Logo Search packages:      
Sourcecode: qt4-x11 version File versions

harfbuzz-gdef.c

/*******************************************************************
 *
 *  Copyright 1996-2000 by
 *  David Turner, Robert Wilhelm, and Werner Lemberg.
 *
 *  Copyright 2006  Behdad Esfahbod
 *
 *  This is part of HarfBuzz, an OpenType Layout engine library.
 *
 *  See the file name COPYING for licensing information.
 *
 ******************************************************************/
#include "harfbuzz-impl.h"
#include "harfbuzz-gdef-private.h"
#include "harfbuzz-open-private.h"

static FT_Error  Load_AttachList( HB_AttachList*  al,
                          FT_Stream        stream );
static FT_Error  Load_LigCaretList( HB_LigCaretList*  lcl,
                            FT_Stream          stream );

static void  Free_AttachList( HB_AttachList*  al,
                        FT_Memory        memory );
static void  Free_LigCaretList( HB_LigCaretList*  lcl,
                        FT_Memory          memory );

static void  Free_NewGlyphClasses( HB_GDEFHeader*  gdef,
                           FT_Memory        memory );



/**********************
 * Extension Functions
 **********************/

#if 0
#define GDEF_ID  Build_Extension_ID( 'G', 'D', 'E', 'F' )


static FT_Error  GDEF_Create( void*  ext,
                        PFace  face )
{
  DEFINE_LOAD_LOCALS( face->stream );

  HB_GDEFHeader*  gdef = (HB_GDEFHeader*)ext;
  Long             table;


  /* by convention */

  if ( !gdef )
    return FT_Err_Ok;

  /* a null offset indicates that there is no GDEF table */

  gdef->offset = 0;

  /* we store the start offset and the size of the subtable */

  table = HB_LookUp_Table( face, TTAG_GDEF );
  if ( table < 0 )
    return FT_Err_Ok;             /* The table is optional */

  if ( FILE_Seek( face->dirTables[table].Offset ) ||
       ACCESS_Frame( 4L ) )
    return error;

  gdef->offset  = FILE_Pos() - 4L;    /* undo ACCESS_Frame() */
  gdef->Version = GET_ULong();

  FORGET_Frame();

  gdef->loaded = FALSE;

  return FT_Err_Ok;
}


static FT_Error  GDEF_Destroy( void*  ext,
                         PFace  face )
{
  HB_GDEFHeader*  gdef = (HB_GDEFHeader*)ext;


  /* by convention */

  if ( !gdef )
    return FT_Err_Ok;

  if ( gdef->loaded )
  {
    Free_LigCaretList( &gdef->LigCaretList, memory );
    Free_AttachList( &gdef->AttachList, memory );
    _HB_OPEN_Free_ClassDefinition( &gdef->GlyphClassDef, memory );
    _HB_OPEN_Free_ClassDefinition( &gdef->MarkAttachClassDef, memory );

    Free_NewGlyphClasses( gdef, memory );
  }

  return FT_Err_Ok;
}



FT_Error  HB_Init_GDEF_Extension( HB_Engine  engine )
{
  PEngine_Instance  _engine = HANDLE_Engine( engine );


  if ( !_engine )
    return FT_Err_Invalid_Engine;

  return  HB_Register_Extension( _engine,
                         GDEF_ID,
                         sizeof ( HB_GDEFHeader ),
                         GDEF_Create,
                         GDEF_Destroy );
}
#endif
/* GDEF glyph classes */

#define UNCLASSIFIED_GLYPH  0
#define SIMPLE_GLYPH        1
#define LIGATURE_GLYPH      2
#define MARK_GLYPH          3
#define COMPONENT_GLYPH     4






FT_Error  HB_New_GDEF_Table( FT_Face          face,
                       HB_GDEFHeader** retptr )
{
  FT_Error         error;
  FT_Memory        memory = face->memory;

  HB_GDEFHeader*  gdef;

  if ( !retptr )
    return FT_Err_Invalid_Argument;

  if ( ALLOC( gdef, sizeof( *gdef ) ) )
    return error;

  gdef->memory = face->memory;

  gdef->GlyphClassDef.loaded = FALSE;
  gdef->AttachList.loaded = FALSE;
  gdef->LigCaretList.loaded = FALSE;
  gdef->MarkAttachClassDef_offset = 0;
  gdef->MarkAttachClassDef.loaded = FALSE;

  gdef->LastGlyph = 0;
  gdef->NewGlyphClasses = NULL;

  *retptr = gdef;

  return FT_Err_Ok;
}


FT_Error  HB_Load_GDEF_Table( FT_Face          face,
                        HB_GDEFHeader** retptr )
{
  FT_Error         error;
  FT_Memory        memory = face->memory;
  FT_Stream        stream = face->stream;
  FT_ULong         cur_offset, new_offset, base_offset;

  HB_GDEFHeader*  gdef;


  if ( !retptr )
    return FT_Err_Invalid_Argument;

  if (( error = _hb_ftglue_face_goto_table( face, TTAG_GDEF, stream ) ))
    return error;

  if (( error = HB_New_GDEF_Table ( face, &gdef ) ))
    return error;

  base_offset = FILE_Pos();

  /* skip version */

  if ( FILE_Seek( base_offset + 4L ) ||
       ACCESS_Frame( 2L ) )
    goto Fail0;

  new_offset = GET_UShort();

  FORGET_Frame();

  /* all GDEF subtables are optional */

  if ( new_offset )
  {
    new_offset += base_offset;

    /* only classes 1-4 are allowed here */

    cur_offset = FILE_Pos();
    if ( FILE_Seek( new_offset ) ||
       ( error = _HB_OPEN_Load_ClassDefinition( &gdef->GlyphClassDef, 5,
                               stream ) ) != FT_Err_Ok )
      goto Fail0;
    (void)FILE_Seek( cur_offset );
  }

  if ( ACCESS_Frame( 2L ) )
    goto Fail1;

  new_offset = GET_UShort();

  FORGET_Frame();

  if ( new_offset )
  {
    new_offset += base_offset;

    cur_offset = FILE_Pos();
    if ( FILE_Seek( new_offset ) ||
       ( error = Load_AttachList( &gdef->AttachList,
                            stream ) ) != FT_Err_Ok )
      goto Fail1;
    (void)FILE_Seek( cur_offset );
  }

  if ( ACCESS_Frame( 2L ) )
    goto Fail2;

  new_offset = GET_UShort();

  FORGET_Frame();

  if ( new_offset )
  {
    new_offset += base_offset;

    cur_offset = FILE_Pos();
    if ( FILE_Seek( new_offset ) ||
       ( error = Load_LigCaretList( &gdef->LigCaretList,
                              stream ) ) != FT_Err_Ok )
      goto Fail2;
    (void)FILE_Seek( cur_offset );
  }

  /* OpenType 1.2 has introduced the `MarkAttachClassDef' field.  We
     first have to scan the LookupFlag values to find out whether we
     must load it or not.  Here we only store the offset of the table. */

  if ( ACCESS_Frame( 2L ) )
    goto Fail3;

  new_offset = GET_UShort();

  FORGET_Frame();

  if ( new_offset )
    gdef->MarkAttachClassDef_offset = new_offset + base_offset;
  else
    gdef->MarkAttachClassDef_offset = 0;

  *retptr = gdef;

  return FT_Err_Ok;

Fail3:
  Free_LigCaretList( &gdef->LigCaretList, memory );
  
Fail2:
  Free_AttachList( &gdef->AttachList, memory );

Fail1:
  _HB_OPEN_Free_ClassDefinition( &gdef->GlyphClassDef, memory );

Fail0:
  FREE( gdef );

  return error;
}


FT_Error  HB_Done_GDEF_Table ( HB_GDEFHeader* gdef ) 
{
  FT_Memory memory = gdef->memory;
  
  Free_LigCaretList( &gdef->LigCaretList, memory );
  Free_AttachList( &gdef->AttachList, memory );
  _HB_OPEN_Free_ClassDefinition( &gdef->GlyphClassDef, memory );
  _HB_OPEN_Free_ClassDefinition( &gdef->MarkAttachClassDef, memory );
  
  Free_NewGlyphClasses( gdef, memory );

  FREE( gdef );

  return FT_Err_Ok;
}




/*******************************
 * AttachList related functions
 *******************************/


/* AttachPoint */

static FT_Error  Load_AttachPoint( HB_AttachPoint*  ap,
                           FT_Stream         stream )
{
  FT_Memory memory = stream->memory;
  FT_Error  error;

  FT_UShort   n, count;
  FT_UShort*  pi;


  if ( ACCESS_Frame( 2L ) )
    return error;

  count = ap->PointCount = GET_UShort();

  FORGET_Frame();

  ap->PointIndex = NULL;

  if ( count )
  {
    if ( ALLOC_ARRAY( ap->PointIndex, count, FT_UShort ) )
      return error;

    pi = ap->PointIndex;

    if ( ACCESS_Frame( count * 2L ) )
    {
      FREE( pi );
      return error;
    }

    for ( n = 0; n < count; n++ )
      pi[n] = GET_UShort();

    FORGET_Frame();
  }

  return FT_Err_Ok;
}


static void  Free_AttachPoint( HB_AttachPoint*  ap,
                         FT_Memory        memory )
{
  FREE( ap->PointIndex );
}


/* AttachList */

static FT_Error  Load_AttachList( HB_AttachList*  al,
                          FT_Stream        stream )
{
  FT_Memory memory = stream->memory;
  FT_Error  error;

  FT_UShort         n, m, count;
  FT_ULong          cur_offset, new_offset, base_offset;

  HB_AttachPoint*  ap;


  base_offset = FILE_Pos();

  if ( ACCESS_Frame( 2L ) )
    return error;

  new_offset = GET_UShort() + base_offset;

  FORGET_Frame();

  cur_offset = FILE_Pos();
  if ( FILE_Seek( new_offset ) ||
       ( error = _HB_OPEN_Load_Coverage( &al->Coverage, stream ) ) != FT_Err_Ok )
    return error;
  (void)FILE_Seek( cur_offset );

  if ( ACCESS_Frame( 2L ) )
    goto Fail2;

  count = al->GlyphCount = GET_UShort();

  FORGET_Frame();

  al->AttachPoint = NULL;

  if ( ALLOC_ARRAY( al->AttachPoint, count, HB_AttachPoint ) )
    goto Fail2;

  ap = al->AttachPoint;

  for ( n = 0; n < count; n++ )
  {
    if ( ACCESS_Frame( 2L ) )
      goto Fail1;

    new_offset = GET_UShort() + base_offset;

    FORGET_Frame();

    cur_offset = FILE_Pos();
    if ( FILE_Seek( new_offset ) ||
       ( error = Load_AttachPoint( &ap[n], stream ) ) != FT_Err_Ok )
      goto Fail1;
    (void)FILE_Seek( cur_offset );
  }

  al->loaded = TRUE;

  return FT_Err_Ok;

Fail1:
  for ( m = 0; m < n; m++ )
    Free_AttachPoint( &ap[m], memory );

  FREE( ap );

Fail2:
  _HB_OPEN_Free_Coverage( &al->Coverage, memory );
  return error;
}


static void  Free_AttachList( HB_AttachList*  al,
                        FT_Memory        memory )
{
  FT_UShort         n, count;

  HB_AttachPoint*  ap;


  if ( !al->loaded )
    return;

  if ( al->AttachPoint )
  {
    count = al->GlyphCount;
    ap    = al->AttachPoint;

    for ( n = 0; n < count; n++ )
      Free_AttachPoint( &ap[n], memory );

    FREE( ap );
  }

  _HB_OPEN_Free_Coverage( &al->Coverage, memory );
}



/*********************************
 * LigCaretList related functions
 *********************************/


/* CaretValueFormat1 */
/* CaretValueFormat2 */
/* CaretValueFormat3 */
/* CaretValueFormat4 */

static FT_Error  Load_CaretValue( HB_CaretValue*  cv,
                          FT_Stream        stream )
{
  FT_Error  error;

  FT_ULong cur_offset, new_offset, base_offset;


  base_offset = FILE_Pos();

  if ( ACCESS_Frame( 2L ) )
    return error;

  cv->CaretValueFormat = GET_UShort();

  FORGET_Frame();

  switch ( cv->CaretValueFormat )
  {
  case 1:
    if ( ACCESS_Frame( 2L ) )
      return error;

    cv->cvf.cvf1.Coordinate = GET_Short();

    FORGET_Frame();

    break;

  case 2:
    if ( ACCESS_Frame( 2L ) )
      return error;

    cv->cvf.cvf2.CaretValuePoint = GET_UShort();

    FORGET_Frame();

    break;

  case 3:
    if ( ACCESS_Frame( 4L ) )
      return error;

    cv->cvf.cvf3.Coordinate = GET_Short();

    new_offset = GET_UShort() + base_offset;

    FORGET_Frame();

    cur_offset = FILE_Pos();
    if ( FILE_Seek( new_offset ) ||
       ( error = _HB_OPEN_Load_Device( &cv->cvf.cvf3.Device,
                        stream ) ) != FT_Err_Ok )
      return error;
    (void)FILE_Seek( cur_offset );

    break;

  case 4:
    if ( ACCESS_Frame( 2L ) )
      return error;

    cv->cvf.cvf4.IdCaretValue = GET_UShort();

    FORGET_Frame();
    break;

  default:
    return HB_Err_Invalid_GDEF_SubTable_Format;
  }

  return FT_Err_Ok;
}


static void  Free_CaretValue( HB_CaretValue*  cv,
                        FT_Memory        memory )
{
  if ( cv->CaretValueFormat == 3 )
    _HB_OPEN_Free_Device( &cv->cvf.cvf3.Device, memory );
}


/* LigGlyph */

static FT_Error  Load_LigGlyph( HB_LigGlyph*  lg,
                        FT_Stream      stream )
{
  FT_Memory memory = stream->memory;
  FT_Error  error;

  FT_UShort        n, m, count;
  FT_ULong         cur_offset, new_offset, base_offset;

  HB_CaretValue*  cv;


  base_offset = FILE_Pos();

  if ( ACCESS_Frame( 2L ) )
    return error;

  count = lg->CaretCount = GET_UShort();

  FORGET_Frame();

  lg->CaretValue = NULL;

  if ( ALLOC_ARRAY( lg->CaretValue, count, HB_CaretValue ) )
    return error;

  cv = lg->CaretValue;

  for ( n = 0; n < count; n++ )
  {
    if ( ACCESS_Frame( 2L ) )
      goto Fail;

    new_offset = GET_UShort() + base_offset;

    FORGET_Frame();

    cur_offset = FILE_Pos();
    if ( FILE_Seek( new_offset ) ||
       ( error = Load_CaretValue( &cv[n], stream ) ) != FT_Err_Ok )
      goto Fail;
    (void)FILE_Seek( cur_offset );
  }

  return FT_Err_Ok;

Fail:
  for ( m = 0; m < n; m++ )
    Free_CaretValue( &cv[m], memory );

  FREE( cv );
  return error;
}


static void  Free_LigGlyph( HB_LigGlyph*  lg,
                      FT_Memory      memory )
{
  FT_UShort        n, count;

  HB_CaretValue*  cv;


  if ( lg->CaretValue )
  {
    count = lg->CaretCount;
    cv    = lg->CaretValue;

    for ( n = 0; n < count; n++ )
      Free_CaretValue( &cv[n], memory );

    FREE( cv );
  }
}


/* LigCaretList */

static FT_Error  Load_LigCaretList( HB_LigCaretList*  lcl,
                            FT_Stream          stream )
{
  FT_Memory memory = stream->memory;
  FT_Error  error;

  FT_UShort      m, n, count;
  FT_ULong       cur_offset, new_offset, base_offset;

  HB_LigGlyph*  lg;


  base_offset = FILE_Pos();

  if ( ACCESS_Frame( 2L ) )
    return error;

  new_offset = GET_UShort() + base_offset;

  FORGET_Frame();

  cur_offset = FILE_Pos();
  if ( FILE_Seek( new_offset ) ||
       ( error = _HB_OPEN_Load_Coverage( &lcl->Coverage, stream ) ) != FT_Err_Ok )
    return error;
  (void)FILE_Seek( cur_offset );

  if ( ACCESS_Frame( 2L ) )
    goto Fail2;

  count = lcl->LigGlyphCount = GET_UShort();

  FORGET_Frame();

  lcl->LigGlyph = NULL;

  if ( ALLOC_ARRAY( lcl->LigGlyph, count, HB_LigGlyph ) )
    goto Fail2;

  lg = lcl->LigGlyph;

  for ( n = 0; n < count; n++ )
  {
    if ( ACCESS_Frame( 2L ) )
      goto Fail1;

    new_offset = GET_UShort() + base_offset;

    FORGET_Frame();

    cur_offset = FILE_Pos();
    if ( FILE_Seek( new_offset ) ||
       ( error = Load_LigGlyph( &lg[n], stream ) ) != FT_Err_Ok )
      goto Fail1;
    (void)FILE_Seek( cur_offset );
  }

  lcl->loaded = TRUE;

  return FT_Err_Ok;

Fail1:
  for ( m = 0; m < n; m++ )
    Free_LigGlyph( &lg[m], memory );

  FREE( lg );

Fail2:
  _HB_OPEN_Free_Coverage( &lcl->Coverage, memory );
  return error;
}


static void  Free_LigCaretList( HB_LigCaretList*  lcl,
                        FT_Memory           memory )
{
  FT_UShort      n, count;

  HB_LigGlyph*  lg;


  if ( !lcl->loaded )
    return;

  if ( lcl->LigGlyph )
  {
    count = lcl->LigGlyphCount;
    lg    = lcl->LigGlyph;

    for ( n = 0; n < count; n++ )
      Free_LigGlyph( &lg[n], memory );

    FREE( lg );
  }

  _HB_OPEN_Free_Coverage( &lcl->Coverage, memory );
}



/***********
 * GDEF API
 ***********/


static FT_UShort  Get_New_Class( HB_GDEFHeader*  gdef,
                         FT_UShort        glyphID,
                         FT_UShort        index )
{
  FT_UShort              glyph_index, array_index, count;
  FT_UShort              byte, bits;
  
  HB_ClassRangeRecord*  gcrr;
  FT_UShort**            ngc;


  if ( glyphID >= gdef->LastGlyph )
    return 0;

  count = gdef->GlyphClassDef.cd.cd2.ClassRangeCount;
  gcrr = gdef->GlyphClassDef.cd.cd2.ClassRangeRecord;
  ngc  = gdef->NewGlyphClasses;

  if ( index < count && glyphID < gcrr[index].Start )
  {
    array_index = index;
    if ( index == 0 )
      glyph_index = glyphID;
    else
      glyph_index = glyphID - gcrr[index - 1].End - 1;
  }
  else
  {
    array_index = index + 1;
    glyph_index = glyphID - gcrr[index].End - 1;
  }

  byte = ngc[array_index][glyph_index / 4];
  bits = byte >> ( 16 - ( glyph_index % 4 + 1 ) * 4 );

  return bits & 0x000F;
}



FT_Error  HB_GDEF_Get_Glyph_Property( HB_GDEFHeader*  gdef,
                              FT_UShort        glyphID,
                              FT_UShort*       property )
{
  FT_UShort class, index;

  FT_Error  error;


  if ( !gdef || !property )
    return FT_Err_Invalid_Argument;

  /* first, we check for mark attach classes */

  if ( gdef->MarkAttachClassDef.loaded )
  {
    error = _HB_OPEN_Get_Class( &gdef->MarkAttachClassDef, glyphID, &class, &index );
    if ( error && error != HB_Err_Not_Covered )
      return error;
    if ( !error )
    {
      *property = class << 8;
      return FT_Err_Ok;
    }
  }

  error = _HB_OPEN_Get_Class( &gdef->GlyphClassDef, glyphID, &class, &index );
  if ( error && error != HB_Err_Not_Covered )
    return error;

  /* if we have a constructed class table, check whether additional
     values have been assigned                                      */

  if ( error == HB_Err_Not_Covered && gdef->NewGlyphClasses )
    class = Get_New_Class( gdef, glyphID, index );

  switch ( class )
  {
  case UNCLASSIFIED_GLYPH:
    *property = 0;
    break;

  case SIMPLE_GLYPH:
    *property = HB_GDEF_BASE_GLYPH;
    break;

  case LIGATURE_GLYPH:
    *property = HB_GDEF_LIGATURE;
    break;

  case MARK_GLYPH:
    *property = HB_GDEF_MARK;
    break;

  case COMPONENT_GLYPH:
    *property = HB_GDEF_COMPONENT;
    break;
  }

  return FT_Err_Ok;
}


static FT_Error  Make_ClassRange( HB_ClassDefinition*  cd,
                          FT_UShort             start,
                          FT_UShort             end,
                          FT_UShort             class,
                          FT_Memory             memory )
{
  FT_Error               error;
  FT_UShort              index;

  HB_ClassDefFormat2*   cdf2;
  HB_ClassRangeRecord*  crr;


  cdf2 = &cd->cd.cd2;

  if ( REALLOC_ARRAY( cdf2->ClassRangeRecord,
                  cdf2->ClassRangeCount,
                  cdf2->ClassRangeCount + 1 ,
                  HB_ClassRangeRecord ) )
    return error;

  cdf2->ClassRangeCount++;

  crr   = cdf2->ClassRangeRecord;
  index = cdf2->ClassRangeCount - 1;

  crr[index].Start = start;
  crr[index].End   = end;
  crr[index].Class = class;

  cd->Defined[class] = TRUE;

  return FT_Err_Ok;
}



FT_Error  HB_GDEF_Build_ClassDefinition( HB_GDEFHeader*  gdef,
                               FT_UShort        num_glyphs,
                               FT_UShort        glyph_count,
                               FT_UShort*       glyph_array,
                               FT_UShort*       class_array )
{
  FT_UShort              start, curr_glyph, curr_class;
  FT_UShort              n, m, count;
  FT_Error               error;
  FT_Memory              memory;

  HB_ClassDefinition*   gcd;
  HB_ClassRangeRecord*  gcrr;
  FT_UShort**            ngc;


  if ( !gdef || !glyph_array || !class_array )
    return FT_Err_Invalid_Argument;

  memory = gdef->memory;
  gcd = &gdef->GlyphClassDef;

  /* We build a format 2 table */

  gcd->ClassFormat = 2;

  /* A GlyphClassDef table contains at most 5 different class values */

  if ( ALLOC_ARRAY( gcd->Defined, 5, FT_Bool ) )
    return error;

  gcd->cd.cd2.ClassRangeCount  = 0;
  gcd->cd.cd2.ClassRangeRecord = NULL;

  start      = glyph_array[0];
  curr_class = class_array[0];
  curr_glyph = start;

  if ( curr_class >= 5 )
  {
    error = FT_Err_Invalid_Argument;
    goto Fail4;
  }

  glyph_count--;

  for ( n = 0; n <= glyph_count; n++ )
  {
    if ( curr_glyph == glyph_array[n] && curr_class == class_array[n] )
    {
      if ( n == glyph_count )
      {
      if ( ( error = Make_ClassRange( gcd, start,
                              curr_glyph,
                              curr_class,
                              memory ) ) != FT_Err_Ok )
        goto Fail3;
      }
      else
      {
      if ( curr_glyph == 0xFFFF )
      {
        error = FT_Err_Invalid_Argument;
        goto Fail3;
      }
      else
        curr_glyph++;
      }
    }
    else
    {
      if ( ( error = Make_ClassRange( gcd, start,
                              curr_glyph - 1,
                              curr_class,
                              memory ) ) != FT_Err_Ok )
      goto Fail3;

      if ( curr_glyph > glyph_array[n] )
      {
      error = FT_Err_Invalid_Argument;
      goto Fail3;
      }

      start      = glyph_array[n];
      curr_class = class_array[n];
      curr_glyph = start;

      if ( curr_class >= 5 )
      {
      error = FT_Err_Invalid_Argument;
      goto Fail3;
      }

      if ( n == glyph_count )
      {
      if ( ( error = Make_ClassRange( gcd, start,
                              curr_glyph,
                              curr_class,
                              memory ) ) != FT_Err_Ok )
        goto Fail3;
      }
      else
      {
      if ( curr_glyph == 0xFFFF )
      {
        error = FT_Err_Invalid_Argument;
        goto Fail3;
      }
      else
        curr_glyph++;
      }
    }
  }

  /* now prepare the arrays for class values assigned during the lookup
     process                                                            */

  if ( ALLOC_ARRAY( gdef->NewGlyphClasses,
                gcd->cd.cd2.ClassRangeCount + 1, FT_UShort* ) )
    goto Fail3;

  count = gcd->cd.cd2.ClassRangeCount;
  gcrr  = gcd->cd.cd2.ClassRangeRecord;
  ngc   = gdef->NewGlyphClasses;

  /* We allocate arrays for all glyphs not covered by the class range
     records.  Each element holds four class values.                  */

  if ( count > 0 )
  {
      if ( gcrr[0].Start )
      {
      if ( ALLOC_ARRAY( ngc[0], ( gcrr[0].Start + 3 ) / 4, FT_UShort ) )
        goto Fail2;
      }

      for ( n = 1; n < count; n++ )
      {
      if ( gcrr[n].Start - gcrr[n - 1].End > 1 )
        if ( ALLOC_ARRAY( ngc[n],
                      ( gcrr[n].Start - gcrr[n - 1].End + 2 ) / 4,
                      FT_UShort ) )
          goto Fail1;
      }

      if ( gcrr[count - 1].End != num_glyphs - 1 )
      {
      if ( ALLOC_ARRAY( ngc[count],
                    ( num_glyphs - gcrr[count - 1].End + 2 ) / 4,
                    FT_UShort ) )
          goto Fail1;
      }
  }
  else if ( num_glyphs > 0 )
  {
      if ( ALLOC_ARRAY( ngc[count],
                  ( num_glyphs + 3 ) / 4,
                  FT_UShort ) )
        goto Fail2;
  }
      
  gdef->LastGlyph = num_glyphs - 1;

  gdef->MarkAttachClassDef_offset = 0L;
  gdef->MarkAttachClassDef.loaded = FALSE;

  gcd->loaded = TRUE;

  return FT_Err_Ok;

Fail1:
  for ( m = 0; m < n; m++ )
    FREE( ngc[m] );

Fail2:
  FREE( gdef->NewGlyphClasses );

Fail3:
  FREE( gcd->cd.cd2.ClassRangeRecord );

Fail4:
  FREE( gcd->Defined );
  return error;
}


static void  Free_NewGlyphClasses( HB_GDEFHeader*  gdef,
                           FT_Memory        memory )
{
  FT_UShort**  ngc;
  FT_UShort    n, count;


  if ( gdef->NewGlyphClasses )
  {
    count = gdef->GlyphClassDef.cd.cd2.ClassRangeCount + 1;
    ngc   = gdef->NewGlyphClasses;

    for ( n = 0; n < count; n++ )
      FREE( ngc[n] );

    FREE( ngc );
  }
}


FT_Error  _HB_GDEF_Add_Glyph_Property( HB_GDEFHeader*  gdef,
                        FT_UShort        glyphID,
                        FT_UShort        property )
{
  FT_Error               error;
  FT_UShort              class, new_class, index;
  FT_UShort              byte, bits, mask;
  FT_UShort              array_index, glyph_index, count;

  HB_ClassRangeRecord*  gcrr;
  FT_UShort**            ngc;


  error = _HB_OPEN_Get_Class( &gdef->GlyphClassDef, glyphID, &class, &index );
  if ( error && error != HB_Err_Not_Covered )
    return error;

  /* we don't accept glyphs covered in `GlyphClassDef' */

  if ( !error )
    return HB_Err_Not_Covered;

  switch ( property )
  {
  case 0:
    new_class = UNCLASSIFIED_GLYPH;
    break;

  case HB_GDEF_BASE_GLYPH:
    new_class = SIMPLE_GLYPH;
    break;

  case HB_GDEF_LIGATURE:
    new_class = LIGATURE_GLYPH;
    break;

  case HB_GDEF_MARK:
    new_class = MARK_GLYPH;
    break;

  case HB_GDEF_COMPONENT:
    new_class = COMPONENT_GLYPH;
    break;

  default:
    return FT_Err_Invalid_Argument;
  }

  count = gdef->GlyphClassDef.cd.cd2.ClassRangeCount;
  gcrr = gdef->GlyphClassDef.cd.cd2.ClassRangeRecord;
  ngc  = gdef->NewGlyphClasses;

  if ( index < count && glyphID < gcrr[index].Start )
  {
    array_index = index;
    if ( index == 0 )
      glyph_index = glyphID;
    else
      glyph_index = glyphID - gcrr[index - 1].End - 1;
  }
  else
  {
    array_index = index + 1;
    glyph_index = glyphID - gcrr[index].End - 1;
  }

  byte  = ngc[array_index][glyph_index / 4];
  bits  = byte >> ( 16 - ( glyph_index % 4 + 1 ) * 4 );
  class = bits & 0x000F;

  /* we don't overwrite existing entries */

  if ( !class )
  {
    bits = new_class << ( 16 - ( glyph_index % 4 + 1 ) * 4 );
    mask = ~( 0x000F << ( 16 - ( glyph_index % 4 + 1 ) * 4 ) );

    ngc[array_index][glyph_index / 4] &= mask;
    ngc[array_index][glyph_index / 4] |= bits;
  }

  return FT_Err_Ok;
}


FT_Error  _HB_GDEF_Check_Property( HB_GDEFHeader*  gdef,
                    HB_GlyphItem    gitem,
                    FT_UShort        flags,
                    FT_UShort*       property )
{
  FT_Error  error;

  if ( gdef )
  {
    FT_UShort basic_glyph_class;
    FT_UShort desired_attachment_class;

    if ( gitem->gproperties == HB_GLYPH_PROPERTIES_UNKNOWN )
    {
      error = HB_GDEF_Get_Glyph_Property( gdef, gitem->gindex, &gitem->gproperties );
      if ( error )
      return error;
    }

    *property = gitem->gproperties;

    /* If the glyph was found in the MarkAttachmentClass table,
     * then that class value is the high byte of the result,
     * otherwise the low byte contains the basic type of the glyph
     * as defined by the GlyphClassDef table.
     */
    if ( *property & HB_LOOKUP_FLAG_IGNORE_SPECIAL_MARKS  )
      basic_glyph_class = HB_GDEF_MARK;
    else
      basic_glyph_class = *property;

    /* Return Not_Covered, if, for example, basic_glyph_class
     * is HB_GDEF_LIGATURE and LookFlags includes HB_LOOKUP_FLAG_IGNORE_LIGATURES
     */
    if ( flags & basic_glyph_class )
      return HB_Err_Not_Covered;
    
    /* The high byte of LookupFlags has the meaning
     * "ignore marks of attachment type different than
     * the attachment type specified."
     */
    desired_attachment_class = flags & HB_LOOKUP_FLAG_IGNORE_SPECIAL_MARKS;
    if ( desired_attachment_class )
    {
      if ( basic_glyph_class == HB_GDEF_MARK &&
         *property != desired_attachment_class )
      return HB_Err_Not_Covered;
    }
  }

  return FT_Err_Ok;
}


/* END */

Generated by  Doxygen 1.6.0   Back to index