src/base/ftstream.c - third_party/freetype2 - Git at Google

 #include <ftstream.h>
 #include <ftdebug.h>

 #undef  FT_COMPONENT
 #define FT_COMPONENT  trace_stream


   BASE_FUNC
   void  FT_New_Memory_Stream( FT_Library     library,
                               void*          base,
                               unsigned long  size,
                               FT_Stream      stream )
   {
     stream->memory = library->memory;
     stream->base   = (char*)base;
     stream->size   = size;
     stream->pos    = 0;
     stream->cursor = 0;
     stream->read   = 0;
     stream->close  = 0;
   }


   BASE_FUNC
   FT_Error  FT_Seek_Stream( FT_Stream  stream,
                             FT_ULong   pos )
   {
     FT_Error  error;

     stream->pos = pos;

     if (stream->read)
     {
       if (stream->read( stream, pos, 0, 0 ))
       {
         error = FT_Err_Invalid_Stream_Operation;

         FT_ERROR(( "FT_Seek_Stream:" ));
         FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx\n",
                    pos, stream->size ));
       }
       else
         error = FT_Err_Ok;
     }
     /* note that seeking to the first position after the file is valid */
     else if (pos > stream->size)
     {
       error = FT_Err_Invalid_Stream_Operation;

       FT_ERROR(( "FT_Seek_Stream:" ));
       FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx\n",
                  pos, stream->size ));
     }

     else
       error = FT_Err_Ok;

     return error;
   }


   BASE_FUNC
   FT_Error  FT_Skip_Stream( FT_Stream  stream,
                             FT_Long    distance )
   {
     return FT_Seek_Stream( stream, (FT_ULong)(stream->pos + distance) );
   }


   BASE_FUNC
   FT_Long   FT_Stream_Pos( FT_Stream  stream )
   {
     return stream->pos;
   }


   BASE_FUNC
   FT_Error  FT_Read_Stream( FT_Stream  stream,
                             void*      buffer,
                             FT_ULong   count )
   {
     return FT_Read_Stream_At( stream, stream->pos, buffer, count );
   }


   BASE_FUNC
   FT_Error  FT_Read_Stream_At( FT_Stream  stream,
                                FT_ULong   pos,
                                void*      buffer,
                                FT_ULong   count )
   {
     FT_Error  error = FT_Err_Ok;
     FT_ULong  read_bytes;

     if (pos >= stream->size)
     {
       FT_ERROR(( "FT_Read_Stream_At:" ));
       FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx\n",
                  pos, stream->size ));

       return FT_Err_Invalid_Stream_Operation;
     }

     if (stream->read)
       read_bytes = stream->read( stream, pos, buffer, count );
     else
     {
       read_bytes = stream->size - pos;
       if (read_bytes > count)
         read_bytes = count;

       MEM_Copy( buffer, stream->base + pos, read_bytes );
     }

     stream->pos = pos + read_bytes;

     if (read_bytes < count)
     {
       FT_ERROR(( "FT_Read_Stream_At:" ));
       FT_ERROR(( " invalid read, expected %lu bytes, got %lu",
                  count, read_bytes ));
       error = FT_Err_Invalid_Stream_Operation;
     }

     return error;
   }


   BASE_FUNC
   FT_Error  FT_Access_Frame( FT_Stream  stream,
                              FT_ULong   count )
   {
     FT_Error  error = FT_Err_Ok;
     FT_ULong  read_bytes;

     /* check for nested frame access */
     FT_Assert( stream && stream->cursor == 0 );

     if (stream->read)
     {
       /* allocate the frame in memory */
       FT_Memory  memory = stream->memory;

       if ( ALLOC( stream->base, count ) )
         goto Exit;

       /* read it */
       read_bytes = stream->read( stream, stream->pos,
                                  stream->base, count );
       if (read_bytes < count)
       {
         FT_ERROR(( "FT_Access_Frame:" ));
         FT_ERROR(( " invalid read, expected %lu bytes, got %lu",
                    count, read_bytes ));

         FREE( stream->base );
         error = FT_Err_Invalid_Stream_Operation;
       }
       stream->cursor = stream->base;
       stream->limit  = stream->cursor + count;
       stream->pos   += read_bytes;
     }
     else
     {
       /* check current and new position */
       if (stream->pos >= stream->size || stream->pos + count > stream->size)
       {
         FT_ERROR(( "FT_Access_Frame:" ));
         FT_ERROR(( " invalid i/o, pos = 0x%lx, count = %lu, size = 0x%lx",
                    stream->pos, count, stream->size ));

         error = FT_Err_Invalid_Stream_Operation;
         goto Exit;
       }

       /* set cursor */
       stream->cursor = stream->base + stream->pos;
       stream->limit  = stream->cursor + count;
       stream->pos   += count;
     }
   Exit:
     return error;
   }


   BASE_FUNC
   void  FT_Forget_Frame( FT_Stream  stream )
   {
     FT_Assert( stream && stream->cursor != 0 );

     if (stream->read)
     {
       FT_Memory  memory = stream->memory;

       FREE( stream->base );
     }
     stream->cursor = 0;
     stream->limit  = 0;
   }


   BASE_FUNC
   FT_Char  FT_Get_Char( FT_Stream  stream )
   {
     FT_Char  result;

     FT_Assert( stream && stream->cursor && stream->cursor );

     result = 0;
     if (stream->cursor < stream->limit)
       result = *stream->cursor++;

     return result;
   }


   BASE_FUNC
   FT_Short  FT_Get_Short( FT_Stream  stream )
   {
     char*     p;
     FT_Short  result;

     FT_Assert( stream && stream->cursor );

     result         = 0;
     p              = stream->cursor;
     if (p+1 < stream->limit)
       result       = NEXT_Short(p);
     stream->cursor = p;
     return result;
   }


   BASE_FUNC
   FT_Long  FT_Get_Offset( FT_Stream  stream )
   {
     char*    p;
     FT_Long  result;

     FT_Assert( stream && stream->cursor );

     result         = 0;
     p              = stream->cursor;
     if (p+2 < stream->limit)
       result       = NEXT_Offset(p);
     stream->cursor = p;
     return result;
   }


   BASE_FUNC
   FT_Long  FT_Get_Long( FT_Stream  stream )
   {
     char*    p;
     FT_Long  result;

     FT_Assert( stream && stream->cursor );

     result         = 0;
     p              = stream->cursor;
     if (p+3 < stream->limit)
       result       = NEXT_Long(p);
     stream->cursor = p;
     return result;
   }


   BASE_FUNC
   FT_Char  FT_Read_Char( FT_Stream  stream,
                          FT_Error*  error )
   {
     char  result = 0;

     FT_Assert( stream );

     *error = FT_Err_Ok;

     if (stream->read)
     {
       if ( stream->read( stream, stream->pos, &result, 1L ) != 1L )
         goto Fail;
     }
     else
     {
       if (stream->pos < stream->size)
         result = stream->base[stream->pos];
       else
         goto Fail;
     }
     stream->pos++;
     return result;

   Fail:
     *error = FT_Err_Invalid_Stream_Operation;
     FT_ERROR(( "FT_Read_Char:" ));
     FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
                stream->pos, stream->size ));
     return 0;
   }


   BASE_FUNC
   FT_Short  FT_Read_Short( FT_Stream  stream,
                            FT_Error*  error )
   {
     char     reads[2];
     char*    p = 0;
     FT_Short result = 0;

     FT_Assert( stream );

     *error = FT_Err_Ok;

     if (stream->pos+1 < stream->size)
     {
       if (stream->read)
       {
         if (stream->read( stream, stream->pos, reads, 2L ) != 2L )
           goto Fail;

         p = reads;
       }
       else
       {
         p = stream->base + stream->pos;
       }

       if (p)
         result = NEXT_Short(p);
     }
     else goto Fail;

     stream->pos += 2;
     return result;

   Fail:
     *error = FT_Err_Invalid_Stream_Operation;
     FT_ERROR(( "FT_Read_Short:" ));
     FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
                stream->pos, stream->size ));
     return 0;
   }


   BASE_FUNC
   FT_Long  FT_Read_Offset( FT_Stream  stream,
                            FT_Error*  error )
   {
     char     reads[3];
     char*    p = 0;
     FT_Long  result = 0;

     FT_Assert( stream );

     *error = FT_Err_Ok;

     if (stream->pos+2 < stream->size)
     {
       if (stream->read)
       {
         if (stream->read( stream, stream->pos, reads, 3L ) != 3L )
           goto Fail;

         p = reads;
       }
       else
       {
         p = stream->base + stream->pos;
       }

       if (p)
         result = NEXT_Offset(p);
     }
     else goto Fail;

     stream->pos += 3;
     return result;

   Fail:
     *error = FT_Err_Invalid_Stream_Operation;
     FT_ERROR(( "FT_Read_Offset:" ));
     FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
                stream->pos, stream->size ));
     return 0;
   }


   BASE_FUNC
   FT_Long  FT_Read_Long( FT_Stream  stream,
                          FT_Error*  error )
   {
     char     reads[4];
     char*    p = 0;
     FT_Long  result = 0;

     FT_Assert( stream );

     *error = FT_Err_Ok;

     if (stream->pos+3 < stream->size)
     {
       if (stream->read)
       {
         if (stream->read( stream, stream->pos, reads, 4L ) != 4L )
           goto Fail;

         p = reads;
       }
       else
       {
         p = stream->base + stream->pos;
       }

       if (p)
         result = NEXT_Long(p);
     }
     else goto Fail;

     stream->pos += 4;
     return result;

   Fail:
     *error = FT_Err_Invalid_Stream_Operation;
     FT_ERROR(( "FT_Read_Long:" ));
     FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
                stream->pos, stream->size ));
     return 0;
   }

   BASE_FUNC
   FT_Error FT_Read_Fields( FT_Stream              stream,
                            const FT_Frame_Field*  fields,
                            void*                  structure )
   {
     FT_Error  error;
     FT_Bool   frame_accessed = 0;

     if (!fields || !stream)
       return FT_Err_Invalid_Argument;

     error = FT_Err_Ok;
     do
     {
       FT_ULong  value;
       FT_Int    sign_shift;
       FT_Byte*  p;

       switch (fields->value)
       {
         case ft_frame_start:  /* access a new frame */
           {
             error = FT_Access_Frame( stream, fields->offset );
             if (error) goto Exit;

             frame_accessed = 1;
             fields++;
             continue;  /* loop ! */
           }

         case ft_frame_byte:
         case ft_frame_schar:  /* read a single byte */
           {
             value = GET_Byte();
             sign_shift = 24;
             break;
           }

         case ft_frame_short_be:
         case ft_frame_ushort_be:  /* read a 2-byte big-endian short */
           {
             value = GET_UShort();
             sign_shift = 16;
             break;
           }

         case ft_frame_short_le:
         case ft_frame_ushort_le:  /* read a 2-byte little-endian short */
           {
             char* p;
             value = 0;
             p     = stream->cursor;
             if (p+1 < stream->limit)
             {
               value = (FT_UShort)p[0] | ((FT_UShort)p[1] << 8);
               stream->cursor += 2;
             }
             sign_shift = 16;
             break;
           }

         case ft_frame_long_be:
         case ft_frame_ulong_be:  /* read a 4-byte big-endian long */
           {
             value = GET_ULong();
             sign_shift = 0;
             break;
           }

         case ft_frame_long_le:
         case ft_frame_ulong_le:  /* read a 4-byte little-endian long */
           {
             char* p;
             value = 0;
             p     = stream->cursor;
             if (p+3 < stream->limit)
             {
               value = (FT_ULong)p[0]        |
                      ((FT_ULong)p[1] << 8)  |
                      ((FT_ULong)p[2] << 16) |
                      ((FT_ULong)p[3] << 24);
               stream->cursor += 4;
             }
             sign_shift = 0;
             break;
           }

         case ft_frame_off3_be:
         case ft_frame_uoff3_be:  /* read a 3-byte big-endian long */
           {
             value = GET_UOffset();
             sign_shift = 8;
             break;
           }

         case ft_frame_off3_le:
         case ft_frame_uoff3_le:  /* read a 3-byte little-endian long */
           {
             char* p;
             value = 0;
             p     = stream->cursor;
             if (p+3 < stream->limit)
             {
               value = (FT_ULong)p[0]        |
                      ((FT_ULong)p[1] << 8)  |
                      ((FT_ULong)p[2] << 16) |
                      ((FT_ULong)p[3] << 24);
               stream->cursor += 4;
             }
             sign_shift = 8;
             break;
           }

         default:
           /* otherwise, exit the loop */
           goto Exit;
       }

       /* now, compute the signed value is necessary */
       if (fields->value & FT_FRAME_OP_SIGNED)
         value   = (FT_ULong)((FT_Long)(value << sign_shift) >> sign_shift);

       /* finally, store the value in the object */

       p = (FT_Byte*)structure + fields->offset;
       switch (fields->size)
       {
         case 1: *(FT_Byte*)p   = (FT_Byte)  value; break;
         case 2: *(FT_UShort*)p = (FT_UShort)value; break;
         case 4: *(FT_ULong*)p  = (FT_ULong) value; break;
         default:  ; /* ignore !! */
       }

       /* go to next field */
       fields++;
     }
     while (1);

   Exit:
     /* close the frame if it was opened by this read */
     if (frame_accessed)
       FT_Forget_Frame(stream);

     return error;
   }
	#include <ftstream.h>
	#include <ftdebug.h>

	#undef FT_COMPONENT
	#define FT_COMPONENT trace_stream


	BASE_FUNC
	void FT_New_Memory_Stream( FT_Library library,
	void* base,
	unsigned long size,
	FT_Stream stream )
	{
	stream->memory = library->memory;
	stream->base = (char*)base;
	stream->size = size;
	stream->pos = 0;
	stream->cursor = 0;
	stream->read = 0;
	stream->close = 0;
	}


	BASE_FUNC
	FT_Error FT_Seek_Stream( FT_Stream stream,
	FT_ULong pos )
	{
	FT_Error error;

	stream->pos = pos;

	if (stream->read)
	{
	if (stream->read( stream, pos, 0, 0 ))
	{
	error = FT_Err_Invalid_Stream_Operation;

	FT_ERROR(( "FT_Seek_Stream:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx\n",
	pos, stream->size ));
	}
	else
	error = FT_Err_Ok;
	}
	/* note that seeking to the first position after the file is valid */
	else if (pos > stream->size)
	{
	error = FT_Err_Invalid_Stream_Operation;

	FT_ERROR(( "FT_Seek_Stream:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx\n",
	pos, stream->size ));
	}

	else
	error = FT_Err_Ok;

	return error;
	}


	BASE_FUNC
	FT_Error FT_Skip_Stream( FT_Stream stream,
	FT_Long distance )
	{
	return FT_Seek_Stream( stream, (FT_ULong)(stream->pos + distance) );
	}



	BASE_FUNC
	FT_Long FT_Stream_Pos( FT_Stream stream )
	{
	return stream->pos;
	}


	BASE_FUNC
	FT_Error FT_Read_Stream( FT_Stream stream,
	void* buffer,
	FT_ULong count )
	{
	return FT_Read_Stream_At( stream, stream->pos, buffer, count );
	}


	BASE_FUNC
	FT_Error FT_Read_Stream_At( FT_Stream stream,
	FT_ULong pos,
	void* buffer,
	FT_ULong count )
	{
	FT_Error error = FT_Err_Ok;
	FT_ULong read_bytes;

	if (pos >= stream->size)
	{
	FT_ERROR(( "FT_Read_Stream_At:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx\n",
	pos, stream->size ));

	return FT_Err_Invalid_Stream_Operation;
	}

	if (stream->read)
	read_bytes = stream->read( stream, pos, buffer, count );
	else
	{
	read_bytes = stream->size - pos;
	if (read_bytes > count)
	read_bytes = count;

	MEM_Copy( buffer, stream->base + pos, read_bytes );
	}

	stream->pos = pos + read_bytes;

	if (read_bytes < count)
	{
	FT_ERROR(( "FT_Read_Stream_At:" ));
	FT_ERROR(( " invalid read, expected %lu bytes, got %lu",
	count, read_bytes ));
	error = FT_Err_Invalid_Stream_Operation;
	}

	return error;
	}



	BASE_FUNC
	FT_Error FT_Access_Frame( FT_Stream stream,
	FT_ULong count )
	{
	FT_Error error = FT_Err_Ok;
	FT_ULong read_bytes;

	/* check for nested frame access */
	FT_Assert( stream && stream->cursor == 0 );

	if (stream->read)
	{
	/* allocate the frame in memory */
	FT_Memory memory = stream->memory;

	if ( ALLOC( stream->base, count ) )
	goto Exit;

	/* read it */
	read_bytes = stream->read( stream, stream->pos,
	stream->base, count );
	if (read_bytes < count)
	{
	FT_ERROR(( "FT_Access_Frame:" ));
	FT_ERROR(( " invalid read, expected %lu bytes, got %lu",
	count, read_bytes ));

	FREE( stream->base );
	error = FT_Err_Invalid_Stream_Operation;
	}
	stream->cursor = stream->base;
	stream->limit = stream->cursor + count;
	stream->pos += read_bytes;
	}
	else
	{
	/* check current and new position */
	if (stream->pos >= stream->size \|\| stream->pos + count > stream->size)
	{
	FT_ERROR(( "FT_Access_Frame:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, count = %lu, size = 0x%lx",
	stream->pos, count, stream->size ));

	error = FT_Err_Invalid_Stream_Operation;
	goto Exit;
	}

	/* set cursor */
	stream->cursor = stream->base + stream->pos;
	stream->limit = stream->cursor + count;
	stream->pos += count;
	}
	Exit:
	return error;
	}


	BASE_FUNC
	void FT_Forget_Frame( FT_Stream stream )
	{
	FT_Assert( stream && stream->cursor != 0 );

	if (stream->read)
	{
	FT_Memory memory = stream->memory;

	FREE( stream->base );
	}
	stream->cursor = 0;
	stream->limit = 0;
	}


	BASE_FUNC
	FT_Char FT_Get_Char( FT_Stream stream )
	{
	FT_Char result;

	FT_Assert( stream && stream->cursor && stream->cursor );

	result = 0;
	if (stream->cursor < stream->limit)
	result = *stream->cursor++;

	return result;
	}


	BASE_FUNC
	FT_Short FT_Get_Short( FT_Stream stream )
	{
	char* p;
	FT_Short result;

	FT_Assert( stream && stream->cursor );

	result = 0;
	p = stream->cursor;
	if (p+1 < stream->limit)
	result = NEXT_Short(p);
	stream->cursor = p;
	return result;
	}


	BASE_FUNC
	FT_Long FT_Get_Offset( FT_Stream stream )
	{
	char* p;
	FT_Long result;

	FT_Assert( stream && stream->cursor );

	result = 0;
	p = stream->cursor;
	if (p+2 < stream->limit)
	result = NEXT_Offset(p);
	stream->cursor = p;
	return result;
	}


	BASE_FUNC
	FT_Long FT_Get_Long( FT_Stream stream )
	{
	char* p;
	FT_Long result;

	FT_Assert( stream && stream->cursor );

	result = 0;
	p = stream->cursor;
	if (p+3 < stream->limit)
	result = NEXT_Long(p);
	stream->cursor = p;
	return result;
	}


	BASE_FUNC
	FT_Char FT_Read_Char( FT_Stream stream,
	FT_Error* error )
	{
	char result = 0;

	FT_Assert( stream );

	*error = FT_Err_Ok;

	if (stream->read)
	{
	if ( stream->read( stream, stream->pos, &result, 1L ) != 1L )
	goto Fail;
	}
	else
	{
	if (stream->pos < stream->size)
	result = stream->base[stream->pos];
	else
	goto Fail;
	}
	stream->pos++;
	return result;

	Fail:
	*error = FT_Err_Invalid_Stream_Operation;
	FT_ERROR(( "FT_Read_Char:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
	stream->pos, stream->size ));
	return 0;
	}


	BASE_FUNC
	FT_Short FT_Read_Short( FT_Stream stream,
	FT_Error* error )
	{
	char reads[2];
	char* p = 0;
	FT_Short result = 0;

	FT_Assert( stream );

	*error = FT_Err_Ok;

	if (stream->pos+1 < stream->size)
	{
	if (stream->read)
	{
	if (stream->read( stream, stream->pos, reads, 2L ) != 2L )
	goto Fail;

	p = reads;
	}
	else
	{
	p = stream->base + stream->pos;
	}

	if (p)
	result = NEXT_Short(p);
	}
	else goto Fail;

	stream->pos += 2;
	return result;

	Fail:
	*error = FT_Err_Invalid_Stream_Operation;
	FT_ERROR(( "FT_Read_Short:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
	stream->pos, stream->size ));
	return 0;
	}


	BASE_FUNC
	FT_Long FT_Read_Offset( FT_Stream stream,
	FT_Error* error )
	{
	char reads[3];
	char* p = 0;
	FT_Long result = 0;

	FT_Assert( stream );

	*error = FT_Err_Ok;

	if (stream->pos+2 < stream->size)
	{
	if (stream->read)
	{
	if (stream->read( stream, stream->pos, reads, 3L ) != 3L )
	goto Fail;

	p = reads;
	}
	else
	{
	p = stream->base + stream->pos;
	}

	if (p)
	result = NEXT_Offset(p);
	}
	else goto Fail;

	stream->pos += 3;
	return result;

	Fail:
	*error = FT_Err_Invalid_Stream_Operation;
	FT_ERROR(( "FT_Read_Offset:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
	stream->pos, stream->size ));
	return 0;
	}


	BASE_FUNC
	FT_Long FT_Read_Long( FT_Stream stream,
	FT_Error* error )
	{
	char reads[4];
	char* p = 0;
	FT_Long result = 0;

	FT_Assert( stream );

	*error = FT_Err_Ok;

	if (stream->pos+3 < stream->size)
	{
	if (stream->read)
	{
	if (stream->read( stream, stream->pos, reads, 4L ) != 4L )
	goto Fail;

	p = reads;
	}
	else
	{
	p = stream->base + stream->pos;
	}

	if (p)
	result = NEXT_Long(p);
	}
	else goto Fail;

	stream->pos += 4;
	return result;

	Fail:
	*error = FT_Err_Invalid_Stream_Operation;
	FT_ERROR(( "FT_Read_Long:" ));
	FT_ERROR(( " invalid i/o, pos = 0x%lx, size = 0x%lx",
	stream->pos, stream->size ));
	return 0;
	}

	BASE_FUNC
	FT_Error FT_Read_Fields( FT_Stream stream,
	const FT_Frame_Field* fields,
	void* structure )
	{
	FT_Error error;
	FT_Bool frame_accessed = 0;

	if (!fields \|\| !stream)
	return FT_Err_Invalid_Argument;

	error = FT_Err_Ok;
	do
	{
	FT_ULong value;
	FT_Int sign_shift;
	FT_Byte* p;

	switch (fields->value)
	{
	case ft_frame_start: /* access a new frame */
	{
	error = FT_Access_Frame( stream, fields->offset );
	if (error) goto Exit;

	frame_accessed = 1;
	fields++;
	continue; /* loop ! */
	}

	case ft_frame_byte:
	case ft_frame_schar: /* read a single byte */
	{
	value = GET_Byte();
	sign_shift = 24;
	break;
	}

	case ft_frame_short_be:
	case ft_frame_ushort_be: /* read a 2-byte big-endian short */
	{
	value = GET_UShort();
	sign_shift = 16;
	break;
	}

	case ft_frame_short_le:
	case ft_frame_ushort_le: /* read a 2-byte little-endian short */
	{
	char* p;
	value = 0;
	p = stream->cursor;
	if (p+1 < stream->limit)
	{
	value = (FT_UShort)p[0] \| ((FT_UShort)p[1] << 8);
	stream->cursor += 2;
	}
	sign_shift = 16;
	break;
	}

	case ft_frame_long_be:
	case ft_frame_ulong_be: /* read a 4-byte big-endian long */
	{
	value = GET_ULong();
	sign_shift = 0;
	break;
	}

	case ft_frame_long_le:
	case ft_frame_ulong_le: /* read a 4-byte little-endian long */
	{
	char* p;
	value = 0;
	p = stream->cursor;
	if (p+3 < stream->limit)
	{
	value = (FT_ULong)p[0] \|
	((FT_ULong)p[1] << 8) \|
	((FT_ULong)p[2] << 16) \|
	((FT_ULong)p[3] << 24);
	stream->cursor += 4;
	}
	sign_shift = 0;
	break;
	}

	case ft_frame_off3_be:
	case ft_frame_uoff3_be: /* read a 3-byte big-endian long */
	{
	value = GET_UOffset();
	sign_shift = 8;
	break;
	}

	case ft_frame_off3_le:
	case ft_frame_uoff3_le: /* read a 3-byte little-endian long */
	{
	char* p;
	value = 0;
	p = stream->cursor;
	if (p+3 < stream->limit)
	{
	value = (FT_ULong)p[0] \|
	((FT_ULong)p[1] << 8) \|
	((FT_ULong)p[2] << 16) \|
	((FT_ULong)p[3] << 24);
	stream->cursor += 4;
	}
	sign_shift = 8;
	break;
	}

	default:
	/* otherwise, exit the loop */
	goto Exit;
	}

	/* now, compute the signed value is necessary */
	if (fields->value & FT_FRAME_OP_SIGNED)
	value = (FT_ULong)((FT_Long)(value << sign_shift) >> sign_shift);

	/* finally, store the value in the object */

	p = (FT_Byte*)structure + fields->offset;
	switch (fields->size)
	{
	case 1: (FT_Byte)p = (FT_Byte) value; break;
	case 2: (FT_UShort)p = (FT_UShort)value; break;
	case 4: (FT_ULong)p = (FT_ULong) value; break;
	default: ; /* ignore !! */
	}

	/* go to next field */
	fields++;
	}
	while (1);

	Exit:
	/* close the frame if it was opened by this read */
	if (frame_accessed)
	FT_Forget_Frame(stream);

	return error;
	}