/**************************************************************************** * * ftstream.h * * Stream handling (specification). * * Copyright (C) 1996-2020 by * David Turner, Robert Wilhelm, and Werner Lemberg. * * This file is part of the FreeType project, and may only be used, * modified, and distributed under the terms of the FreeType project * license, LICENSE.TXT. By continuing to use, modify, or distribute * this file you indicate that you have read the license and * understand and accept it fully. * */ #ifndef FTSTREAM_H_ #define FTSTREAM_H_ #include #include FT_SYSTEM_H #include FT_INTERNAL_OBJECTS_H FT_BEGIN_HEADER /* format of an 8-bit frame_op value: */ /* */ /* bit 76543210 */ /* xxxxxxes */ /* */ /* s is set to 1 if the value is signed. */ /* e is set to 1 if the value is little-endian. */ /* xxx is a command. */ #define FT_FRAME_OP_SHIFT 2 #define FT_FRAME_OP_SIGNED 1 #define FT_FRAME_OP_LITTLE 2 #define FT_FRAME_OP_COMMAND( x ) ( x >> FT_FRAME_OP_SHIFT ) #define FT_MAKE_FRAME_OP( command, little, sign ) \ ( ( command << FT_FRAME_OP_SHIFT ) | ( little << 1 ) | sign ) #define FT_FRAME_OP_END 0 #define FT_FRAME_OP_START 1 /* start a new frame */ #define FT_FRAME_OP_BYTE 2 /* read 1-byte value */ #define FT_FRAME_OP_SHORT 3 /* read 2-byte value */ #define FT_FRAME_OP_LONG 4 /* read 4-byte value */ #define FT_FRAME_OP_OFF3 5 /* read 3-byte value */ #define FT_FRAME_OP_BYTES 6 /* read a bytes sequence */ typedef enum FT_Frame_Op_ { ft_frame_end = 0, ft_frame_start = FT_MAKE_FRAME_OP( FT_FRAME_OP_START, 0, 0 ), ft_frame_byte = FT_MAKE_FRAME_OP( FT_FRAME_OP_BYTE, 0, 0 ), ft_frame_schar = FT_MAKE_FRAME_OP( FT_FRAME_OP_BYTE, 0, 1 ), ft_frame_ushort_be = FT_MAKE_FRAME_OP( FT_FRAME_OP_SHORT, 0, 0 ), ft_frame_short_be = FT_MAKE_FRAME_OP( FT_FRAME_OP_SHORT, 0, 1 ), ft_frame_ushort_le = FT_MAKE_FRAME_OP( FT_FRAME_OP_SHORT, 1, 0 ), ft_frame_short_le = FT_MAKE_FRAME_OP( FT_FRAME_OP_SHORT, 1, 1 ), ft_frame_ulong_be = FT_MAKE_FRAME_OP( FT_FRAME_OP_LONG, 0, 0 ), ft_frame_long_be = FT_MAKE_FRAME_OP( FT_FRAME_OP_LONG, 0, 1 ), ft_frame_ulong_le = FT_MAKE_FRAME_OP( FT_FRAME_OP_LONG, 1, 0 ), ft_frame_long_le = FT_MAKE_FRAME_OP( FT_FRAME_OP_LONG, 1, 1 ), ft_frame_uoff3_be = FT_MAKE_FRAME_OP( FT_FRAME_OP_OFF3, 0, 0 ), ft_frame_off3_be = FT_MAKE_FRAME_OP( FT_FRAME_OP_OFF3, 0, 1 ), ft_frame_uoff3_le = FT_MAKE_FRAME_OP( FT_FRAME_OP_OFF3, 1, 0 ), ft_frame_off3_le = FT_MAKE_FRAME_OP( FT_FRAME_OP_OFF3, 1, 1 ), ft_frame_bytes = FT_MAKE_FRAME_OP( FT_FRAME_OP_BYTES, 0, 0 ), ft_frame_skip = FT_MAKE_FRAME_OP( FT_FRAME_OP_BYTES, 0, 1 ) } FT_Frame_Op; typedef struct FT_Frame_Field_ { FT_Byte value; FT_Byte size; FT_UShort offset; } FT_Frame_Field; /* Construct an FT_Frame_Field out of a structure type and a field name. */ /* The structure type must be set in the FT_STRUCTURE macro before */ /* calling the FT_FRAME_START() macro. */ /* */ #define FT_FIELD_SIZE( f ) \ (FT_Byte)sizeof ( ((FT_STRUCTURE*)0)->f ) #define FT_FIELD_SIZE_DELTA( f ) \ (FT_Byte)sizeof ( ((FT_STRUCTURE*)0)->f[0] ) #define FT_FIELD_OFFSET( f ) \ (FT_UShort)( offsetof( FT_STRUCTURE, f ) ) #define FT_FRAME_FIELD( frame_op, field ) \ { \ frame_op, \ FT_FIELD_SIZE( field ), \ FT_FIELD_OFFSET( field ) \ } #define FT_MAKE_EMPTY_FIELD( frame_op ) { frame_op, 0, 0 } #define FT_FRAME_START( size ) { ft_frame_start, 0, size } #define FT_FRAME_END { ft_frame_end, 0, 0 } #define FT_FRAME_LONG( f ) FT_FRAME_FIELD( ft_frame_long_be, f ) #define FT_FRAME_ULONG( f ) FT_FRAME_FIELD( ft_frame_ulong_be, f ) #define FT_FRAME_SHORT( f ) FT_FRAME_FIELD( ft_frame_short_be, f ) #define FT_FRAME_USHORT( f ) FT_FRAME_FIELD( ft_frame_ushort_be, f ) #define FT_FRAME_OFF3( f ) FT_FRAME_FIELD( ft_frame_off3_be, f ) #define FT_FRAME_UOFF3( f ) FT_FRAME_FIELD( ft_frame_uoff3_be, f ) #define FT_FRAME_BYTE( f ) FT_FRAME_FIELD( ft_frame_byte, f ) #define FT_FRAME_CHAR( f ) FT_FRAME_FIELD( ft_frame_schar, f ) #define FT_FRAME_LONG_LE( f ) FT_FRAME_FIELD( ft_frame_long_le, f ) #define FT_FRAME_ULONG_LE( f ) FT_FRAME_FIELD( ft_frame_ulong_le, f ) #define FT_FRAME_SHORT_LE( f ) FT_FRAME_FIELD( ft_frame_short_le, f ) #define FT_FRAME_USHORT_LE( f ) FT_FRAME_FIELD( ft_frame_ushort_le, f ) #define FT_FRAME_OFF3_LE( f ) FT_FRAME_FIELD( ft_frame_off3_le, f ) #define FT_FRAME_UOFF3_LE( f ) FT_FRAME_FIELD( ft_frame_uoff3_le, f ) #define FT_FRAME_SKIP_LONG { ft_frame_long_be, 0, 0 } #define FT_FRAME_SKIP_SHORT { ft_frame_short_be, 0, 0 } #define FT_FRAME_SKIP_BYTE { ft_frame_byte, 0, 0 } #define FT_FRAME_BYTES( field, count ) \ { \ ft_frame_bytes, \ count, \ FT_FIELD_OFFSET( field ) \ } #define FT_FRAME_SKIP_BYTES( count ) { ft_frame_skip, count, 0 } /************************************************************************** * * Integer extraction macros -- the 'buffer' parameter must ALWAYS be of * type 'char*' or equivalent (1-byte elements). */ #define FT_BYTE_( p, i ) ( ((const FT_Byte*)(p))[(i)] ) #define FT_INT16( x ) ( (FT_Int16)(x) ) #define FT_UINT16( x ) ( (FT_UInt16)(x) ) #define FT_INT32( x ) ( (FT_Int32)(x) ) #define FT_UINT32( x ) ( (FT_UInt32)(x) ) #define FT_BYTE_U16( p, i, s ) ( FT_UINT16( FT_BYTE_( p, i ) ) << (s) ) #define FT_BYTE_U32( p, i, s ) ( FT_UINT32( FT_BYTE_( p, i ) ) << (s) ) /* * function acts on increases does range for emits * pointer checking frames error * ------------------------------------------------------------------- * FT_PEEK_XXX buffer pointer no no no no * FT_NEXT_XXX buffer pointer yes no no no * FT_GET_XXX stream->cursor yes yes yes no * FT_READ_XXX stream->pos yes yes no yes */ /* * `FT_PEEK_XXX' are generic macros to get data from a buffer position. No * safety checks are performed. */ #define FT_PEEK_SHORT( p ) FT_INT16( FT_BYTE_U16( p, 0, 8 ) | \ FT_BYTE_U16( p, 1, 0 ) ) #define FT_PEEK_USHORT( p ) FT_UINT16( FT_BYTE_U16( p, 0, 8 ) | \ FT_BYTE_U16( p, 1, 0 ) ) #define FT_PEEK_LONG( p ) FT_INT32( FT_BYTE_U32( p, 0, 24 ) | \ FT_BYTE_U32( p, 1, 16 ) | \ FT_BYTE_U32( p, 2, 8 ) | \ FT_BYTE_U32( p, 3, 0 ) ) #define FT_PEEK_ULONG( p ) FT_UINT32( FT_BYTE_U32( p, 0, 24 ) | \ FT_BYTE_U32( p, 1, 16 ) | \ FT_BYTE_U32( p, 2, 8 ) | \ FT_BYTE_U32( p, 3, 0 ) ) #define FT_PEEK_OFF3( p ) FT_INT32( FT_BYTE_U32( p, 0, 16 ) | \ FT_BYTE_U32( p, 1, 8 ) | \ FT_BYTE_U32( p, 2, 0 ) ) #define FT_PEEK_UOFF3( p ) FT_UINT32( FT_BYTE_U32( p, 0, 16 ) | \ FT_BYTE_U32( p, 1, 8 ) | \ FT_BYTE_U32( p, 2, 0 ) ) #define FT_PEEK_SHORT_LE( p ) FT_INT16( FT_BYTE_U16( p, 1, 8 ) | \ FT_BYTE_U16( p, 0, 0 ) ) #define FT_PEEK_USHORT_LE( p ) FT_UINT16( FT_BYTE_U16( p, 1, 8 ) | \ FT_BYTE_U16( p, 0, 0 ) ) #define FT_PEEK_LONG_LE( p ) FT_INT32( FT_BYTE_U32( p, 3, 24 ) | \ FT_BYTE_U32( p, 2, 16 ) | \ FT_BYTE_U32( p, 1, 8 ) | \ FT_BYTE_U32( p, 0, 0 ) ) #define FT_PEEK_ULONG_LE( p ) FT_UINT32( FT_BYTE_U32( p, 3, 24 ) | \ FT_BYTE_U32( p, 2, 16 ) | \ FT_BYTE_U32( p, 1, 8 ) | \ FT_BYTE_U32( p, 0, 0 ) ) #define FT_PEEK_OFF3_LE( p ) FT_INT32( FT_BYTE_U32( p, 2, 16 ) | \ FT_BYTE_U32( p, 1, 8 ) | \ FT_BYTE_U32( p, 0, 0 ) ) #define FT_PEEK_UOFF3_LE( p ) FT_UINT32( FT_BYTE_U32( p, 2, 16 ) | \ FT_BYTE_U32( p, 1, 8 ) | \ FT_BYTE_U32( p, 0, 0 ) ) /* * `FT_NEXT_XXX' are generic macros to get data from a buffer position * which is then increased appropriately. No safety checks are performed. */ #define FT_NEXT_CHAR( buffer ) \ ( (signed char)*buffer++ ) #define FT_NEXT_BYTE( buffer ) \ ( (unsigned char)*buffer++ ) #define FT_NEXT_SHORT( buffer ) \ ( (short)( buffer += 2, FT_PEEK_SHORT( buffer - 2 ) ) ) #define FT_NEXT_USHORT( buffer ) \ ( (unsigned short)( buffer += 2, FT_PEEK_USHORT( buffer - 2 ) ) ) #define FT_NEXT_OFF3( buffer ) \ ( (long)( buffer += 3, FT_PEEK_OFF3( buffer - 3 ) ) ) #define FT_NEXT_UOFF3( buffer ) \ ( (unsigned long)( buffer += 3, FT_PEEK_UOFF3( buffer - 3 ) ) ) #define FT_NEXT_LONG( buffer ) \ ( (long)( buffer += 4, FT_PEEK_LONG( buffer - 4 ) ) ) #define FT_NEXT_ULONG( buffer ) \ ( (unsigned long)( buffer += 4, FT_PEEK_ULONG( buffer - 4 ) ) ) #define FT_NEXT_SHORT_LE( buffer ) \ ( (short)( buffer += 2, FT_PEEK_SHORT_LE( buffer - 2 ) ) ) #define FT_NEXT_USHORT_LE( buffer ) \ ( (unsigned short)( buffer += 2, FT_PEEK_USHORT_LE( buffer - 2 ) ) ) #define FT_NEXT_OFF3_LE( buffer ) \ ( (long)( buffer += 3, FT_PEEK_OFF3_LE( buffer - 3 ) ) ) #define FT_NEXT_UOFF3_LE( buffer ) \ ( (unsigned long)( buffer += 3, FT_PEEK_UOFF3_LE( buffer - 3 ) ) ) #define FT_NEXT_LONG_LE( buffer ) \ ( (long)( buffer += 4, FT_PEEK_LONG_LE( buffer - 4 ) ) ) #define FT_NEXT_ULONG_LE( buffer ) \ ( (unsigned long)( buffer += 4, FT_PEEK_ULONG_LE( buffer - 4 ) ) ) /************************************************************************** * * The `FT_GET_XXX` macros use an implicit 'stream' variable. * * Note that a call to `FT_STREAM_SEEK` or `FT_STREAM_POS` has **no** * effect on `FT_GET_XXX`! They operate on `stream->pos`, while * `FT_GET_XXX` use `stream->cursor`. */ #if 0 #define FT_GET_MACRO( type ) FT_NEXT_ ## type ( stream->cursor ) #define FT_GET_CHAR() FT_GET_MACRO( CHAR ) #define FT_GET_BYTE() FT_GET_MACRO( BYTE ) #define FT_GET_SHORT() FT_GET_MACRO( SHORT ) #define FT_GET_USHORT() FT_GET_MACRO( USHORT ) #define FT_GET_OFF3() FT_GET_MACRO( OFF3 ) #define FT_GET_UOFF3() FT_GET_MACRO( UOFF3 ) #define FT_GET_LONG() FT_GET_MACRO( LONG ) #define FT_GET_ULONG() FT_GET_MACRO( ULONG ) #define FT_GET_TAG4() FT_GET_MACRO( ULONG ) #define FT_GET_SHORT_LE() FT_GET_MACRO( SHORT_LE ) #define FT_GET_USHORT_LE() FT_GET_MACRO( USHORT_LE ) #define FT_GET_LONG_LE() FT_GET_MACRO( LONG_LE ) #define FT_GET_ULONG_LE() FT_GET_MACRO( ULONG_LE ) #else #define FT_GET_MACRO( func, type ) ( (type)func( stream ) ) #define FT_GET_CHAR() FT_GET_MACRO( FT_Stream_GetChar, FT_Char ) #define FT_GET_BYTE() FT_GET_MACRO( FT_Stream_GetChar, FT_Byte ) #define FT_GET_SHORT() FT_GET_MACRO( FT_Stream_GetUShort, FT_Short ) #define FT_GET_USHORT() FT_GET_MACRO( FT_Stream_GetUShort, FT_UShort ) #define FT_GET_OFF3() FT_GET_MACRO( FT_Stream_GetUOffset, FT_Long ) #define FT_GET_UOFF3() FT_GET_MACRO( FT_Stream_GetUOffset, FT_ULong ) #define FT_GET_LONG() FT_GET_MACRO( FT_Stream_GetULong, FT_Long ) #define FT_GET_ULONG() FT_GET_MACRO( FT_Stream_GetULong, FT_ULong ) #define FT_GET_TAG4() FT_GET_MACRO( FT_Stream_GetULong, FT_ULong ) #define FT_GET_SHORT_LE() FT_GET_MACRO( FT_Stream_GetUShortLE, FT_Short ) #define FT_GET_USHORT_LE() FT_GET_MACRO( FT_Stream_GetUShortLE, FT_UShort ) #define FT_GET_LONG_LE() FT_GET_MACRO( FT_Stream_GetULongLE, FT_Long ) #define FT_GET_ULONG_LE() FT_GET_MACRO( FT_Stream_GetULongLE, FT_ULong ) #endif #define FT_READ_MACRO( func, type, var ) \ ( var = (type)func( stream, &error ), \ error != FT_Err_Ok ) /* * The `FT_READ_XXX' macros use implicit `stream' and `error' variables. * * `FT_READ_XXX' can be controlled with `FT_STREAM_SEEK' and * `FT_STREAM_POS'. They use the full machinery to check whether a read is * valid. */ #define FT_READ_BYTE( var ) FT_READ_MACRO( FT_Stream_ReadChar, FT_Byte, var ) #define FT_READ_CHAR( var ) FT_READ_MACRO( FT_Stream_ReadChar, FT_Char, var ) #define FT_READ_SHORT( var ) FT_READ_MACRO( FT_Stream_ReadUShort, FT_Short, var ) #define FT_READ_USHORT( var ) FT_READ_MACRO( FT_Stream_ReadUShort, FT_UShort, var ) #define FT_READ_OFF3( var ) FT_READ_MACRO( FT_Stream_ReadUOffset, FT_Long, var ) #define FT_READ_UOFF3( var ) FT_READ_MACRO( FT_Stream_ReadUOffset, FT_ULong, var ) #define FT_READ_LONG( var ) FT_READ_MACRO( FT_Stream_ReadULong, FT_Long, var ) #define FT_READ_ULONG( var ) FT_READ_MACRO( FT_Stream_ReadULong, FT_ULong, var ) #define FT_READ_SHORT_LE( var ) FT_READ_MACRO( FT_Stream_ReadUShortLE, FT_Short, var ) #define FT_READ_USHORT_LE( var ) FT_READ_MACRO( FT_Stream_ReadUShortLE, FT_UShort, var ) #define FT_READ_LONG_LE( var ) FT_READ_MACRO( FT_Stream_ReadULongLE, FT_Long, var ) #define FT_READ_ULONG_LE( var ) FT_READ_MACRO( FT_Stream_ReadULongLE, FT_ULong, var ) #ifndef FT_CONFIG_OPTION_NO_DEFAULT_SYSTEM /* initialize a stream for reading a regular system stream */ FT_BASE( FT_Error ) FT_Stream_Open( FT_Stream stream, const char* filepathname ); #endif /* FT_CONFIG_OPTION_NO_DEFAULT_SYSTEM */ /* create a new (input) stream from an FT_Open_Args structure */ FT_BASE( FT_Error ) FT_Stream_New( FT_Library library, const FT_Open_Args* args, FT_Stream *astream ); /* free a stream */ FT_BASE( void ) FT_Stream_Free( FT_Stream stream, FT_Int external ); /* initialize a stream for reading in-memory data */ FT_BASE( void ) FT_Stream_OpenMemory( FT_Stream stream, const FT_Byte* base, FT_ULong size ); /* close a stream (does not destroy the stream structure) */ FT_BASE( void ) FT_Stream_Close( FT_Stream stream ); /* seek within a stream. position is relative to start of stream */ FT_BASE( FT_Error ) FT_Stream_Seek( FT_Stream stream, FT_ULong pos ); /* skip bytes in a stream */ FT_BASE( FT_Error ) FT_Stream_Skip( FT_Stream stream, FT_Long distance ); /* return current stream position */ FT_BASE( FT_ULong ) FT_Stream_Pos( FT_Stream stream ); /* read bytes from a stream into a user-allocated buffer, returns an */ /* error if not all bytes could be read. */ FT_BASE( FT_Error ) FT_Stream_Read( FT_Stream stream, FT_Byte* buffer, FT_ULong count ); /* read bytes from a stream at a given position */ FT_BASE( FT_Error ) FT_Stream_ReadAt( FT_Stream stream, FT_ULong pos, FT_Byte* buffer, FT_ULong count ); /* try to read bytes at the end of a stream; return number of bytes */ /* really available */ FT_BASE( FT_ULong ) FT_Stream_TryRead( FT_Stream stream, FT_Byte* buffer, FT_ULong count ); /* Enter a frame of `count' consecutive bytes in a stream. Returns an */ /* error if the frame could not be read/accessed. The caller can use */ /* the `FT_Stream_GetXXX' functions to retrieve frame data without */ /* error checks. */ /* */ /* You must _always_ call `FT_Stream_ExitFrame' once you have entered */ /* a stream frame! */ /* */ /* Nested frames are not permitted. */ /* */ FT_BASE( FT_Error ) FT_Stream_EnterFrame( FT_Stream stream, FT_ULong count ); /* exit a stream frame */ FT_BASE( void ) FT_Stream_ExitFrame( FT_Stream stream ); /* Extract a stream frame. If the stream is disk-based, a heap block */ /* is allocated and the frame bytes are read into it. If the stream */ /* is memory-based, this function simply sets a pointer to the data. */ /* */ /* Useful to optimize access to memory-based streams transparently. */ /* */ /* `FT_Stream_GetXXX' functions can't be used. */ /* */ /* An extracted frame must be `freed' with a call to the function */ /* `FT_Stream_ReleaseFrame'. */ /* */ FT_BASE( FT_Error ) FT_Stream_ExtractFrame( FT_Stream stream, FT_ULong count, FT_Byte** pbytes ); /* release an extract frame (see `FT_Stream_ExtractFrame') */ FT_BASE( void ) FT_Stream_ReleaseFrame( FT_Stream stream, FT_Byte** pbytes ); /* read a byte from an entered frame */ FT_BASE( FT_Char ) FT_Stream_GetChar( FT_Stream stream ); /* read a 16-bit big-endian unsigned integer from an entered frame */ FT_BASE( FT_UShort ) FT_Stream_GetUShort( FT_Stream stream ); /* read a 24-bit big-endian unsigned integer from an entered frame */ FT_BASE( FT_ULong ) FT_Stream_GetUOffset( FT_Stream stream ); /* read a 32-bit big-endian unsigned integer from an entered frame */ FT_BASE( FT_ULong ) FT_Stream_GetULong( FT_Stream stream ); /* read a 16-bit little-endian unsigned integer from an entered frame */ FT_BASE( FT_UShort ) FT_Stream_GetUShortLE( FT_Stream stream ); /* read a 32-bit little-endian unsigned integer from an entered frame */ FT_BASE( FT_ULong ) FT_Stream_GetULongLE( FT_Stream stream ); /* read a byte from a stream */ FT_BASE( FT_Char ) FT_Stream_ReadChar( FT_Stream stream, FT_Error* error ); /* read a 16-bit big-endian unsigned integer from a stream */ FT_BASE( FT_UShort ) FT_Stream_ReadUShort( FT_Stream stream, FT_Error* error ); /* read a 24-bit big-endian unsigned integer from a stream */ FT_BASE( FT_ULong ) FT_Stream_ReadUOffset( FT_Stream stream, FT_Error* error ); /* read a 32-bit big-endian integer from a stream */ FT_BASE( FT_ULong ) FT_Stream_ReadULong( FT_Stream stream, FT_Error* error ); /* read a 16-bit little-endian unsigned integer from a stream */ FT_BASE( FT_UShort ) FT_Stream_ReadUShortLE( FT_Stream stream, FT_Error* error ); /* read a 32-bit little-endian unsigned integer from a stream */ FT_BASE( FT_ULong ) FT_Stream_ReadULongLE( FT_Stream stream, FT_Error* error ); /* Read a structure from a stream. The structure must be described */ /* by an array of FT_Frame_Field records. */ FT_BASE( FT_Error ) FT_Stream_ReadFields( FT_Stream stream, const FT_Frame_Field* fields, void* structure ); #define FT_STREAM_POS() \ FT_Stream_Pos( stream ) #define FT_STREAM_SEEK( position ) \ FT_SET_ERROR( FT_Stream_Seek( stream, \ (FT_ULong)(position) ) ) #define FT_STREAM_SKIP( distance ) \ FT_SET_ERROR( FT_Stream_Skip( stream, \ (FT_Long)(distance) ) ) #define FT_STREAM_READ( buffer, count ) \ FT_SET_ERROR( FT_Stream_Read( stream, \ (FT_Byte*)(buffer), \ (FT_ULong)(count) ) ) #define FT_STREAM_READ_AT( position, buffer, count ) \ FT_SET_ERROR( FT_Stream_ReadAt( stream, \ (FT_ULong)(position), \ (FT_Byte*)(buffer), \ (FT_ULong)(count) ) ) #define FT_STREAM_READ_FIELDS( fields, object ) \ FT_SET_ERROR( FT_Stream_ReadFields( stream, fields, object ) ) #define FT_FRAME_ENTER( size ) \ FT_SET_ERROR( \ FT_DEBUG_INNER( FT_Stream_EnterFrame( stream, \ (FT_ULong)(size) ) ) ) #define FT_FRAME_EXIT() \ FT_DEBUG_INNER( FT_Stream_ExitFrame( stream ) ) #define FT_FRAME_EXTRACT( size, bytes ) \ FT_SET_ERROR( \ FT_DEBUG_INNER( FT_Stream_ExtractFrame( stream, \ (FT_ULong)(size), \ (FT_Byte**)&(bytes) ) ) ) #define FT_FRAME_RELEASE( bytes ) \ FT_DEBUG_INNER( FT_Stream_ReleaseFrame( stream, \ (FT_Byte**)&(bytes) ) ) FT_END_HEADER #endif /* FTSTREAM_H_ */ /* END */