6aa9bd0f77
Now with some actual consensus on what the updater will do!
200 lines
5.8 KiB
C++
200 lines
5.8 KiB
C++
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF
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// ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
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// TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
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// PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
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// SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR
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// ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE
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// OR OTHER DEALINGS IN THE SOFTWARE.
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//
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// This software was developed from code available in the public domain
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// and has no copyright.
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// About Shared_Ptr:
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// Shared_Ptr wraps a reference-counted smart pointer around a dynamically
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// allocated object. Unlike auto_ptr, the Shared_Ptr can be used as a smart
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// pointer for objects stored in containers like std::vector. Do not use
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// Shared_Ptr (or shared_ptr or auto_ptr) for dynamically allocated arrays.
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// See below for advice on how to wrap dynamically allocated arrays in a
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// vector.
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//
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// The next standard of C++ will also contain a shared_ptr. Some modern
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// compilers already have a shared_ptr available as std::tr1::shared_ptr. If
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// your compiler already provides a shared_ptr, or if you have Boost, you
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// should use that smart pointer instead. This class has been provided for
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// those users who don't have easy access to an "official" shared_ptr.
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// Note that this class is "Shared_Ptr", a slightly different name to the
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// future "shared_ptr" to avoid naming conflicts.
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// Advantages of Shared_Ptr (or shared_ptr where available):
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// - Shared_Ptr can be safely copied. This makes then suitable for containers.
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// - Shared_Ptr automatically calls delete for the wrapped pointer when
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// its last copy goes out of scope.
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// - Shared_Ptr simplifies exception safety.
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//
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// Without smart pointers, it can be quite challenging to ensure that every
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// dynamically allocated pointer (i.e. use of new) is deleted in the event of
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// all possible exceptions. In addition to the exceptions we throw ourselves,
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// "new" itself will throw an exception it it fails, as does the STL (Standard
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// Template Library which includes vector and string). Without smart pointers
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// we often need to resort to additional try/catch blocks simply to avoid
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// memory leaks when exceptions occur.
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// Examples:
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// Shared_Ptr<CWnd> w1(new CWnd);
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// or
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// Shared_Ptr<CWnd> w1 = new CWnd;
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// or
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// typedef Shared_Ptr<CWnd> CWndPtr;
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// CWndPtr w1 = new CWnd;
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// or
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// typedef Shared_Ptr<CWnd> CWndPtr;
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// CWndPtr w1(new CWnd);
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//
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// And with a vector
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// typedef Shared_Ptr<CWnd> CWndPtr;
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// std::vector<CWndPtr> MyVector;
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// MyVector.push_back(new CWnd);
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// or
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// typedef Shared_Ptr<CWnd> CWndPtr;
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// CWnd* pWnd = new CWnd;
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// std::vector<CWndPtr> MyVector;
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// MyVector.push_back(pWnd);
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//
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// How to handle dynamically allocated arrays:
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// While we could create a smart pointer for arrays, we don't need to because
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// std::vector already handles this for us. Consider the following example:
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// int nLength = ::GetWindowTextLength(m_hWnd);
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// pTChar = new TCHAR[nLength+1];
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// memset(pTChar, 0, (nLength+1)*sizeof(TCHAR));
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// ::GetWindowText(m_hWnd, m_pTChar, nLength+1);
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// ....
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// delete[] pTChar;
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//
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// This can be improved by using a vector instead of an array
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// int nLength = ::GetWindowTextLength(m_hWnd);
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// std::vector<TCHAR> vTChar( nLength+1, _T('\0') );
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// TCHAR* pTCharArray = &vTChar.front();
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// ::GetWindowText(m_hWnd, pTCharArray, nLength+1);
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//
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// This works because the memory in a vector is always contiguous. Note that
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// this is NOT always true of std::string.
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// Summing up:
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// In my opinion, "naked" pointers for dynamically created objects should be
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// avoided in modern C++ code. That's to say that calls to "new" should be
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// wrapped in some sort of smart pointer wherever possible. This eliminates
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// the possibility of memory leaks (particularly in the event of exceptions).
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// It also elminiates the need for delete in user's code.
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#ifndef _WIN32XX_SHARED_PTR_
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#define _WIN32XX_SHARED_PTR_
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namespace Win32xx
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{
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template <class T1>
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class Shared_Ptr
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{
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public:
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Shared_Ptr() : m_ptr(NULL), m_count(NULL) { }
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Shared_Ptr(T1 * p) : m_ptr(p), m_count(NULL)
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{
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try
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{
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if (m_ptr) m_count = new long(0);
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inc_ref();
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}
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// catch the unlikely event of 'new long(0)' throwing an exception
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catch (const std::bad_alloc&)
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{
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delete m_ptr;
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throw;
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}
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}
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Shared_Ptr(const Shared_Ptr& rhs) : m_ptr(rhs.m_ptr), m_count(rhs.m_count) { inc_ref(); }
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~Shared_Ptr()
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{
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if(m_count && 0 == dec_ref())
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{
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// Note: This code doesn't handle a pointer to an array.
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// We would need delete[] m_ptr to handle that.
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delete m_ptr;
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delete m_count;
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}
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}
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T1* get() const { return m_ptr; }
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long use_count() const { return m_count? *m_count : 0; }
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bool unique() const { return (m_count && (*m_count == 1)); }
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void swap(Shared_Ptr& rhs)
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{
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std::swap(m_ptr, rhs.m_ptr);
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std::swap(m_count, rhs.m_count);
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}
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Shared_Ptr& operator=(const Shared_Ptr& rhs)
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{
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Shared_Ptr tmp(rhs);
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this->swap(tmp);
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return *this;
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}
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T1* operator->() const
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{
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assert(m_ptr);
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return m_ptr;
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}
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T1& operator*() const
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{
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assert (m_ptr);
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return *m_ptr;
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}
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bool operator== (const Shared_Ptr& rhs) const
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{
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return ( *m_ptr == *rhs.m_ptr);
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}
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bool operator!= (const Shared_Ptr& rhs) const
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{
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return ( *m_ptr != *rhs.m_ptr);
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}
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bool operator< (const Shared_Ptr& rhs) const
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{
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return ( *m_ptr < *rhs.m_ptr );
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}
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bool operator> (const Shared_Ptr& rhs) const
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{
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return ( *m_ptr > *rhs.m_ptr );
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}
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private:
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void inc_ref()
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{
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if(m_count)
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InterlockedIncrement(m_count);
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}
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int dec_ref()
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{
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assert (m_count);
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return InterlockedDecrement(m_count);
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}
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T1* m_ptr;
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long* m_count;
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};
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}
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#endif // _WIN32XX_SHARED_PTR_
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