Second Life viewer sources 1.14.0.0

author: Jacek Antonelli 2008-08-15 23:44:50 -0500
committer: Jacek Antonelli 2008-08-15 23:44:50 -0500
commit: 89fe5dab825a62a0e3fd8d248cbc91c65eb2a426 (patch)
tree: bcff14b7888d04a2fec799c59369f6095224bd08 /linden/indra/llcommon/llmemory.h
parent: Second Life viewer sources 1.13.3.2 (diff)
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1 files changed, 151 insertions, 49 deletions
diff --git a/linden/indra/llcommon/llmemory.h b/linden/indra/llcommon/llmemory.h
index b40ab79..7a7996b 100644
--- a/linden/indra/llcommon/llmemory.h
+++ b/linden/indra/llcommon/llmemory.h
@@ -31,8 +31,6 @@
 #include <cstdlib>
 #include "llerror.h"
-#include "llthread.h"
-#include "llmemtype.h"
 extern S32 gTotalDAlloc;
 extern S32 gTotalDAUse;
@@ -61,53 +59,7 @@ private:
 //   LLPointer<LLFoo> x = new LLFoo; // constructor does not do anything interesting
 //   x->instantiate(); // does stuff like place x into an update queue
-class LLThreadSafeRefCount
+// see llthread.h for LLThreadSafeRefCount
-{
-public:
-        static void initClass(); // creates sMutex
-        static void cleanupClass(); // destroys sMutex
-        
-private:
-        static LLMutex* sMutex;
-private:
-        LLThreadSafeRefCount(const LLThreadSafeRefCount&); // not implemented
-        LLThreadSafeRefCount&operator=(const LLThreadSafeRefCount&); // not implemented
-protected:
-        virtual ~LLThreadSafeRefCount(); // use unref()
-        
-public:
-        LLThreadSafeRefCount();
-        
-        void ref()
-        {
-                if (sMutex) sMutex->lock();
-                mRef++; 
-                if (sMutex) sMutex->unlock();
-        } 
-        S32 unref()
-        {
-                llassert(mRef >= 1);
-                if (sMutex) sMutex->lock();
-                S32 res = --mRef;
-                if (sMutex) sMutex->unlock();
-                if (0 == res) 
-                {
-                        delete this; 
-                        res = 0;
-                }
-                return res;
-        }       
-        S32 getNumRefs() const
-        {
-                return mRef;
-        }
-private: 
-        S32     mRef; 
-};
 //----------------------------------------------------------------------------
@@ -139,6 +91,7 @@ public:
                }
                return mRef;
        }       
        S32 getNumRefs() const
        {
                return mRef;
@@ -150,6 +103,7 @@ private:
 //----------------------------------------------------------------------------
+// Note: relies on Type having ref() and unref() methods
 template <class Type> class LLPointer
 {
 public:
@@ -268,6 +222,154 @@ protected:
        Type*   mPointer;
 };
+//template <class Type> 
+//class LLPointerTraits
+//{
+//      static Type* null();
+//};
+//
+// Expands LLPointer to return a pointer to a special instance of class Type instead of NULL.
+// This is useful in instances where operations on NULL pointers are semantically safe and/or
+// when error checking occurs at a different granularity or in a different part of the code
+// than when referencing an object via a LLHandle.
+// 
+template <class Type> 
+class LLHandle
+{
+public:
+        LLHandle() :
+                mPointer(sNullFunc())
+        {
+                ref();
+        }
+        LLHandle(Type* ptr) : 
+                mPointer(nonNull(ptr))
+        {
+                ref();
+        }
+        LLHandle(const LLHandle<Type>& ptr) : 
+                mPointer(ptr.mPointer)
+        {
+                ref();
+        }
+        // support conversion up the type hierarchy.  See Item 45 in Effective C++, 3rd Ed.
+        template<typename Subclass>
+        LLHandle(const LLHandle<Subclass>& ptr) : 
+                mPointer(ptr.get())
+        {
+                ref();
+        }
+        ~LLHandle()                                                             
+        {
+                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 != sNullFunc()); }
+        operator bool()  const                                          { return (mPointer != sNullFunc()); }
+        bool operator!() const                                          { return (mPointer == sNullFunc()); }
+        bool isNull() const                                                     { return (mPointer == sNullFunc()); }
+        bool notNull() const                                            { return (mPointer != sNullFunc()); }
+        operator Type*()       const                            { return mPointer; }
+        operator const Type*() const                            { return mPointer; }
+        bool operator !=(Type* ptr) const           { return (mPointer != nonNull(ptr));        }
+        bool operator ==(Type* ptr) const           { return (mPointer == nonNull(ptr));        }
+        bool operator ==(const LLHandle<Type>& ptr) const           { return (mPointer == ptr.mPointer);        }
+        bool operator < (const LLHandle<Type>& ptr) const           { return (mPointer < ptr.mPointer);         }
+        bool operator > (const LLHandle<Type>& ptr) const           { return (mPointer > ptr.mPointer);         }
+        LLHandle<Type>& operator =(Type* ptr)                   
+        { 
+                if( mPointer != ptr )
+                {
+                        unref(); 
+                        mPointer = nonNull(ptr); 
+                        ref();
+                }
+                return *this; 
+        }
+        LLHandle<Type>& operator =(const LLHandle<Type>& ptr)  
+        { 
+                if( mPointer != ptr.mPointer )
+                {
+                        unref(); 
+                        mPointer = ptr.mPointer;
+                        ref();
+                }
+                return *this; 
+        }
+        // support assignment up the type hierarchy. See Item 45 in Effective C++, 3rd Ed.
+        template<typename Subclass>
+        LLHandle<Type>& operator =(const LLHandle<Subclass>& ptr)  
+        { 
+                if( mPointer != ptr.get() )
+                {
+                        unref(); 
+                        mPointer = ptr.get();
+                        ref();
+                }
+                return *this; 
+        }
+public:
+        typedef Type* (*NullFunc)();
+        static const NullFunc sNullFunc;
+protected:
+        void ref()                             
+        { 
+                if (mPointer)
+                {
+                        mPointer->ref();
+                }
+        }
+        void unref()
+        {
+                if (mPointer)
+                {
+                        Type *tempp = mPointer;
+                        mPointer = sNullFunc();
+                        tempp->unref();
+                        if (mPointer != sNullFunc())
+                        {
+                                llwarns << "Unreference did assignment to non-NULL because of destructor" << llendl;
+                                unref();
+                        }
+                }
+        }
+        static Type* nonNull(Type* ptr)
+        {
+                return ptr == NULL ? sNullFunc() : ptr;
+        }
+        static Type* defaultNullFunc()
+        {
+                llerrs << "No null value provided for LLHandle" << llendl;
+                return NULL;
+        }
+protected:
+        Type*   mPointer;
+};
 // LLInitializedPointer is just a pointer with a default constructor that initializes it to NULL
 // NOT a smart pointer like LLPointer<>
 // Useful for example in std::map<int,LLInitializedPointer<LLFoo> >
author	Jacek Antonelli	2008-08-15 23:44:50 -0500
committer	Jacek Antonelli	2008-08-15 23:44:50 -0500
commit	89fe5dab825a62a0e3fd8d248cbc91c65eb2a426 (patch)
tree	bcff14b7888d04a2fec799c59369f6095224bd08 /linden/indra/llcommon/llmemory.h
parent	Second Life viewer sources 1.13.3.2 (diff)
download	meta-impy-89fe5dab825a62a0e3fd8d248cbc91c65eb2a426.zip meta-impy-89fe5dab825a62a0e3fd8d248cbc91c65eb2a426.tar.gz meta-impy-89fe5dab825a62a0e3fd8d248cbc91c65eb2a426.tar.bz2 meta-impy-89fe5dab825a62a0e3fd8d248cbc91c65eb2a426.tar.xz

diff --git a/linden/indra/llcommon/llmemory.h b/linden/indra/llcommon/llmemory.h index b40ab79..7a7996b 100644 --- a/linden/indra/llcommon/llmemory.h +++ b/linden/indra/llcommon/llmemory.h
@@ -31,8 +31,6 @@
31	#include <cstdlib>	31	#include <cstdlib>
32		32
33	#include "llerror.h"	33	#include "llerror.h"
34	#include "llthread.h"
35	#include "llmemtype.h"
36		34
37	extern S32 gTotalDAlloc;	35	extern S32 gTotalDAlloc;
38	extern S32 gTotalDAUse;	36	extern S32 gTotalDAUse;
@@ -61,53 +59,7 @@ private:
61	// LLPointer<LLFoo> x = new LLFoo; // constructor does not do anything interesting	59	// LLPointer<LLFoo> x = new LLFoo; // constructor does not do anything interesting
62	// x->instantiate(); // does stuff like place x into an update queue	60	// x->instantiate(); // does stuff like place x into an update queue
63		61
64	class LLThreadSafeRefCount	62	// see llthread.h for LLThreadSafeRefCount
65	{
66	public:
67	static void initClass(); // creates sMutex
68	static void cleanupClass(); // destroys sMutex
69
70	private:
71	static LLMutex* sMutex;
72
73	private:
74	LLThreadSafeRefCount(const LLThreadSafeRefCount&); // not implemented
75	LLThreadSafeRefCount&operator=(const LLThreadSafeRefCount&); // not implemented
76
77	protected:
78	virtual ~LLThreadSafeRefCount(); // use unref()
79
80	public:
81	LLThreadSafeRefCount();
82
83	void ref()
84	{
85	if (sMutex) sMutex->lock();
86	mRef++;
87	if (sMutex) sMutex->unlock();
88	}
89
90	S32 unref()
91	{
92	llassert(mRef >= 1);
93	if (sMutex) sMutex->lock();
94	S32 res = --mRef;
95	if (sMutex) sMutex->unlock();
96	if (0 == res)
97	{
98	delete this;
99	res = 0;
100	}
101	return res;
102	}
103	S32 getNumRefs() const
104	{
105	return mRef;
106	}
107
108	private:
109	S32 mRef;
110	};
111		63
112	//----------------------------------------------------------------------------	64	//----------------------------------------------------------------------------
113		65
@@ -139,6 +91,7 @@ public:
139	}	91	}
140	return mRef;	92	return mRef;
141	}	93	}
		94
142	S32 getNumRefs() const	95	S32 getNumRefs() const
143	{	96	{
144	return mRef;	97	return mRef;
@@ -150,6 +103,7 @@ private:
150		103
151	//----------------------------------------------------------------------------	104	//----------------------------------------------------------------------------
152		105
		106	// Note: relies on Type having ref() and unref() methods
153	template <class Type> class LLPointer	107	template <class Type> class LLPointer
154	{	108	{
155	public:	109	public:
@@ -268,6 +222,154 @@ protected:
268	Type* mPointer;	222	Type* mPointer;
269	};	223	};
270		224
		225	//template <class Type>
		226	//class LLPointerTraits
		227	//{
		228	// static Type* null();
		229	//};
		230	//
		231	// Expands LLPointer to return a pointer to a special instance of class Type instead of NULL.
		232	// This is useful in instances where operations on NULL pointers are semantically safe and/or
		233	// when error checking occurs at a different granularity or in a different part of the code
		234	// than when referencing an object via a LLHandle.
		235	//
		236
		237	template <class Type>
		238	class LLHandle
		239	{
		240	public:
		241	LLHandle() :
		242	mPointer(sNullFunc())
		243	{
		244	ref();
		245	}
		246
		247	LLHandle(Type* ptr) :
		248	mPointer(nonNull(ptr))
		249	{
		250	ref();
		251	}
		252
		253	LLHandle(const LLHandle<Type>& ptr) :
		254	mPointer(ptr.mPointer)
		255	{
		256	ref();
		257	}
		258
		259	// support conversion up the type hierarchy. See Item 45 in Effective C++, 3rd Ed.
		260	template<typename Subclass>
		261	LLHandle(const LLHandle<Subclass>& ptr) :
		262	mPointer(ptr.get())
		263	{
		264	ref();
		265	}
		266
		267	~LLHandle()
		268	{
		269	unref();
		270	}
		271
		272	Type* get() const { return mPointer; }
		273	const Type* operator->() const { return mPointer; }
		274	Type* operator->() { return mPointer; }
		275	const Type& operator() const { return mPointer; }
		276	Type& operator() { return mPointer; }
		277
		278	operator BOOL() const { return (mPointer != sNullFunc()); }
		279	operator bool() const { return (mPointer != sNullFunc()); }
		280	bool operator!() const { return (mPointer == sNullFunc()); }
		281	bool isNull() const { return (mPointer == sNullFunc()); }
		282	bool notNull() const { return (mPointer != sNullFunc()); }
		283
		284
		285	operator Type*() const { return mPointer; }
		286	operator const Type*() const { return mPointer; }
		287	bool operator !=(Type* ptr) const { return (mPointer != nonNull(ptr)); }
		288	bool operator ==(Type* ptr) const { return (mPointer == nonNull(ptr)); }
		289	bool operator ==(const LLHandle<Type>& ptr) const { return (mPointer == ptr.mPointer); }
		290	bool operator < (const LLHandle<Type>& ptr) const { return (mPointer < ptr.mPointer); }
		291	bool operator > (const LLHandle<Type>& ptr) const { return (mPointer > ptr.mPointer); }
		292
		293	LLHandle<Type>& operator =(Type* ptr)
		294	{
		295	if( mPointer != ptr )
		296	{
		297	unref();
		298	mPointer = nonNull(ptr);
		299	ref();
		300	}
		301
		302	return *this;
		303	}
		304
		305	LLHandle<Type>& operator =(const LLHandle<Type>& ptr)
		306	{
		307	if( mPointer != ptr.mPointer )
		308	{
		309	unref();
		310	mPointer = ptr.mPointer;
		311	ref();
		312	}
		313	return *this;
		314	}
		315
		316	// support assignment up the type hierarchy. See Item 45 in Effective C++, 3rd Ed.
		317	template<typename Subclass>
		318	LLHandle<Type>& operator =(const LLHandle<Subclass>& ptr)
		319	{
		320	if( mPointer != ptr.get() )
		321	{
		322	unref();
		323	mPointer = ptr.get();
		324	ref();
		325	}
		326	return *this;
		327	}
		328
		329	public:
		330	typedef Type* (*NullFunc)();
		331	static const NullFunc sNullFunc;
		332
		333	protected:
		334	void ref()
		335	{
		336	if (mPointer)
		337	{
		338	mPointer->ref();
		339	}
		340	}
		341
		342	void unref()
		343	{
		344	if (mPointer)
		345	{
		346	Type *tempp = mPointer;
		347	mPointer = sNullFunc();
		348	tempp->unref();
		349	if (mPointer != sNullFunc())
		350	{
		351	llwarns << "Unreference did assignment to non-NULL because of destructor" << llendl;
		352	unref();
		353	}
		354	}
		355	}
		356
		357	static Type* nonNull(Type* ptr)
		358	{
		359	return ptr == NULL ? sNullFunc() : ptr;
		360	}
		361
		362	static Type* defaultNullFunc()
		363	{
		364	llerrs << "No null value provided for LLHandle" << llendl;
		365	return NULL;
		366	}
		367
		368	protected:
		369
		370	Type* mPointer;
		371	};
		372
271	// LLInitializedPointer is just a pointer with a default constructor that initializes it to NULL	373	// LLInitializedPointer is just a pointer with a default constructor that initializes it to NULL
272	// NOT a smart pointer like LLPointer<>	374	// NOT a smart pointer like LLPointer<>
273	// Useful for example in std::map<int,LLInitializedPointer<LLFoo> >	375	// Useful for example in std::map<int,LLInitializedPointer<LLFoo> >