jedi-academy/code/ff/ff_utils.h

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2013-04-19 02:52:48 +00:00
#ifndef FF_UTILS_H
#define FF_UTILS_H
//#include "ff_public.h"
template<typename Type>
inline Type Clamp( Type arg, Type min, Type max )
{;
if ( arg <= min )
return min;
else
if ( arg > max )
return max;
return arg;
}
template<typename Type>
inline Type Max( Type arg, Type arg2 )
{
if ( arg < arg2 )
return arg2;
return arg;
}
template<typename Type>
inline Type Min( Type arg, Type arg2 )
{
if ( arg > arg2 )
return arg2;
return arg;
}
template<typename Type>
inline Type InRange( Type arg, Type min, Type max, Type invalid )
{
if ( arg < min || arg > max )
return invalid;
return arg;
}
typedef vector<string> TNameTable;
int _rcpos( const char* string, char c, int pos = -1 );
void* LoadFile( const char *filename );
const char *UncommonDirectory( const char *target, const char *comp );
const char* RightOf( const char *str, const char *str2 );
template< class Type >
void DeletePointer( Type &Pointer, const char *String = 0 )
{
if ( Pointer )
{
#ifdef FF_PRINT
if ( String )
Com_Printf( "%s\n", String );
#endif
delete Pointer;
Pointer = NULL;
}
}
#ifdef FF_PRINT
void ConsoleParseError( const char *message, const char *line, int pos = 0 );
#endif
qboolean FS_VerifyName( const char *src, const char *name, char *out, int maxlen = FF_MAX_PATH );
//===[multimapIterator]================================================/////////////
//
// Convenience class for iterating through a multimap. It's not actually
// all that convenient :( It's slightly more intuitive than the
// actual multimap iteration logic.
//
//====================================================================/////////////
template< class T >
class multimapIterator
{
protected:
T::iterator mIt;
T &mMap;
T::key_type mKey;
public:
multimapIterator( T &map, T::key_type key )
: mMap( map )
, mKey( key )
{
mIt = mMap.find( mKey );
}
multimapIterator& operator ++ ()
{
if ( mIt != mMap.end() )
{
mIt++;
if ( (*mIt).first != mKey )
mIt = mMap.end();
}
return *this;
}
qboolean operator != ( T::iterator it )
{
return qboolean( mIt != it );
}
qboolean operator == ( T::iterator it )
{
return qboolean( mIt == it );
}
T::iterator operator * ()
{
return mIt; // must dereference twice to access first and second
}
T::iterator operator = ( T::iterator it )
{
mIt = it;
return mIt;
}
operator qboolean ()
{
return qboolean( mIt != mMap.end() );
}
};
/*
template< class T >
class multimapIteratorIterator
{
protected:
multimapIterator mIt;
public:
multimapIteratorIterator( T &map )
: mIt( map, map.begin() )
{
}
multimapIteratorIterator& operator ++ ()
{
for
( T::iterator last = *mIt
; mIt
; last = mIt, ++mIt
);
mIt = ++last;
return *this;
}
multimapIterator& operator * ()
{
return mIt;
}
};
*/
2013-04-04 22:35:38 +00:00
#endif // FF_UTILS_H