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/*
* tools . h : Various tools
*
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* See the main source file ' vdr . c ' for copyright information and
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* how to reach the author .
*
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* $ Id : tools . h 3.6 2015 / 01 / 14 09 : 09 : 06 kls Exp $
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*/
# ifndef __TOOLS_H
# define __TOOLS_H
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# include <dirent.h>
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# include <errno.h>
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# include <fcntl.h>
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# include <float.h>
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# include <iconv.h>
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# include <math.h>
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# include <poll.h>
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# include <stdarg.h>
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# include <stddef.h>
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# include <stdint.h>
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# include <stdio.h>
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# include <stdlib.h>
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# include <string.h>
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# include <syslog.h>
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# include <sys/stat.h>
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# include <sys/types.h>
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typedef unsigned char uchar ;
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extern int SysLogLevel ;
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# define esyslog(a...) void( (SysLogLevel > 0) ? syslog_with_tid(LOG_ERR, a) : void() )
# define isyslog(a...) void( (SysLogLevel > 1) ? syslog_with_tid(LOG_INFO, a) : void() )
# define dsyslog(a...) void( (SysLogLevel > 2) ? syslog_with_tid(LOG_DEBUG, a) : void() )
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# define LOG_ERROR esyslog("ERROR (%s,%d): %m", __FILE__, __LINE__)
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# define LOG_ERROR_STR(s) esyslog("ERROR (%s,%d): %s: %m", __FILE__, __LINE__, s)
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# define SECSINDAY 86400
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# define KILOBYTE(n) ((n) * 1024)
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# define MEGABYTE(n) ((n) * 1024LL * 1024LL)
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# define MALLOC(type, size) (type *)malloc(sizeof(type) * (size))
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template < class T > inline void DELETENULL ( T * & p ) { T * q = p ; p = NULL ; delete q ; }
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# define CHECK(s) { if ((s) < 0) LOG_ERROR; } // used for 'ioctl()' calls
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# define FATALERRNO (errno && errno != EAGAIN && errno != EINTR)
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# ifndef __STL_CONFIG_H // in case some plugin needs to use the STL
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template < class T > inline T min ( T a , T b ) { return a < = b ? a : b ; }
template < class T > inline T max ( T a , T b ) { return a > = b ? a : b ; }
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template < class T > inline int sgn ( T a ) { return a < 0 ? - 1 : a > 0 ? 1 : 0 ; }
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template < class T > inline void swap ( T & a , T & b ) { T t = a ; a = b ; b = t ; }
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# endif
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template < class T > inline T constrain ( T v , T l , T h ) { return v < l ? l : v > h ? h : v ; }
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void syslog_with_tid ( int priority , const char * format , . . . ) __attribute__ ( ( format ( printf , 2 , 3 ) ) ) ;
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# define BCDCHARTOINT(x) (10 * ((x & 0xF0) >> 4) + (x & 0xF))
int BCD2INT ( int x ) ;
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# define IsBitSet(v, b) ((v) & (1 << (b))) // checks if the bit at index b is set in v, where the least significant bit has index 0
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// Unfortunately there are no platform independent macros for unaligned
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// access, so we do it this way:
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template < class T > inline T get_unaligned ( T * p )
{
struct s { T v ; } __attribute__ ( ( packed ) ) ;
return ( ( s * ) p ) - > v ;
}
template < class T > inline void put_unaligned ( unsigned int v , T * p )
{
struct s { T v ; } __attribute__ ( ( packed ) ) ;
( ( s * ) p ) - > v = v ;
}
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// Comparing doubles for equality is unsafe, but unfortunately we can't
// overwrite operator==(double, double), so this will have to do:
inline bool DoubleEqual ( double a , double b )
{
return fabs ( a - b ) < = DBL_EPSILON ;
}
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// When handling strings that might contain UTF-8 characters, it may be necessary
// to process a "symbol" that consists of several actual character bytes. The
// following functions allow transparently accessing a "char *" string without
// having to worry about what character set is actually used.
int Utf8CharLen ( const char * s ) ;
///< Returns the number of character bytes at the beginning of the given
///< string that form a UTF-8 symbol.
uint Utf8CharGet ( const char * s , int Length = 0 ) ;
///< Returns the UTF-8 symbol at the beginning of the given string.
///< Length can be given from a previous call to Utf8CharLen() to avoid calculating
///< it again. If no Length is given, Utf8CharLen() will be called.
int Utf8CharSet ( uint c , char * s = NULL ) ;
///< Converts the given UTF-8 symbol to a sequence of character bytes and copies
///< them to the given string. Returns the number of bytes written. If no string
///< is given, only the number of bytes is returned and nothing is copied.
int Utf8SymChars ( const char * s , int Symbols ) ;
///< Returns the number of character bytes at the beginning of the given
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///< string that form at most the given number of UTF-8 symbols.
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int Utf8StrLen ( const char * s ) ;
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///< Returns the number of UTF-8 symbols formed by the given string of
///< character bytes.
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char * Utf8Strn0Cpy ( char * Dest , const char * Src , int n ) ;
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///< Copies at most n character bytes from Src to Dest, making sure that the
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///< resulting copy ends with a complete UTF-8 symbol. The copy is guaranteed
///< to be zero terminated.
///< Returns a pointer to Dest.
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int Utf8ToArray ( const char * s , uint * a , int Size ) ;
///< Converts the given character bytes (including the terminating 0) into an
///< array of UTF-8 symbols of the given Size. Returns the number of symbols
///< in the array (without the terminating 0).
int Utf8FromArray ( const uint * a , char * s , int Size , int Max = - 1 ) ;
///< Converts the given array of UTF-8 symbols (including the terminating 0)
///< into a sequence of character bytes of at most Size length. Returns the
///< number of character bytes written (without the terminating 0).
///< If Max is given, only that many symbols will be converted.
///< The resulting string is always zero-terminated if Size is big enough.
// When allocating buffer space, make sure we reserve enough space to hold
// a string in UTF-8 representation:
# define Utf8BufSize(s) ((s) * 4)
// The following macros automatically use the correct versions of the character
// class functions:
# define Utf8to(conv, c) (cCharSetConv::SystemCharacterTable() ? to##conv(c) : tow##conv(c))
# define Utf8is(ccls, c) (cCharSetConv::SystemCharacterTable() ? is##ccls(c) : isw##ccls(c))
class cCharSetConv {
private :
iconv_t cd ;
char * result ;
size_t length ;
static char * systemCharacterTable ;
public :
cCharSetConv ( const char * FromCode = NULL , const char * ToCode = NULL ) ;
///< Sets up a character set converter to convert from FromCode to ToCode.
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///< If FromCode is NULL, the previously set systemCharacterTable is used
///< (or "UTF-8" if no systemCharacterTable has been set).
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///< If ToCode is NULL, "UTF-8" is used.
~ cCharSetConv ( ) ;
const char * Convert ( const char * From , char * To = NULL , size_t ToLength = 0 ) ;
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///< Converts the given Text from FromCode to ToCode (as set in the constructor).
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///< If To is given, it is used to copy at most ToLength bytes of the result
///< (including the terminating 0) into that buffer. If To is not given,
///< the result is copied into a dynamically allocated buffer and is valid as
///< long as this object lives, or until the next call to Convert(). The
///< return value always points to the result if the conversion was successful
///< (even if a fixed size To buffer was given and the result didn't fit into
///< it). If the string could not be converted, the result points to the
///< original From string.
static const char * SystemCharacterTable ( void ) { return systemCharacterTable ; }
static void SetSystemCharacterTable ( const char * CharacterTable ) ;
} ;
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class cString {
private :
char * s ;
public :
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cString ( const char * S = NULL , bool TakePointer = false ) ;
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cString ( const char * S , const char * To ) ; ///< Copies S up to To (exclusive). To must be a valid pointer into S. If To is NULL, everything is copied.
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cString ( const cString & String ) ;
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virtual ~ cString ( ) ;
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operator const void * ( ) const { return s ; } // to catch cases where operator*() should be used
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operator const char * ( ) const { return s ; } // for use in (const char *) context
const char * operator * ( ) const { return s ; } // for use in (const void *) context (printf() etc.)
cString & operator = ( const cString & String ) ;
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cString & operator = ( const char * String ) ;
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cString & Truncate ( int Index ) ; ///< Truncate the string at the given Index (if Index is < 0 it is counted from the end of the string).
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cString & CompactChars ( char c ) ; ///< Compact any sequence of characters 'c' to a single character, and strip all of them from the beginning and end of this string.
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static cString sprintf ( const char * fmt , . . . ) __attribute__ ( ( format ( printf , 1 , 2 ) ) ) ;
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static cString vsprintf ( const char * fmt , va_list & ap ) ;
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} ;
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ssize_t safe_read ( int filedes , void * buffer , size_t size ) ;
ssize_t safe_write ( int filedes , const void * buffer , size_t size ) ;
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void writechar ( int filedes , char c ) ;
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int WriteAllOrNothing ( int fd , const uchar * Data , int Length , int TimeoutMs = 0 , int RetryMs = 0 ) ;
///< Writes either all Data to the given file descriptor, or nothing at all.
///< If TimeoutMs is greater than 0, it will only retry for that long, otherwise
///< it will retry forever. RetryMs defines the time between two retries.
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char * strcpyrealloc ( char * dest , const char * src ) ;
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char * strn0cpy ( char * dest , const char * src , size_t n ) ;
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char * strreplace ( char * s , char c1 , char c2 ) ;
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char * strreplace ( char * s , const char * s1 , const char * s2 ) ; ///< re-allocates 's' and deletes the original string if necessary!
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const char * strchrn ( const char * s , char c , size_t n ) ; ///< returns a pointer to the n'th occurrence (counting from 1) of c in s, or NULL if no such character was found. If n is 0, s is returned.
int strcountchr ( const char * s , char c ) ; ///< returns the number of occurrences of 'c' in 's'.
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inline char * skipspace ( const char * s )
{
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if ( ( uchar ) * s > ' ' ) // most strings don't have any leading space, so handle this case as fast as possible
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return ( char * ) s ;
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while ( * s & & ( uchar ) * s < = ' ' ) // avoiding isspace() here, because it is much slower
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s + + ;
return ( char * ) s ;
}
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char * stripspace ( char * s ) ;
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char * compactspace ( char * s ) ;
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char * compactchars ( char * s , char c ) ; ///< removes all occurrences of 'c' from the beginning an end of 's' and replaces sequences of multiple 'c's with a single 'c'.
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cString strescape ( const char * s , const char * chars ) ;
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bool startswith ( const char * s , const char * p ) ;
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bool endswith ( const char * s , const char * p ) ;
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bool isempty ( const char * s ) ;
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int numdigits ( int n ) ;
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bool isnumber ( const char * s ) ;
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int64_t StrToNum ( const char * s ) ;
///< Converts the given string to a number.
///< The numerical part of the string may be followed by one of the letters
///< K, M, G or T to abbreviate Kilo-, Mega-, Giga- or Terabyte, respectively
///< (based on 1024). Everything after the first non-numeric character is
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///< silently ignored, as are any characters other than the ones mentioned here.
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bool StrInArray ( const char * a [ ] , const char * s ) ;
///< Returns true if the string s is equal to one of the strings pointed
///< to by the (NULL terminated) array a.
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double atod ( const char * s ) ;
///< Converts the given string, which is a floating point number using a '.' as
///< the decimal point, to a double value, independent of the currently selected
///< locale.
cString dtoa ( double d , const char * Format = " %f " ) ;
///< Converts the given double value to a string, making sure it uses a '.' as
///< the decimal point, independent of the currently selected locale.
///< If Format is given, it will be used instead of the default.
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cString itoa ( int n ) ;
cString AddDirectory ( const char * DirName , const char * FileName ) ;
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bool EntriesOnSameFileSystem ( const char * File1 , const char * File2 ) ;
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int FreeDiskSpaceMB ( const char * Directory , int * UsedMB = NULL ) ;
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bool DirectoryOk ( const char * DirName , bool LogErrors = false ) ;
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bool MakeDirs ( const char * FileName , bool IsDirectory = false ) ;
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bool RemoveFileOrDir ( const char * FileName , bool FollowSymlinks = false ) ;
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bool RemoveEmptyDirectories ( const char * DirName , bool RemoveThis = false , const char * IgnoreFiles [ ] = NULL ) ;
///< Removes all empty directories under the given directory DirName.
///< If RemoveThis is true, DirName will also be removed if it is empty.
///< IgnoreFiles can be set to an array of file names that will be ignored when
///< considering whether a directory is empty. If IgnoreFiles is given, the array
///< must end with a NULL pointer.
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int DirSizeMB ( const char * DirName ) ; ///< returns the total size of the files in the given directory, or -1 in case of an error
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char * ReadLink ( const char * FileName ) ; ///< returns a new string allocated on the heap, which the caller must delete (or NULL in case of an error)
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bool SpinUpDisk ( const char * FileName ) ;
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void TouchFile ( const char * FileName ) ;
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time_t LastModifiedTime ( const char * FileName ) ;
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off_t FileSize ( const char * FileName ) ; ///< returns the size of the given file, or -1 in case of an error (e.g. if the file doesn't exist)
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cString WeekDayName ( int WeekDay ) ;
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///< Converts the given WeekDay (0=Sunday, 1=Monday, ...) to a three letter
///< day name.
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cString WeekDayName ( time_t t ) ;
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///< Converts the week day of the given time to a three letter day name.
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cString WeekDayNameFull ( int WeekDay ) ;
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///< Converts the given WeekDay (0=Sunday, 1=Monday, ...) to a full
///< day name.
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cString WeekDayNameFull ( time_t t ) ;
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///< Converts the week day of the given time to a full day name.
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cString DayDateTime ( time_t t = 0 ) ;
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///< Converts the given time to a string of the form "www dd.mm. hh:mm".
///< If no time is given, the current time is taken.
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cString TimeToString ( time_t t ) ;
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///< Converts the given time to a string of the form "www mmm dd hh:mm:ss yyyy".
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cString DateString ( time_t t ) ;
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///< Converts the given time to a string of the form "www dd.mm.yyyy".
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cString ShortDateString ( time_t t ) ;
///< Converts the given time to a string of the form "dd.mm.yy".
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cString TimeString ( time_t t ) ;
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///< Converts the given time to a string of the form "hh:mm".
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uchar * RgbToJpeg ( uchar * Mem , int Width , int Height , int & Size , int Quality = 100 ) ;
///< Converts the given Memory to a JPEG image and returns a pointer
///< to the resulting image. Mem must point to a data block of exactly
///< (Width * Height) triplets of RGB image data bytes. Upon return, Size
///< will hold the number of bytes of the resulting JPEG data.
///< Quality can be in the range 0..100 and controls the quality of the
///< resulting image, where 100 is "best". The caller takes ownership of
///< the result and has to delete it once it is no longer needed.
///< The result may be NULL in case of an error.
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class cBase64Encoder {
private :
const uchar * data ;
int length ;
int maxResult ;
int i ;
char * result ;
static const char * b64 ;
public :
cBase64Encoder ( const uchar * Data , int Length , int MaxResult = 64 ) ;
///< Sets up a new base 64 encoder for the given Data, with the given Length.
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///< Data will not be copied and must be valid as long as NextLine() will be
///< called. MaxResult defines the maximum number of characters in any
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///< result line. The resulting lines may be shorter than MaxResult in case
///< its value is not a multiple of 4.
~ cBase64Encoder ( ) ;
const char * NextLine ( void ) ;
///< Returns the next line of encoded data (terminated by '\0'), or NULL if
///< there is no more encoded data. The caller must call NextLine() and process
///< each returned line until NULL is returned, in order to get the entire
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///< data encoded. The returned data is only valid until the next time NextLine()
///< is called, or until the object is destroyed.
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} ;
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class cBitStream {
private :
const uint8_t * data ;
int length ; // in bits
int index ; // in bits
public :
cBitStream ( const uint8_t * Data , int Length ) : data ( Data ) , length ( Length ) , index ( 0 ) { }
~ cBitStream ( ) { }
int GetBit ( void ) ;
uint32_t GetBits ( int n ) ;
void ByteAlign ( void ) ;
void WordAlign ( void ) ;
bool SetLength ( int Length ) ;
void SkipBits ( int n ) { index + = n ; }
void SkipBit ( void ) { SkipBits ( 1 ) ; }
bool IsEOF ( void ) const { return index > = length ; }
void Reset ( void ) { index = 0 ; }
int Length ( void ) const { return length ; }
int Index ( void ) const { return ( IsEOF ( ) ? length : index ) ; }
const uint8_t * GetData ( void ) const { return ( IsEOF ( ) ? NULL : data + ( index / 8 ) ) ; }
} ;
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class cTimeMs {
private :
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uint64_t begin ;
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public :
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cTimeMs ( int Ms = 0 ) ;
///< Creates a timer with ms resolution and an initial timeout of Ms.
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///< If Ms is negative the timer is not initialized with the current
///< time.
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static uint64_t Now ( void ) ;
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void Set ( int Ms = 0 ) ;
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bool TimedOut ( void ) const ;
uint64_t Elapsed ( void ) const ;
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} ;
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class cReadLine {
private :
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size_t size ;
char * buffer ;
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public :
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cReadLine ( void ) ;
~ cReadLine ( ) ;
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char * Read ( FILE * f ) ;
} ;
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class cPoller {
private :
enum { MaxPollFiles = 16 } ;
pollfd pfd [ MaxPollFiles ] ;
int numFileHandles ;
public :
cPoller ( int FileHandle = - 1 , bool Out = false ) ;
bool Add ( int FileHandle , bool Out ) ;
bool Poll ( int TimeoutMs = 0 ) ;
} ;
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class cReadDir {
private :
DIR * directory ;
struct dirent * result ;
union { // according to "The GNU C Library Reference Manual"
struct dirent d ;
char b [ offsetof ( struct dirent , d_name ) + NAME_MAX + 1 ] ;
} u ;
public :
cReadDir ( const char * Directory ) ;
~ cReadDir ( ) ;
bool Ok ( void ) { return directory ! = NULL ; }
struct dirent * Next ( void ) ;
} ;
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class cFile {
private :
static bool files [ ] ;
static int maxFiles ;
int f ;
public :
cFile ( void ) ;
~ cFile ( ) ;
operator int ( ) { return f ; }
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bool Open ( const char * FileName , int Flags , mode_t Mode = DEFFILEMODE ) ;
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bool Open ( int FileDes ) ;
void Close ( void ) ;
bool IsOpen ( void ) { return f > = 0 ; }
bool Ready ( bool Wait = true ) ;
static bool AnyFileReady ( int FileDes = - 1 , int TimeoutMs = 1000 ) ;
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static bool FileReady ( int FileDes , int TimeoutMs = 1000 ) ;
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static bool FileReadyForWriting ( int FileDes , int TimeoutMs = 1000 ) ;
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} ;
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class cSafeFile {
private :
FILE * f ;
char * fileName ;
char * tempName ;
public :
cSafeFile ( const char * FileName ) ;
~ cSafeFile ( ) ;
operator FILE * ( ) { return f ; }
bool Open ( void ) ;
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bool Close ( void ) ;
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} ;
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/// cUnbufferedFile is used for large files that are mainly written or read
/// in a streaming manner, and thus should not be cached.
class cUnbufferedFile {
private :
int fd ;
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off_t curpos ;
off_t cachedstart ;
off_t cachedend ;
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off_t begin ;
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off_t lastpos ;
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off_t ahead ;
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size_t readahead ;
size_t written ;
size_t totwritten ;
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int FadviseDrop ( off_t Offset , off_t Len ) ;
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public :
cUnbufferedFile ( void ) ;
~ cUnbufferedFile ( ) ;
int Open ( const char * FileName , int Flags , mode_t Mode = DEFFILEMODE ) ;
int Close ( void ) ;
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void SetReadAhead ( size_t ra ) ;
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off_t Seek ( off_t Offset , int Whence ) ;
ssize_t Read ( void * Data , size_t Size ) ;
ssize_t Write ( const void * Data , size_t Size ) ;
static cUnbufferedFile * Create ( const char * FileName , int Flags , mode_t Mode = DEFFILEMODE ) ;
} ;
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class cLockFile {
private :
char * fileName ;
int f ;
public :
cLockFile ( const char * Directory ) ;
~ cLockFile ( ) ;
bool Lock ( int WaitSeconds = 0 ) ;
void Unlock ( void ) ;
} ;
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class cListObject {
private :
cListObject * prev , * next ;
public :
cListObject ( void ) ;
virtual ~ cListObject ( ) ;
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virtual int Compare ( const cListObject & ListObject ) const { return 0 ; }
///< Must return 0 if this object is equal to ListObject, a positive value
///< if it is "greater", and a negative value if it is "smaller".
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void Append ( cListObject * Object ) ;
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void Insert ( cListObject * Object ) ;
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void Unlink ( void ) ;
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int Index ( void ) const ;
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cListObject * Prev ( void ) const { return prev ; }
cListObject * Next ( void ) const { return next ; }
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} ;
class cListBase {
protected :
cListObject * objects , * lastObject ;
cListBase ( void ) ;
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int count ;
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public :
virtual ~ cListBase ( ) ;
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void Add ( cListObject * Object , cListObject * After = NULL ) ;
void Ins ( cListObject * Object , cListObject * Before = NULL ) ;
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void Del ( cListObject * Object , bool DeleteObject = true ) ;
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virtual void Move ( int From , int To ) ;
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void Move ( cListObject * From , cListObject * To ) ;
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virtual void Clear ( void ) ;
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cListObject * Get ( int Index ) const ;
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int Count ( void ) const { return count ; }
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void Sort ( void ) ;
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} ;
template < class T > class cList : public cListBase {
public :
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T * Get ( int Index ) const { return ( T * ) cListBase : : Get ( Index ) ; }
T * First ( void ) const { return ( T * ) objects ; }
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T * Last ( void ) const { return ( T * ) lastObject ; }
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T * Prev ( const T * object ) const { return ( T * ) object - > cListObject : : Prev ( ) ; } // need to call cListObject's members to
T * Next ( const T * object ) const { return ( T * ) object - > cListObject : : Next ( ) ; } // avoid ambiguities in case of a "list of lists"
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} ;
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template < class T > class cVector {
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///< cVector may only be used for *simple* types, like int or pointers - not for class objects that allocate additional memory!
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private :
mutable int allocated ;
mutable int size ;
mutable T * data ;
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cVector ( const cVector & Vector ) { } // don't copy...
cVector & operator = ( const cVector & Vector ) { return * this ; } // ...or assign this!
void Realloc ( int Index ) const
{
if ( + + Index > allocated ) {
data = ( T * ) realloc ( data , Index * sizeof ( T ) ) ;
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if ( ! data ) {
esyslog ( " ERROR: out of memory - abort! " ) ;
abort ( ) ;
}
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for ( int i = allocated ; i < Index ; i + + )
data [ i ] = T ( 0 ) ;
allocated = Index ;
}
}
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public :
cVector ( int Allocated = 10 )
{
allocated = 0 ;
size = 0 ;
data = NULL ;
Realloc ( Allocated ) ;
}
virtual ~ cVector ( ) { free ( data ) ; }
T & At ( int Index ) const
{
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Realloc ( Index ) ;
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if ( Index > = size )
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size = Index + 1 ;
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return data [ Index ] ;
}
const T & operator [ ] ( int Index ) const
{
return At ( Index ) ;
}
T & operator [ ] ( int Index )
{
return At ( Index ) ;
}
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int IndexOf ( const T & Data ) // returns the index of Data, or -1 if not found
{
for ( int i = 0 ; i < size ; i + + ) {
if ( data [ i ] = = Data )
return i ;
}
return - 1 ;
}
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int Size ( void ) const { return size ; }
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virtual void Insert ( T Data , int Before = 0 )
{
if ( Before < size ) {
Realloc ( size ) ;
memmove ( & data [ Before + 1 ] , & data [ Before ] , ( size - Before ) * sizeof ( T ) ) ;
size + + ;
data [ Before ] = Data ;
}
else
Append ( Data ) ;
}
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bool InsertUnique ( T Data , int Before = 0 )
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{
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if ( IndexOf ( Data ) < 0 ) {
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Insert ( Data , Before ) ;
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return true ;
}
return false ;
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}
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virtual void Append ( T Data )
{
if ( size > = allocated )
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Realloc ( allocated * 3 / 2 ) ; // increase size by 50%
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data [ size + + ] = Data ;
}
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bool AppendUnique ( T Data )
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{
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if ( IndexOf ( Data ) < 0 ) {
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Append ( Data ) ;
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return true ;
}
return false ;
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}
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virtual void Remove ( int Index )
{
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if ( Index < 0 )
return ; // prevents out-of-bounds access
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if ( Index < size - 1 )
memmove ( & data [ Index ] , & data [ Index + 1 ] , ( size - Index ) * sizeof ( T ) ) ;
size - - ;
}
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bool RemoveElement ( const T & Data )
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{
int i = IndexOf ( Data ) ;
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if ( i > = 0 ) {
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Remove ( i ) ;
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return true ;
}
return false ;
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}
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virtual void Clear ( void )
{
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for ( int i = 0 ; i < size ; i + + )
data [ i ] = T ( 0 ) ;
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size = 0 ;
}
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void Sort ( __compar_fn_t Compare )
{
qsort ( data , size , sizeof ( T ) , Compare ) ;
}
} ;
inline int CompareStrings ( const void * a , const void * b )
{
return strcmp ( * ( const char * * ) a , * ( const char * * ) b ) ;
}
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inline int CompareStringsIgnoreCase ( const void * a , const void * b )
{
return strcasecmp ( * ( const char * * ) a , * ( const char * * ) b ) ;
}
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class cStringList : public cVector < char * > {
public :
cStringList ( int Allocated = 10 ) : cVector < char * > ( Allocated ) { }
virtual ~ cStringList ( ) ;
int Find ( const char * s ) const ;
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void Sort ( bool IgnoreCase = false )
{
if ( IgnoreCase )
cVector < char * > : : Sort ( CompareStringsIgnoreCase ) ;
else
cVector < char * > : : Sort ( CompareStrings ) ;
}
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virtual void Clear ( void ) ;
} ;
class cFileNameList : public cStringList {
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public :
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cFileNameList ( const char * Directory = NULL , bool DirsOnly = false ) ;
bool Load ( const char * Directory , bool DirsOnly = false ) ;
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} ;
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class cHashObject : public cListObject {
friend class cHashBase ;
private :
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unsigned int id ;
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cListObject * object ;
public :
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cHashObject ( cListObject * Object , unsigned int Id ) { object = Object ; id = Id ; }
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cListObject * Object ( void ) { return object ; }
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} ;
class cHashBase {
private :
cList < cHashObject > * * hashTable ;
int size ;
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unsigned int hashfn ( unsigned int Id ) const { return Id % size ; }
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protected :
cHashBase ( int Size ) ;
public :
virtual ~ cHashBase ( ) ;
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void Add ( cListObject * Object , unsigned int Id ) ;
void Del ( cListObject * Object , unsigned int Id ) ;
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void Clear ( void ) ;
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cListObject * Get ( unsigned int Id ) const ;
cList < cHashObject > * GetList ( unsigned int Id ) const ;
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} ;
# define HASHSIZE 512
template < class T > class cHash : public cHashBase {
public :
cHash ( int Size = HASHSIZE ) : cHashBase ( Size ) { }
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T * Get ( unsigned int Id ) const { return ( T * ) cHashBase : : Get ( Id ) ; }
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} ;
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# endif //__TOOLS_H