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/**
* @file llpointer.h
* @brief A reference-counted pointer for objects derived from LLRefCount
*
* $LicenseInfo:firstyear=2002&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#ifndef LLPOINTER_H
#define LLPOINTER_H
#include "llerror.h" // *TODO: consider eliminating this
#include "llmutex.h"
#include <utility> // std::swap()
//----------------------------------------------------------------------------
// RefCount objects should generally only be accessed by way of LLPointer<>'s
// NOTE: LLPointer<LLFoo> x = new LLFoo(); MAY NOT BE THREAD SAFE
// if LLFoo::LLFoo() does anything like put itself in an update queue.
// The queue may get accessed before it gets assigned to x.
// The correct implementation is:
// LLPointer<LLFoo> x = new LLFoo; // constructor does not do anything interesting
// x->instantiate(); // does stuff like place x into an update queue
// see llthread.h for LLThreadSafeRefCount
//----------------------------------------------------------------------------
// Note: relies on Type having ref() and unref() methods
template <class Type> class LLPointer
{
public:
template<typename Subclass>
friend class LLPointer;
LLPointer() :
mPointer(nullptr)
{
}
LLPointer(Type* ptr) :
mPointer(ptr)
{
ref();
}
LLPointer(const LLPointer<Type>& ptr) :
mPointer(ptr.mPointer)
{
ref();
}
LLPointer(LLPointer<Type>&& ptr) noexcept
{
mPointer = ptr.mPointer;
ptr.mPointer = nullptr;
}
// Support conversion up the type hierarchy. See Item 45 in Effective C++, 3rd Ed.
template<typename Subclass>
LLPointer(const LLPointer<Subclass>& ptr) :
mPointer(ptr.get())
{
ref();
}
template<typename Subclass>
LLPointer(LLPointer<Subclass>&& ptr) noexcept :
mPointer(ptr.get())
{
ptr.mPointer = nullptr;
}
~LLPointer()
{
unref();
}
Type* get() const { return mPointer; }
const Type* operator->() const { return mPointer; }
Type* operator->() { return mPointer; }
const Type& operator*() const { return *mPointer; }
Type& operator*() { return *mPointer; }
operator BOOL() const { return (mPointer != nullptr); }
operator bool() const { return (mPointer != nullptr); }
bool operator!() const { return (mPointer == nullptr); }
bool isNull() const { return (mPointer == nullptr); }
bool notNull() const { return (mPointer != nullptr); }
operator Type*() const { return mPointer; }
template <typename Type1>
bool operator !=(Type1* ptr) const { return (mPointer != ptr); }
template <typename Type1>
bool operator ==(Type1* ptr) const { return (mPointer == ptr); }
template <typename Type1>
bool operator !=(const LLPointer<Type1>& ptr) const { return (mPointer != ptr.mPointer); }
template <typename Type1>
bool operator ==(const LLPointer<Type1>& ptr) const { return (mPointer == ptr.mPointer); }
bool operator < (const LLPointer<Type>& ptr) const { return (mPointer < ptr.mPointer); }
bool operator > (const LLPointer<Type>& ptr) const { return (mPointer > ptr.mPointer); }
LLPointer<Type>& operator =(Type* ptr)
{
// copy-and-swap idiom, see http://gotw.ca/gotw/059.htm
LLPointer temp(ptr);
using std::swap; // per Swappable convention
swap(*this, temp);
return *this;
}
LLPointer<Type>& operator =(const LLPointer<Type>& ptr)
{
LLPointer temp(ptr);
using std::swap; // per Swappable convention
swap(*this, temp);
return *this;
}
LLPointer<Type>& operator =(LLPointer<Type>&& ptr)
{
LLPointer temp(std::move(ptr));
using std::swap; // per Swappable convention
swap(*this, temp);
return *this;
}
// support assignment up the type hierarchy. See Item 45 in Effective C++, 3rd Ed.
template<typename Subclass>
LLPointer<Type>& operator =(const LLPointer<Subclass>& ptr)
{
LLPointer temp(ptr);
using std::swap; // per Swappable convention
swap(*this, temp);
return *this;
}
template<typename Subclass>
LLPointer<Type>& operator =(LLPointer<Subclass>&& ptr)
{
LLPointer temp(std::move(ptr));
using std::swap; // per Swappable convention
swap(*this, temp);
return *this;
}
// Just exchange the pointers, which will not change the reference counts.
static void swap(LLPointer<Type>& a, LLPointer<Type>& b)
{
using std::swap; // per Swappable convention
swap(a.mPointer, b.mPointer);
}
// Put swap() overload in the global namespace, per Swappable convention
friend void swap(LLPointer<Type>& a, LLPointer<Type>& b)
{
LLPointer<Type>::swap(a, b);
}
protected:
#ifdef LL_LIBRARY_INCLUDE
void ref();
void unref();
#else
void ref()
{
if (mPointer)
{
mPointer->ref();
}
}
void unref()
{
if (mPointer)
{
Type *temp = mPointer;
mPointer = nullptr;
temp->unref();
if (mPointer != nullptr)
{
LL_WARNS() << "Unreference did assignment to non-NULL because of destructor" << LL_ENDL;
unref();
}
}
}
#endif // LL_LIBRARY_INCLUDE
protected:
Type* mPointer;
};
template <typename Type>
using LLConstPointer = LLPointer<const Type>;
template<typename Type>
class LLCopyOnWritePointer : public LLPointer<Type>
{
public:
typedef LLCopyOnWritePointer<Type> self_t;
typedef LLPointer<Type> pointer_t;
LLCopyOnWritePointer()
: mStayUnique(false)
{}
LLCopyOnWritePointer(Type* ptr)
: LLPointer<Type>(ptr),
mStayUnique(false)
{}
LLCopyOnWritePointer(LLPointer<Type>& ptr)
: LLPointer<Type>(ptr),
mStayUnique(false)
{
if (ptr.mStayUnique)
{
makeUnique();
}
}
Type* write()
{
makeUnique();
return pointer_t::mPointer;
}
void makeUnique()
{
if (pointer_t::notNull() && pointer_t::mPointer->getNumRefs() > 1)
{
*(pointer_t* )(this) = new Type(*pointer_t::mPointer);
}
}
const Type* operator->() const { return pointer_t::mPointer; }
const Type& operator*() const { return *pointer_t::mPointer; }
void setStayUnique(bool stay) { makeUnique(); mStayUnique = stay; }
private:
bool mStayUnique;
};
template<typename Type0, typename Type1>
bool operator!=(Type0* lhs, const LLPointer<Type1>& rhs)
{
return (lhs != rhs.get());
}
template<typename Type0, typename Type1>
bool operator==(Type0* lhs, const LLPointer<Type1>& rhs)
{
return (lhs == rhs.get());
}
// boost hash adapter
template <class Type>
struct boost::hash<LLPointer<Type>>
{
typedef LLPointer<Type> argument_type;
typedef std::size_t result_type;
result_type operator()(argument_type const& s) const
{
return (std::size_t) s.get();
}
};
// Adapt boost hash to std hash
namespace std
{
template<class Type> struct hash<LLPointer<Type>>
{
std::size_t operator()(LLPointer<Type> const& s) const noexcept
{
return boost::hash<LLPointer<Type>>()(s);
}
};
}
#endif
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