENT;
              }
            }
            else if (buffer->info[idx].mask & kern_mask)
            {
              if (!buffer->pos[idx].y_offset)
              {
                buffer->pos[idx].y_advance += c->font->em_scale_y (v);
                buffer->pos[idx].y_offset += c->font->em_scale_y (v);
              }
            }
          }
        }
      }
    }

    private:
    hb_aat_apply_context_t *c;
    const KerxSubTableFormat1 *table;
    const UnsizedArrayOf<FWORD> &kernAction;
    unsigned int stack[8];
    unsigned int depth;
    bool crossStream;
  };

  bool apply (hb_aat_apply_context_t *c) const
  {
    TRACE_APPLY (this);

    if (!c->plan->requested_kerning &&
        !(header.coverage & header.CrossStream))
      return false;

    driver_context_t dc (this, c);

    StateTableDriver<Types, EntryData> driver (machine, c->buffer, c->font->face);
    driver.drive (&dc);

    return_trace (true);
  }

  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    /* The rest of array sanitizations are done at run-time. */
    return_trace (likely (c->check_struct (this) &&
                          machine.sanitize (c)));
  }

  protected:
  KernSubTableHeader                            header;
  StateTable<Types, EntryData>                  machine;
  NNOffsetTo<UnsizedArrayOf<FWORD>, HBUINT>     kernAction;
  public:
  DEFINE_SIZE_STATIC (KernSubTableHeader::static_size + 5 * sizeof (HBUINT));
};

template <typename KernSubTableHeader>
struct KerxSubTableFormat2
{
  typedef typename KernSubTableHeader::Types Types;
  typedef typename Types::HBUINT HBUINT;

  int get_kerning (hb_codepoint_t left, hb_codepoint_t right,
                   hb_aat_apply_context_t *c) const
  {
    unsigned int num_glyphs = c->sanitizer.get_num_glyphs ();
    unsigned int l = (this+leftClassTable).get_class (left, num_glyphs, 0);
    unsigned int r = (this+rightClassTable).get_class (right, num_glyphs, 0);

    const UnsizedArrayOf<FWORD> &arrayZ = this+array;
    unsigned int kern_idx = l + r;
    kern_idx = Types::offsetToIndex (kern_idx, this, &arrayZ);
    const FWORD *v = &arrayZ[kern_idx];
    if (unlikely (!v->sanitize (&c->sanitizer))) return 0;

    return kerxTupleKern (*v, header.tuple_count (), this, c);
  }

  bool apply (hb_aat_apply_context_t *c) const
  {
    TRACE_APPLY (this);

    if (!c->plan->requested_kerning)
      return false;

    if (header.coverage & header.Backwards)
      return false;

    accelerator_t accel (*this, c);
    hb_kern_machine_t<accelerator_t> machine (accel, header.coverage & header.CrossStream);
    machine.kern (c->font, c->buffer, c->plan->kern_mask);

    return_trace (true);
  }

  struct accelerator_t
  {
    const KerxSubTableFormat2 &table;
    hb_aat_apply_context_t *c;

    accelerator_t (const KerxSubTableFormat2 &table_,
                   hb_aat_apply_context_t *c_) :
                     table (table_), c (c_) {}

    int get_kerning (hb_codepoint_t left, hb_codepoint_t right) const
    { return table.get_kerning (left, right, c); }
  };

  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    return_trace (likely (c->check_struct (this) &&
                          leftClassTable.sanitize (c, this) &&
                          rightClassTable.sanitize (c, this) &&
                          c->check_range (this, array)));
  }

  protected:
  KernSubTableHeader    header;
  HBUINT                rowWidth;       /* The width, in bytes, of a row in the table. */
  NNOffsetTo<typename Types::ClassTypeWide, HBUINT>
                        leftClassTable; /* Offset from beginning of this subtable to
                                         * left-hand class table. */
  NNOffsetTo<typename Types::ClassTypeWide, HBUINT>
                        rightClassTable;/* Offset from beginning of this subtable to
                                         * right-hand class table. */
  NNOffsetTo<UnsizedArrayOf<FWORD>, HBUINT>
                         array;         /* Offset from beginning of this subtable to
                                         * the start of the kerning array. */
  public:
  DEFINE_SIZE_STATIC (KernSubTableHeader::static_size + 4 * sizeof (HBUINT));
};

template <typename KernSubTableHeader>
struct KerxSubTableFormat4
{
  typedef ExtendedTypes Types;

  struct EntryData
  {
    HBUINT16    ankrActionIndex;/* Either 0xFFFF (for no action) or the index of
                                 * the action to perform. */
    public:
    DEFINE_SIZE_STATIC (2);
  };

  struct driver_context_t
  {
    static constexpr bool in_place = true;
    enum Flags
    {
      Mark              = 0x8000,       /* If set, remember this glyph as the marked glyph. */
      DontAdvance       = 0x4000,       /* If set, don't advance to the next glyph before
                                         * going to the new state. */
      Reserved          = 0x3FFF,       /* Not used; set to 0. */
    };

    enum SubTableFlags
    {
      ActionType        = 0xC0000000,   /* A two-bit field containing the action type. */
      Unused            = 0x3F000000,   /* Unused - must be zero. */
      Offset            = 0x00FFFFFF,   /* Masks the offset in bytes from the beginning
                                         * of the subtable to the beginning of the control
                                         * point table. */
    };

    driver_context_t (const KerxSubTableFormat4 *table,
                             hb_aat_apply_context_t *c_) :
        c (c_),
        action_type ((table->flags & ActionType) >> 30),
        ankrData ((HBUINT16 *) ((const char *) &table->machine + (table->flags & Offset))),
        mark_set (false),
        mark (0) {}

    bool is_actionable (StateTableDriver<Types, EntryData> *driver HB_UNUSED,
                        const Entry<EntryData> &entry)
    {
      return entry.data.ankrActionIndex != 0xFFFF;
    }
    void transition (StateTableDriver<Types, EntryData> *driver,
                     const Entry<EntryData> &entry)
    {
      hb_buffer_t *buffer = driver->buffer;

      if (mark_set && entry.data.ankrActionIndex != 0xFFFF && buffer->idx < buffer->len)
      {
        hb_glyph_position_t &o = buffer->cur_pos();
        switch (action_type)
        {
          case 0: /* Control Point Actions.*/
          {
            /* indexed into glyph outline. */
            const HBUINT16 *data = &ankrData[entry.data.ankrActionIndex];
            if (!c->sanitizer.check_array (data, 2)) return;
            HB_UNUSED unsigned int markControlPoint = *data++;
            HB_UNUSED unsigned int currControlPoint = *data++;
            hb_position_t markX = 0;
            hb_position_t markY = 0;
            hb_position_t currX = 0;
            hb_position_t currY = 0;
            if (!c->font->get_glyph_contour_point_for_origin (c->buffer->info[mark].codepoint,
                                                              markControlPoint,
                                                              HB_DIRECTION_LTR /*XXX*/,
                                                              &markX, &markY) ||
                !c->font->get_glyph_contour_point_for_origin (c->buffer->cur ().codepoint,
                                                              currControlPoint,
                                                              HB_DIRECTION_LTR /*XXX*/,
                                                              &currX, &currY))
              return;

            o.x_offset = markX - currX;
            o.y_offset = markY - currY;
          }
          break;

          case 1: /* Anchor Point Actions. */
          {
           /* Indexed into 'ankr' table. */
            const HBUINT16 *data = &ankrData[entry.data.ankrActionIndex];
            if (!c->sanitizer.check_array (data, 2)) return;
            unsigned int markAnchorPoint = *data++;
            unsigned int currAnchorPoint = *data++;
            const Anchor &markAnchor = c->ankr_table->get_anchor (c->buffer->info[mark].codepoint,
                                                                  markAnchorPoint,
                                                                  c->sanitizer.get_num_glyphs ());
            const Anchor &currAnchor = c->ankr_table->get_anchor (c->buffer->cur ().codepoint,
                                                                  currAnchorPoint,
                                                                  c->sanitizer.get_num_glyphs ());

            o.x_offset = c->font->em_scale_x (markAnchor.xCoordinate) - c->font->em_scale_x (currAnchor.xCoordinate);
            o.y_offset = c->font->em_scale_y (markAnchor.yCoordinate) - c->font->em_scale_y (currAnchor.yCoordinate);
          }
          break;

          case 2: /* Control Point Coordinate Actions. */
          {
            const FWORD *data = (const FWORD *) &ankrData[entry.data.ankrActionIndex];
            if (!c->sanitizer.check_array (data, 4)) return;
            int markX = *data++;
            int markY = *data++;
            int currX = *data++;
            int currY = *data++;

            o.x_offset = c->font->em_scale_x (markX) - c->font->em_scale_x (currX);
            o.y_offset = c->font->em_scale_y (markY) - c->font->em_scale_y (currY);
          }
          break;
        }
        o.attach_type() = ATTACH_TYPE_MARK;
        o.attach_chain() = (int) mark - (int) buffer->idx;
        buffer->scratch_flags |= HB_BUFFER_SCRATCH_FLAG_HAS_GPOS_ATTACHMENT;
      }

      if (entry.flags & Mark)
      {
        mark_set = true;
        mark = buffer->idx;
      }
    }

    private:
    hb_aat_apply_context_t *c;
    unsigned int action_type;
    const HBUINT16 *ankrData;
    bool mark_set;
    unsigned int mark;
  };

  bool apply (hb_aat_apply_context_t *c) const
  {
    TRACE_APPLY (this);

    driver_context_t dc (this, c);

    StateTableDriver<Types, EntryData> driver (machine, c->buffer, c->font->face);
    driver.drive (&dc);

    return_trace (true);
  }

  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    /* The rest of array sanitizations are done at run-time. */
    return_trace (likely (c->check_struct (this) &&
                          machine.sanitize (c)));
  }

  protected:
  KernSubTableHeader            header;
  StateTable<Types, EntryData>  machine;
  HBUINT32                      flags;
  public:
  DEFINE_SIZE_STATIC (KernSubTableHeader::static_size + 20);
};

template <typename KernSubTableHeader>
struct KerxSubTableFormat6
{
  enum Flags
  {
    ValuesAreLong       = 0x00000001,
  };

  bool is_long () const { return flags & ValuesAreLong; }

  int get_kerning (hb_codepoint_t left, hb_codepoint_t right,
                          hb_aat_apply_context_t *c) const
  {
    unsigned int num_glyphs = c->sanitizer.get_num_glyphs ();
    if (is_long ())
    {
      const typename U::Long &t = u.l;
      unsigned int l = (this+t.rowIndexTable).get_value_or_null (left, num_glyphs);
      unsigned int r = (this+t.columnIndexTable).get_value_or_null (right, num_glyphs);
      unsigned int offset = l + r;
      if (unlikely (offset < l)) return 0; /* Addition overflow. */
      if (unlikely (hb_unsigned_mul_overflows (offset, sizeof (FWORD32)))) return 0;
      const FWORD32 *v = &StructAtOffset<FWORD32> (&(this+t.array), offset * sizeof (FWORD32));
      if (unlikely (!v->sanitize (&c->sanitizer))) return 0;
      return kerxTupleKern (*v, header.tuple_count (), &(this+vector), c);
    }
    else
    {
      const typename U::Short &t = u.s;
      unsigned int l = (this+t.rowIndexTable).get_value_or_null (left, num_glyphs);
      unsigned int r = (this+t.columnIndexTable).get_value_or_null (right, num_glyphs);
      unsigned int offset = l + r;
      const FWORD *v = &StructAtOffset<FWORD> (&(this+t.array), offset * sizeof (FWORD));
      if (unlikely (!v->sanitize (&c->sanitizer))) return 0;
      return kerxTupleKern (*v, header.tuple_count (), &(this+vector), c);
    }
  }

  bool apply (hb_aat_apply_context_t *c) const
  {
    TRACE_APPLY (this);

    if (!c->plan->requested_kerning)
      return false;

    if (header.coverage & header.Backwards)
      return false;

    accelerator_t accel (*this, c);
    hb_kern_machine_t<accelerator_t> machine (accel, header.coverage & header.CrossStream);
    machine.kern (c->font, c->buffer, c->plan->kern_mask);

    return_trace (true);
  }

  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    return_trace (likely (c->check_struct (this) &&
                          (is_long () ?
                           (
                             u.l.rowIndexTable.sanitize (c, this) &&
                             u.l.columnIndexTable.sanitize (c, this) &&
                             c->check_range (this, u.l.array)
                           ) : (
                             u.s.rowIndexTable.sanitize (c, this) &&
                             u.s.columnIndexTable.sanitize (c, this) &&
                             c->check_range (this, u.s.array)
                           )) &&
                          (header.tuple_count () == 0 ||
                           c->check_range (this, vector))));
  }

  struct accelerator_t
  {
    const KerxSubTableFormat6 &table;
    hb_aat_apply_context_t *c;

    accelerator_t (const KerxSubTableFormat6 &table_,
                   hb_aat_apply_context_t *c_) :
                     table (table_), c (c_) {}

    int get_kerning (hb_codepoint_t left, hb_codepoint_t right) const
    { return table.get_kerning (left, right, c); }
  };

  protected:
  KernSubTableHeader            header;
  HBUINT32                      flags;
  HBUINT16                      rowCount;
  HBUINT16                      columnCount;
  union U
  {
    struct Long
    {
      LNNOffsetTo<Lookup<HBUINT32> >            rowIndexTable;
      LNNOffsetTo<Lookup<HBUINT32> >            columnIndexTable;
      LNNOffsetTo<UnsizedArrayOf<FWORD32> >     array;
    } l;
    struct Short
    {
      LNNOffsetTo<Lookup<HBUINT16> >            rowIndexTable;
      LNNOffsetTo<Lookup<HBUINT16> >            columnIndexTable;
      LNNOffsetTo<UnsizedArrayOf<FWORD> >       array;
    } s;
  } u;
  LNNOffsetTo<UnsizedArrayOf<FWORD> >   vector;
  public:
  DEFINE_SIZE_STATIC (KernSubTableHeader::static_size + 24);
};


struct KerxSubTableHeader
{
  typedef ExtendedTypes Types;

  unsigned int tuple_count () const { return tupleCount; }
  bool is_horizontal () const       { return !(coverage & Vertical); }

  enum Coverage
  {
    Vertical    = 0x80000000u,  /* Set if table has vertical kerning values. */
    CrossStream = 0x40000000u,  /* Set if table has cross-stream kerning values. */
    Variation   = 0x20000000u,  /* Set if table has variation kerning values. */
    Backwards   = 0x10000000u,  /* If clear, process the glyphs forwards, that
                                 * is, from first to last in the glyph stream.
                                 * If we, process them from last to first.
                                 * This flag only applies to state-table based
                                 * 'kerx' subtables (types 1 and 4). */
    Reserved    = 0x0FFFFF00u,  /* Reserved, set to zero. */
    SubtableType= 0x000000FFu,  /* Subtable type. */
  };

  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    return_trace (likely (c->check_struct (this)));
  }

  public:
  HBUINT32      length;
  HBUINT32      coverage;
  HBUINT32      tupleCount;
  public:
  DEFINE_SIZE_STATIC (12);
};

struct KerxSubTable
{
  friend struct kerx;

  unsigned int get_size () const { return u.header.length; }
  unsigned int get_type () const { return u.header.coverage & u.header.SubtableType; }

  template <typename context_t>
  typename context_t::return_t dispatch (context_t *c) const
  {
    unsigned int subtable_type = get_type ();
    TRACE_DISPATCH (this, subtable_type);
    switch (subtable_type) {
    case 0:     return_trace (c->dispatch (u.format0));
    case 1:     return_trace (c->dispatch (u.format1));
    case 2:     return_trace (c->dispatch (u.format2));
    case 4:     return_trace (c->dispatch (u.format4));
    case 6:     return_trace (c->dispatch (u.format6));
    default:    return_trace (c->default_return_value ());
    }
  }

  bool sanitize (hb_sanitize_context_t *c) const
  {
    TRACE_SANITIZE (this);
    if (!u.header.sanitize (c) ||
        u.header.length <= u.header.static_size ||
        !c->check_range (this, u.header.length))
      return_trace (false);

    return_trace (dispatch (c));
  }

  public:
  union {
  KerxSubTableHeader                            header;
  KerxSubTableFormat0<KerxSubTableHeader>       format0;
  KerxSubTableFormat1<KerxSubTableHeader>       format1;
  KerxSubTableFormat2<KerxSubTableHeader>       format2;
  KerxSubTableFormat4<KerxSubTableHeader>       format4;
  KerxSubTableFormat6<KerxSubTableHeader>       format6;
  } u;
  public:
  DEFINE_SIZE_MIN (12);
};


/*
 * The 'kerx' Table
 */

template <typename T>
struct KerxTable
{
  /* https://en.wikipedia.org/wiki/Curiously_recurring_template_pattern */
  const T* thiz () const { return static_cast<const T *> (this); }

  bool has_state_machine () const
  {
    typedef typename T::SubTable SubTable;

    const SubTable *st = &thiz()->firstSubTable;
    unsigned int count = thiz()->tableCount;
    for (unsigned int i = 0; i < count; i++)
    {
      if (st->get_type () == 1)
        return true;
      st = &StructAfter<SubTable> (*st);
    }
    return false;
  }

  bool has_cross_stream () const
  {
    typedef typename T::SubTable SubTable;

    const SubTable *st = &thiz()->firstSubTable;
    unsigned int count = thiz()->tableCount;
    for (unsigned int i = 0; i < count; i++)
    {
      if (st->u.header.coverage & st->u.header.CrossStream)
        return true;
      st = &StructAfter<SubTable> (*st);
    }
    return false;
  }

  int get_h_kerning (hb_codepoint_t left, hb_codepoint_t right) const
  {
    typedef typename T::SubTable SubTable;

    int v = 0;
    const SubTable *st = &thiz()->firstSubTable;
    unsigned int count = thiz()->tableCount;
    for (unsigned int i = 0; i < count; i++)
    {
      if ((st->u.header.coverage & (st->u.header.Variation | st->u.header.CrossStream)) ||
          !st->u.header.is_horizontal ())
        continue;
      v += st->get_kerning (left, right);
      st = &StructAfter<SubTable> (*st);
    }
    return v;
  }

  bool apply (AAT::hb_aat_apply_context_t *c) const
  {
    typedef typename T::SubTable SubTable;

    bool ret = false;
    bool seenCrossStream = false;
    c->set_lookup_index (0);
    const SubTable *st = &thiz()->firstSubTable;
    unsigned int count = thiz()->tableCount;
    for (unsigned int i = 0; i < count; i++)
    {
      bool reverse;

      if (!T::Types::extended && (st->u.header.coverage & st->u.header.Variation))
        goto skip;

      if (HB_DIRECTION_IS_HORIZONTAL (c->buffer->props.direction) != st->u.header.is_horizontal ())
        goto skip;

      reverse = bool (st->u.header.coverage & st->u.header.Backwards) !=
                HB_DIRECTION_IS_BACKWARD (c->buffer->props.direction);

      if (!c->buffer->message (c->font, "start %c%c%c%c subtable %d", HB_UNTAG (thiz()->tableTag), c->lookup_index))
        goto skip;

      if (!seenCrossStream &&
          (st->u.header.coverage & st->u.header.CrossStream))
      {
        /* Attach all glyphs into a chain. */

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