/******************************************************************* * * ttfile.c (extended version) 2.1 * * File I/O Component (body). * * Copyright 1996-1999 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. * * NOTES: * * This implementation relies on the ANSI libc. You may wish to * modify it to get rid of libc and go straight to the your * platform's stream routines. * * The same source code can be used for thread-safe and re-entrant * builds of the library. * * Changes between 2.0 and 2.1 : * * - it is now possible to close a stream's file handle explicitely * through the new API "TT_Flush_Stream". This will simply close * a stream's file handle (useful to save system resources when * dealing with lots of opened fonts). Of course, the function * "TT_Use_Stream" will automatically re-open a stream's handle if * necessary. * * - added "TT_Stream_Size" to replace "TT_File_Size" which wasn't * used anyway. This one returns the size of any stream, even * flushed one (when the previous TT_File_Size could only return * the size of the current working stream). This is used by the * new "Load_TrueType_Any" function in the tables loader. * ******************************************************************/ /* $XFree86: xc/extras/FreeType/lib/ttfile.c,v 1.4 2000/02/18 12:18:43 tsi Exp $ */ #include "ttconfig.h" /* Removed for XFree86 Module support */ #if 0 #include #include #ifdef HAVE_UNISTD_H #include #endif #endif #include "freetype.h" #include "tttypes.h" #include "ttdebug.h" #include "ttengine.h" #include "ttmutex.h" #include "ttmemory.h" #include "ttfile.h" /* our prototypes */ /* required by the tracing mode */ #undef TT_COMPONENT #define TT_COMPONENT trace_file /* For now, we don't define additional error messages in the core library */ /* to report open-on demand errors. Define these error as standard ones */ #define TT_Err_Could_Not_ReOpen_File TT_Err_Could_Not_Open_File #define TT_Err_Could_Not_ReSeek_File TT_Err_Could_Not_Open_File /* This definition is mandatory for each file component! */ EXPORT_FUNC const TFileFrame TT_Null_FileFrame = { NULL, 0, 0 }; /* It has proven useful to do some bounds checks during development phase. */ /* They should probably be undefined for speed reasons in a later release. */ #ifdef DEBUG_FILE #define CHECK_FRAME( frame, n ) \ do { \ if ( frame.cursor + n > frame.address + frame.size ) \ Panic( "Frame boundary error!\n" ); \ } while ( 0 ) #else #define CHECK_FRAME( frame, n ) /* nothing */ #endif /* Because a stream can be flushed, i.e. its file handle can be */ /* closed to save system resources, we must keep the stream's file */ /* pathname to be able to re-open it on demand when it is flushed */ struct TStream_Rec_; typedef struct TStream_Rec_ TStream_Rec; typedef TStream_Rec* PStream_Rec; struct TStream_Rec_ { Bool opened; /* is the stream handle opened ? */ TT_Text* name; /* the file's pathname */ Long position; /* current position within the file */ FILE* file; /* file handle */ Long base; /* stream base in file */ Long size; /* stream size in file */ }; /* We support embedded TrueType files by allowing them to be */ /* inside any file, at any location, hence the 'base' argument. */ /* Note however that the current implementation does not allow you */ /* to specify a 'base' index when opening a file. */ /* (will come later) */ /* I still don't know if this will turn out useful ?? - DavidT */ #define STREAM2REC( x ) ( (TStream_Rec*)HANDLE_Val( x ) ) static TT_Error Stream_Activate ( PStream_Rec stream ); static TT_Error Stream_Deactivate( PStream_Rec stream ); #ifndef TT_CONFIG_OPTION_THREAD_SAFE /*******************************************************************/ /*******************************************************************/ /*******************************************************************/ /**** ****/ /**** N O N R E E N T R A N T I M P L E M E N T A T I O N ****/ /**** ****/ /*******************************************************************/ /*******************************************************************/ /*******************************************************************/ /* in non-rentrant builds, we allocate a single block where we'll */ /* place all the frames smaller than FRAME_CACHE_SIZE, rather than */ /* allocating a new block on each access. Bigger frames will be */ /* malloced normally in the heap. */ /* */ /* See TT_Access_Frame() and TT_Forget_Frame() for details. */ #define FRAME_CACHE_SIZE 2048 /* The TFile_Component structure holds all the data that was */ /* previously declared static or global in this component. */ /* */ /* It is accessible through the 'engine.file_component' */ /* variable in re-entrant builds, or directly through the */ /* static 'files' variable in other builds. */ struct TFile_Component_ { TMutex lock; /* used by the thread-safe build only */ Byte* frame_cache; /* frame cache */ PStream_Rec stream; /* current stream */ TFileFrame frame; /* current frame */ }; typedef struct TFile_Component_ TFile_Component; static TFile_Component files; #define CUR_Stream files.stream #define CUR_Frame files.frame #define STREAM_VARS /* void */ #define STREAM_VAR /* void */ /* The macro CUR_Stream denotes the current input stream. */ /* Note that for the re-entrant version, the 'stream' name has been */ /* chosen according to the macro STREAM_ARGS. */ /* The macro CUR_Frame denotes the current file frame. */ /* Note that for the re-entrant version, the 'frame' name has been */ /* chosen according to the macro FRAME_ARGS. */ /* The macro STREAM_VAR is used when calling public functions */ /* that need an 'optional' stream argument. */ /******************************************************************* * * Function : TTFile_Init * * Description : Initializes the File component. * ******************************************************************/ LOCAL_FUNC TT_Error TTFile_Init( PEngine_Instance engine ) { TT_Error error; MUTEX_Create( files.lock ); files.stream = NULL; ZERO_Frame( files.frame ); if ( ALLOC( files.frame_cache, FRAME_CACHE_SIZE ) ) return error; return TT_Err_Ok; } /******************************************************************* * * Function : TTFile_Done * * Description : Finalizes the File component. * ******************************************************************/ LOCAL_FUNC TT_Error TTFile_Done( PEngine_Instance engine ) { FREE( files.frame_cache ); MUTEX_Destroy( files.lock ); return TT_Err_Ok; } /******************************************************************* * * Function : TT_Use_Stream * * Description : Copies or duplicates a given stream. * * Input : org_stream original stream * stream target stream (copy or duplicate) * * Output : Error code. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Use_Stream( TT_Stream org_stream, TT_Stream* stream ) { MUTEX_Lock( files.lock ); /* lock file mutex */ *stream = org_stream; /* copy the stream */ files.stream = STREAM2REC(org_stream); /* set current stream */ Stream_Activate( files.stream ); return TT_Err_Ok; } /******************************************************************* * * Function : TT_Done_Stream * * Description : Releases a given stream. * * Input : stream target stream * * Output : Error code. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Done_Stream( TT_Stream* stream ) { HANDLE_Set( *stream, NULL ); MUTEX_Release( files.lock ); return TT_Err_Ok; } /******************************************************************* * * Function : TT_Access_Frame * * Description : Notifies the component that we're going to read * 'size' bytes from the current file position. * This function should load/cache/map these bytes * so that they will be addressed by the GET_xxx * functions easily. * * Input : size number of bytes to access. * * Output : SUCCESS on success. FAILURE on error. * * Notes: The function fails if the byte range is not within the * the file, or if there is not enough memory to cache * the bytes properly (which usually means that `size' is * too big in both cases). * ******************************************************************/ EXPORT_FUNC TT_Error TT_Access_Frame( STREAM_ARGS FRAME_ARGS Long size ) { TT_Error error; if ( CUR_Frame.address != NULL ) return TT_Err_Nested_Frame_Access; if ( size <= FRAME_CACHE_SIZE ) { /* use the cache */ CUR_Frame.address = files.frame_cache; CUR_Frame.size = FRAME_CACHE_SIZE; } else { if ( ALLOC( CUR_Frame.address, size ) ) return error; CUR_Frame.size = size; } error = TT_Read_File( STREAM_VARS (void*)CUR_Frame.address, size ); if (error) { if ( size > FRAME_CACHE_SIZE ) FREE( CUR_Frame.address ); CUR_Frame.address = NULL; CUR_Frame.size = 0; } CUR_Frame.cursor = CUR_Frame.address; return error; } /******************************************************************* * * Function : TT_Check_And_Access_Frame * * Description : Notifies the component that we're going to read * `size' bytes from the current file position. * This function should load/cache/map these bytes * so that they will be addressed by the GET_xxx * functions easily. * * Input : size number of bytes to access. * * Output : SUCCESS on success. FAILURE on error. * * Notes: The function truncates `size' if the byte range is not * within the file. * * It will fail if there is not enough memory to cache * the bytes properly (which usually means that `size' is * too big). * * It will fail if you make two consecutive calls * to TT_Access_Frame(), without a TT_Forget_Frame() between * them. * * The only difference with TT_Access_Frame() is that we * check that the frame is within the current file. We * otherwise truncate it. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Check_And_Access_Frame( STREAM_ARGS FRAME_ARGS Long size ) { TT_Error error; Long readBytes, requested; if ( CUR_Frame.address != NULL ) return TT_Err_Nested_Frame_Access; if ( size <= FRAME_CACHE_SIZE ) { /* use the cache */ CUR_Frame.address = files.frame_cache; CUR_Frame.size = FRAME_CACHE_SIZE; } else { if ( ALLOC( CUR_Frame.address, size ) ) return error; CUR_Frame.size = size; } requested = size; readBytes = CUR_Stream->size - TT_File_Pos( STREAM_VAR ); if ( size > readBytes ) size = readBytes; error = TT_Read_File( STREAM_VARS (void*)CUR_Frame.address, size ); if (error) { if ( requested > FRAME_CACHE_SIZE ) FREE( CUR_Frame.address ); CUR_Frame.address = NULL; CUR_Frame.size = 0; } CUR_Frame.cursor = CUR_Frame.address; return error; } /******************************************************************* * * Function : TT_Forget_Frame * * Description : Releases a cached frame after reading. * * Input : None * * Output : SUCCESS on success. FAILURE on error. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Forget_Frame( FRAME_ARG ) { if ( CUR_Frame.address == NULL ) return TT_Err_Nested_Frame_Access; if ( CUR_Frame.size > FRAME_CACHE_SIZE ) FREE( CUR_Frame.address ); ZERO_Frame( CUR_Frame ); return TT_Err_Ok; } #else /* TT_CONFIG_OPTION_THREAD_SAFE */ /*******************************************************************/ /*******************************************************************/ /*******************************************************************/ /******** ********/ /******** R E E N T R A N T I M P L E M E N T A T I O N ********/ /******** ********/ /*******************************************************************/ /*******************************************************************/ /*******************************************************************/ /* a simple macro to access the file component's data */ #define files ( *((TFile_Component*)engine.file_component) ) #define CUR_Stream STREAM2REC( stream ) /* re-entrant macros */ #define CUR_Frame (*frame) #define STREAM_VARS stream, #define STREAM_VAR stream /******************************************************************* * * Function : TTFile_Init * * Description : Initializes the File component. * ******************************************************************/ LOCAL_FUNC TT_Error TTFile_Init( PEngine_Instance engine ) { return TT_Err_Ok; } /******************************************************************* * * Function : TTFile_Done * * Description : Finalizes the File component. * ******************************************************************/ LOCAL_FUNC TT_Error TTFile_Done( PEngine_Instance engine ) { return TT_Err_Ok; } /******************************************************************* * * Function : TT_Use_Stream * * Description : Duplicates a stream for a new usage. * * Input : input_stream source stream to duplicate * copy address of target duplicate stream * * Output : error code. * The target stream is set to NULL in case of failure. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Use_Stream( TT_Stream input_stream, TT_Stream* copy ) { PStream_Rec rec = STREAM2REC( input_stream ); return TT_Open_Stream( rec->name, copy ); } /******************************************************************* * * Function : TT_Done_Stream * * Description : Releases a given stream. * * Input : stream target stream * * Output : * ******************************************************************/ EXPORT_FUNC TT_Error TT_Done_Stream( TT_Stream* stream ) { return TT_Close_Stream( stream ); } /******************************************************************* * * Function : TT_Access_Frame * * Description : Notifies the component that we're going to read * 'size' bytes from the current file position. * This function should load/cache/map these bytes * so that they will be addressed by the GET_xxx * functions easily. * * Input : size number of bytes to access. * * Output : SUCCESS on success. FAILURE on error. * * Notes: The function fails if the byte range is not within the * the file, or if there is not enough memory to cache * the bytes properly (which usually means that `size' is * too big in both cases). * ******************************************************************/ EXPORT_FUNC TT_Error TT_Access_Frame( STREAM_ARGS FRAME_ARGS Long size ) { TT_Error error; if ( CUR_Frame.address != NULL ) return TT_Err_Nested_Frame_Access; if ( ALLOC( CUR_Frame.address, size ) ) return error; CUR_Frame.size = size; error = TT_Read_File( STREAM_VARS (void*)CUR_Frame.address, size ); if ( error ) { FREE( CUR_Frame.address ); CUR_Frame.size = 0; } CUR_Frame.cursor = CUR_Frame.address; return error; } /******************************************************************* * * Function : TT_Check_And_Access_Frame * * Description : Notifies the component that we're going to read * `size' bytes from the current file position. * This function should load/cache/map these bytes * so that they will be addressed by the GET_xxx * functions easily. * * Input : size number of bytes to access. * * Output : SUCCESS on success. FAILURE on error. * * Notes: The function truncates `size' if the byte range is not * within the file. * * It will fail if there is not enough memory to cache * the bytes properly (which usually means that `size' is * too big). * * It will fail if you make two consecutive calls * to TT_Access_Frame(), without a TT_Forget_Frame() between * them. * * The only difference with TT_Access_Frame() is that we * check that the frame is within the current file. We * otherwise truncate it. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Check_And_Access_Frame( STREAM_ARGS FRAME_ARGS Long size ) { TT_Error error; Long readBytes; if ( CUR_Frame.address != NULL ) return TT_Err_Nested_Frame_Access; if ( ALLOC( CUR_Frame.address, size ) ) return error; CUR_Frame.size = size; readBytes = CUR_Stream->size - TT_File_Pos( STREAM_VAR ); if ( size > readBytes ) size = readBytes; error = TT_Read_File( STREAM_VARS (void*)CUR_Frame.address, size ); if ( error ) { FREE( CUR_Frame.address ); CUR_Frame.size = 0; } CUR_Frame.cursor = CUR_Frame.address; return error; } /******************************************************************* * * Function : TT_Forget_Frame * * Description : Releases a cached frame after reading. * * Input : None * * Output : SUCCESS on success. FAILURE on error. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Forget_Frame( FRAME_ARG ) { if ( CUR_Frame.address == NULL ) return TT_Err_Nested_Frame_Access; FREE( CUR_Frame.address ); ZERO_Frame( CUR_Frame ); return TT_Err_Ok; } #endif /* TT_CONFIG_OPTION_THREAD_SAFE */ /*******************************************************************/ /*******************************************************************/ /*******************************************************************/ /*********** ***********/ /*********** C O M M O N I M P L E M E N T A T I O N ***********/ /*********** ***********/ /*******************************************************************/ /*******************************************************************/ /*******************************************************************/ /******************************************************************* * * Function : Stream_Activate * * Description : activates a stream, this will either: * - open a new file handle if the stream is closed * - move the stream to the head of the linked list * * Input : stream the stream to activate * * Output : error condition. * * Note : This function is also called with fresh new streams * created by TT_Open_Stream(). They have their 'size' * field set to -1. * ******************************************************************/ static TT_Error Stream_Activate( PStream_Rec stream ) { if ( !stream->opened ) { if ( (stream->file = fopen( (TT_Text*)stream->name, "rb" )) == 0 ) return TT_Err_Could_Not_ReOpen_File; stream->opened = TRUE; /* A newly created stream has a size field of -1 */ if ( stream->size < 0 ) { fseek( stream->file, 0, SEEK_END ); stream->size = ftell( stream->file ); fseek( stream->file, 0, SEEK_SET ); } /* Reset cursor in file */ if ( stream->position ) { if ( fseek( stream->file, stream->position, SEEK_SET ) != 0 ) { /* error during seek */ fclose( stream->file ); stream->opened = FALSE; return TT_Err_Could_Not_ReSeek_File; } } } return TT_Err_Ok; } /******************************************************************* * * Function : Stream_DeActivate * * Description : deactivates a stream, this will : * - close its file handle if it was opened * - remove it from the opened list if necessary * * Input : stream the stream to deactivate * * Output : Error condition * * Note : the function is called whenever a stream is deleted * (_not_ when a stream handle's is closed due to an * activation). However, the stream record isn't * destroyed by it.. * ******************************************************************/ static TT_Error Stream_Deactivate( PStream_Rec stream ) { if ( stream->opened ) { /* Save its current position within the file */ stream->position = ftell( stream->file ); fclose( stream->file ); stream->file = 0; stream->opened = FALSE; } return TT_Err_Ok; } /******************************************************************* * * Function : TT_Stream_Size * * Description : Returns the length of a given stream, even if it * is flushed. * * Input : stream the stream * * Output : Length of stream in bytes. * ******************************************************************/ EXPORT_FUNC Long TT_Stream_Size( TT_Stream stream ) { PStream_Rec rec = STREAM2REC( stream ); if ( rec ) return rec->size; else return 0; /* invalid stream - return 0 */ } /******************************************************************* * * Function : TT_Open_Stream * * Description : Opens the font file and saves the total file size. * * Input : error address of stream's error variable * (re-entrant build only) * filepathname pathname of the file to open * stream address of target TT_Stream structure * * Output : SUCCESS on sucess, FAILURE on error. * The target stream is set to -1 in case of failure. * ******************************************************************/ LOCAL_FUNC TT_Error TT_Open_Stream( const TT_Text* filepathname, TT_Stream* stream ) { Int len; TT_Error error; PStream_Rec stream_rec; if ( ALLOC( *stream, sizeof ( TStream_Rec ) ) ) return error; stream_rec = STREAM2REC( *stream ); stream_rec->file = NULL; stream_rec->size = -1L; stream_rec->base = 0; stream_rec->opened = FALSE; stream_rec->position = 0; len = strlen( filepathname ) + 1; if ( ALLOC( stream_rec->name, len ) ) goto Fail; strncpy( stream_rec->name, filepathname, len ); error = Stream_Activate( stream_rec ); if ( error ) goto Fail_Activate; #ifndef TT_CONFIG_OPTION_THREAD_SAFE CUR_Stream = stream_rec; #endif return TT_Err_Ok; Fail_Activate: FREE( stream_rec->name ); Fail: FREE( stream_rec ); return error; } /******************************************************************* * * Function : TT_Close_Stream * * Description : Closes a stream. * * Input : stream address of target TT_Stream structure * * Output : SUCCESS (always). * ******************************************************************/ LOCAL_FUNC TT_Error TT_Close_Stream( TT_Stream* stream ) { PStream_Rec rec = STREAM2REC( *stream ); Stream_Deactivate( rec ); FREE( rec->name ); FREE( rec ); HANDLE_Set( *stream, NULL ); return TT_Err_Ok; } /******************************************************************* * * Function : TT_Flush_Stream * * Description : Flushes a stream, i.e., closes its file handle. * * Input : stream address of target TT_Stream structure * * Output : Error code * * NOTE : Never flush the current opened stream. This means that * you should _never_ call this function between a * TT_Use_Stream() and a TT_Done_Stream()! * ******************************************************************/ EXPORT_FUNC TT_Error TT_Flush_Stream( TT_Stream* stream ) { PStream_Rec rec = STREAM2REC( *stream ); if ( rec ) { Stream_Deactivate( rec ); return TT_Err_Ok; } else return TT_Err_Invalid_Argument; } /******************************************************************* * * Function : TT_Seek_File * * Description : Seeks the file cursor to a different position. * * Input : position new position in file * * Output : SUCCESS on success. FAILURE if out of range. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Seek_File( STREAM_ARGS Long position ) { position += CUR_Stream->base; if ( fseek( CUR_Stream->file, position, SEEK_SET ) ) return TT_Err_Invalid_File_Offset; return TT_Err_Ok; } /******************************************************************* * * Function : TT_Skip_File * * Description : Skips forward the file cursor. * * Input : distance number of bytes to skip * * Output : see TT_Seek_File() * ******************************************************************/ EXPORT_FUNC TT_Error TT_Skip_File( STREAM_ARGS Long distance ) { return TT_Seek_File( STREAM_VARS ftell( CUR_Stream->file ) - CUR_Stream->base + distance ); } /******************************************************************* * * Function : TT_Read_File * * Description : Reads a chunk of the file and copies it to memory. * * Input : buffer target buffer * count length in bytes to read * * Output : SUCCESS on success. FAILURE if out of range. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Read_File( STREAM_ARGS void* buffer, Long count ) { if ( fread( buffer, 1, count, CUR_Stream->file ) != (ULong)count ) return TT_Err_Invalid_File_Read; return TT_Err_Ok; } /******************************************************************* * * Function : TT_Read_At_File * * Description : Reads file at a specified position. * * Input : position position to seek to before read * buffer target buffer * count number of bytes to read * * Output : SUCCESS on success. FAILURE if error. * ******************************************************************/ EXPORT_FUNC TT_Error TT_Read_At_File( STREAM_ARGS Long position, void* buffer, Long count ) { TT_Error error; if ( (error = TT_Seek_File( STREAM_VARS position )) != TT_Err_Ok || (error = TT_Read_File( STREAM_VARS buffer, count )) != TT_Err_Ok ) return error; return TT_Err_Ok; } /******************************************************************* * * Function : TT_File_Pos * * Description : Returns current file seek pointer. * * Input : none * * Output : Current file position. * ******************************************************************/ EXPORT_FUNC Long TT_File_Pos( STREAM_ARG ) { return ftell( CUR_Stream->file ) - CUR_Stream->base; } /******************************************************************* * * Function : GET_Byte * * Description : Extracts a byte from the current file frame. * * Input : None or current frame * * Output : Extracted Byte. * ******************************************************************/ #if 0 EXPORT_FUNC Byte TT_Get_Byte( FRAME_ARG ) { CHECK_FRAME( CUR_Frame, 1 ); return (Byte)(*CUR_Frame.cursor++); } #endif /******************************************************************* * * Function : GET_Char * * Description : Extracts a signed byte from the current file frame. * * Input : None or current frame * * Output : Extracted char. * ******************************************************************/ EXPORT_FUNC Char TT_Get_Char( FRAME_ARG ) { CHECK_FRAME( CUR_Frame, 1 ); return (Char)(*CUR_Frame.cursor++); } /******************************************************************* * * Function : GET_Short * * Description : Extracts a short from the current file frame. * * Input : None or current frame * * Output : Extracted short. * ******************************************************************/ EXPORT_FUNC Short TT_Get_Short( FRAME_ARG ) { Short getshort; CHECK_FRAME( CUR_Frame, 2 ); getshort = (Short)((CUR_Frame.cursor[0] << 8) | CUR_Frame.cursor[1]); CUR_Frame.cursor += 2; return getshort; } /******************************************************************* * * Function : GET_UShort * * Description : Extracts an unsigned short from the frame. * * Input : None or current frame * * Output : Extracted ushort. * ******************************************************************/ #if 0 EXPORT_FUNC UShort TT_Get_UShort( FRAME_ARG ) { UShort getshort; CHECK_FRAME( CUR_Frame, 2 ); getshort = (UShort)((CUR_Frame.cursor[0] << 8) | CUR_Frame.cursor[1]); CUR_Frame.cursor += 2; return getshort; } #endif /******************************************************************* * * Function : GET_Long * * Description : Extracts a long from the frame. * * Input : None or current frame * * Output : Extracted long. * ******************************************************************/ EXPORT_FUNC Long TT_Get_Long( FRAME_ARG ) { Long getlong; CHECK_FRAME( CUR_Frame, 4 ); getlong = ((Long)CUR_Frame.cursor[0] << 24) | ((Long)CUR_Frame.cursor[1] << 16) | ((Long)CUR_Frame.cursor[2] << 8 ) | (Long)CUR_Frame.cursor[3]; CUR_Frame.cursor += 4; return getlong; } /******************************************************************* * * Function : GET_ULong * * Description : Extracts an unsigned long from the frame. * * Input : None or current frame * * Output : Extracted ulong. * ******************************************************************/ #if 0 EXPORT_FUNC ULong TT_Get_ULong( FRAME_ARG ) { ULong getlong; CHECK_FRAME( CUR_Frame, 4 ); getlong = ( ((ULong)CUR_Frame.cursor[0] << 24) | ((ULong)CUR_Frame.cursor[1] << 16) | ((ULong)CUR_Frame.cursor[2] << 8 ) | (ULong)CUR_Frame.cursor[3] ); CUR_Frame.cursor += 4; return getlong; } #endif /* END */