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Aquaria/ExternalLibs/ttvfs/VFSRefcounted.h
2014-04-06 19:19:33 +02:00

144 lines
3.5 KiB
C++

#ifndef VFS_REFCOUNTED_H
#define VFS_REFCOUNTED_H
#include <algorithm>
#include <cassert>
VFS_NAMESPACE_START
template <typename T> class RefcountedT
{
public:
// Static methods for refcounting, could overload with atomics if there is the need
inline static void s_incRef(T& ref)
{
++ref;
}
inline static bool s_decRef(T& ref) // returns true if refcount is zero afterwards
{
return (--ref) == 0;
}
inline static void s_setRef(T& ref, int val)
{
ref = val;
}
inline static int s_getRef(const T& ref)
{
return ref;
}
RefcountedT()
{
s_setRef(_refcount, 0);
}
virtual ~RefcountedT()
{
int val = s_getRef(_refcount);
assert(val == 0 && "Object was deleted with refcount != 0");
}
inline void incref()
{
s_incRef(_refcount);
}
inline void decref()
{
if (s_decRef(_refcount))
{
// if the refcount is now zero, it will stay zero forever as nobody has a reference anymore
delete this;
}
}
inline int getRefCount() const
{
return s_getRef(_refcount);
}
private:
T _refcount;
};
// This is the typedef used for VFSBase
typedef RefcountedT<int> Refcounted;
template<typename T> class CountedPtr
{
public:
inline ~CountedPtr()
{
if(_p)
_p->decref();
}
inline CountedPtr() : _p(NULL)
{}
inline CountedPtr(T* p) : _p(p)
{
if(p)
p->incref();
}
inline CountedPtr(const CountedPtr& ref) : _p(ref._p)
{
if (_p)
_p->incref();
}
#ifdef HAVE_CXX_11
// C++11 move constructor
CountedPtr(CountedPtr&& ref) : CountedPtr() // initialize via default constructor
{
CountedPtr::swap(*this, ref);
}
#endif
// intentionally not a reference -- see http://stackoverflow.com/questions/3279543/what-is-the-copy-and-swap-idiom
CountedPtr& operator=(CountedPtr ref)
{
CountedPtr::swap(*this, ref);
return *this;
}
const T* operator->() const { return _p; }
T* operator->() { return _p; }
const T* operator*() const { return *_p; }
T* operator*() { return *_p; }
bool operator!() const { return !_p; }
// if you use these, make sure you also keep a counted reference to the object!
inline operator T* () { return _p; }
inline operator const T* () const { return _p; }
inline T* content() { return _p; }
inline const T* content() const { return _p; }
bool operator<(const CountedPtr& ref) const { return _p < ref._p; }
bool operator<=(const CountedPtr& ref) const { return _p <= ref._p; }
bool operator==(const CountedPtr& ref) const { return _p == ref._p; }
bool operator!=(const CountedPtr& ref) const { return _p != ref._p; }
bool operator>=(const CountedPtr& ref) const { return _p >= ref._p; }
bool operator>(const CountedPtr& ref) const { return _p > ref._p; }
bool operator<(const T* ptr) const { return _p < ptr; }
bool operator<=(const T* ptr) const { return _p <= ptr; }
bool operator==(const T* ptr) const { return _p == ptr; }
bool operator!=(const T* ptr) const { return _p != ptr; }
bool operator>=(const T* ptr) const { return _p >= ptr; }
bool operator>(const T* ptr) const { return _p > ptr; }
inline static void swap(CountedPtr& a, CountedPtr& b)
{
std::swap(a._p, b._p);
}
private:
T *_p;
};
VFS_NAMESPACE_END
#endif