cpp/openttd-patchpack/source Files · yapf/autocopyptr.hpp

Files @ r4381:c965d1f3016a

Branch filter:

Location: cpp/openttd-patchpack/source/yapf/autocopyptr.hpp

r4381:c965d1f3016a 2.8 KiB text/x-c++hdr Show Annotation Show as Raw Download as Raw

belugas

(svn r6131) -Codechange : Complete all missing _ttdpatch_flags entries
-Feature : both unifiedmaglevmode are now set.
Maglev and monorail are not allowed to run on each other tracks and will not be.
Setting those flags will allow grfsets as the Norvegian one to be loaded
-Codechange : link the TTDPatch's irregularstations with OTTD's nonuniform_stations
-Codechange : Reformat the whole array (thanks Rubidium, it sure looks better now)

/* $Id$ */

#ifndef  AUTOCOPYPTR_HPP
#define  AUTOCOPYPTR_HPP

/** CAutoCopyPtrT - kind of CoW (Copy on Write) pointer.
		It is non-invasive smart pointer (reference counter is held outside
		of Tdata).
		When copied, its new copy shares the same underlaying structure Tdata.
		When dereferenced, its behavior depends on 2 factors:
		   - whether the data is shared (used by more than one pointer)
		   - type of access (read/write)
		  When shared pointer is dereferenced for write, new clone of Tdata
		is made first.
		Can't be used for polymorphic data types (interfaces).
*/
template <class Tdata_>
class CAutoCopyPtrT {
protected:
	typedef Tdata_ Tdata;

	struct CItem	{
		int     m_ref_cnt;  ///< reference counter
		Tdata   m_data;     ///< custom data itself

		FORCEINLINE CItem()                  : m_ref_cnt(1)                     {};
		FORCEINLINE CItem(const Tdata& data) : m_ref_cnt(1), m_data(data)       {};
		FORCEINLINE CItem(const CItem& src)  : m_ref_cnt(1), m_data(src.m_data) {};
	};

	mutable CItem* m_pI; ///< points to the ref-counted data

public:
	FORCEINLINE CAutoCopyPtrT() : m_pI(NULL) {};
	FORCEINLINE CAutoCopyPtrT(const Tdata& data) : m_pI(new CItem(data)) {};
	FORCEINLINE CAutoCopyPtrT(const CAutoCopyPtrT& src) : m_pI(src.m_pI) {if (m_pI != NULL) m_pI->m_ref_cnt++;}
	FORCEINLINE ~CAutoCopyPtrT() {if (m_pI == NULL || (--m_pI->m_ref_cnt) > 0) return; delete m_pI; m_pI = NULL;}

	/** data accessor (read only) */
	FORCEINLINE const Tdata& GetDataRO() const {if (m_pI == NULL) m_pI = new CItem(); return m_pI->m_data;}
	/** data accessor (read / write) */
	FORCEINLINE Tdata& GetDataRW() {CloneIfShared(); if (m_pI == NULL) m_pI = new CItem(); return m_pI->m_data;}

	/** clone data if it is shared */
	FORCEINLINE void CloneIfShared()
	{
		if (m_pI != NULL && m_pI->m_ref_cnt > 1) {
			// we share data item with somebody, clone it to become an exclusive owner
			CItem* pNewI = new CItem(*m_pI);
			m_pI->m_ref_cnt--;
			m_pI = pNewI;
		}
	}

	/** assign pointer from the other one (maintaining ref counts) */
	FORCEINLINE void Assign(const CAutoCopyPtrT& src)
	{
		if (m_pI == src.m_pI) return;
		if (m_pI != NULL && (--m_pI->m_ref_cnt) <= 0) delete m_pI;
		m_pI = src.m_pI;
		if (m_pI != NULL) m_pI->m_ref_cnt++;
	}

	/** dereference operator (read only) */
	FORCEINLINE const Tdata* operator -> () const {return &GetDataRO();}
	/** dereference operator (read / write) */
	FORCEINLINE Tdata* operator -> () {return &GetDataRW();}

	/** assignment operator */
	FORCEINLINE CAutoCopyPtrT& operator = (const CAutoCopyPtrT& src) {Assign(src); return *this;}

	/** forwarding 'lower then' operator to the underlaying items */
	FORCEINLINE bool operator < (const CAutoCopyPtrT& other) const
	{
		assert(m_pI != NULL);
		assert(other.m_pI != NULL);
		return (m_pI->m_data) < (other.m_pI->m_data);
	}
};


#endif /* AUTOCOPYPTR_HPP */