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I would like to know the exact number of instances of certain objects allocated at certain point of execution. Mostly for hunting possible memory leaks(I mostly use RAII, almost no new, but still I could forget .clear() on vector before adding new elements or something similar). Ofc I could have an

atomic<int> cntMyObject;

that I -- in destructor, ++ increase in constructor, cpy constructor(I hope I covered everything :)). But that is hardcoding for every class. And it is not simple do disable it in "Release" mode. So is there any simple elegant way that can be easily disabled to count object instances?

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Why not to use a profile to find memory leaks?... –  user405725 Aug 17 '11 at 18:34
Not the assignment operator -- it doesn't change the number of existing objects of the type, just alters the value of one of them. –  Steve Jessop Aug 17 '11 at 19:16
As much as I find the idea of adding a global object counter interesting, I'd say that for your practical problem of eliminating memory errors, running your program through Valgrind would be a much more approachable solution, with more meaningful messages, too. –  Kerrek SB Aug 17 '11 at 19:21
If you think something like google HEAPProfiler-it is nice, but once I messed up STL stuff(non thread safe updates)and it didnt detect leaks(it did help me find them since i noticed the circles are getting bigger for reloading same stuff). Also I dont know how to focus on certain class in HeapProfiler, I only know to generate "entire program mem usage". –  NoSenseEtAl Aug 17 '11 at 19:26
@Steve-tnx, fixed. –  NoSenseEtAl Aug 17 '11 at 19:27

6 Answers 6

up vote 19 down vote accepted

Have a "counted object" class that does the proper reference counting in its constructor(s) and destructor, then derive your objects that you want to track from it. You can then use the curiously recurring template pattern to get distinct counts for any object types you wish to track.

// warning: pseudo code

template <class Obj>
class CountedObj
   CountedObj() {++total_;}
   CountedObj(const CountedObj& obj) {if(this != &obj) ++total_;}
   ~CountedObj() {--total_;}

   static size_t OustandingObjects() {return total_;}

   static size_t total_;

class MyClass : private CountedObj<MyClass>
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You shouldn't really need the same-object check in the copy ctor, since it's not generally valid to copy-construct an object from itself, so anyone doing that is already playing silly games. Doesn't do any harm, though. Insert atomicity or locks to taste, but the questioner already knows about that. –  Steve Jessop Aug 17 '11 at 19:15
I was hoping for something that doesnt require permanent code change, but this is nice solution. –  NoSenseEtAl Aug 17 '11 at 19:22
No permanent code change? What do you mean? You can just surround the increment/decrement code with #ifdef NDEBUG which relies on the assert() define. Or you can use a Trait on a boolean, to simply enable or disable the code for Debug or Production. But thats not "simple" anymore. If you are interested anyway, I can paste a piece of sample code here. All you then are needed to do is to define either static const bool debug = true or false, and yo provi two template specializations for CountedObj: One completely empty, one with debug code in there. –  towi Aug 20 '11 at 16:08
Doh, Im such a noob, all clear now. BTW do you know what is the simplest way to make the logging of the counters also contained in the base class? I thought about launching a thread first time when class is created, and having that thread to do the counting. –  NoSenseEtAl Aug 21 '11 at 21:51
@NoSenseEtAl : It makes NoSenseAtAll to have a thread that is doing counting. If you use the CountObj, and make it the base class of the classes whose object you want to keep track of then, within the context of the thread in which the object was instantiated, the count will be incremented. –  Ajeet Aug 25 '11 at 5:08

Better off to use memory profiling & leak detection tools like Valgrind or Rational Purify.

If you can't and want to implement your own mechanism then,

You should overload the new and delete operators for your class and then implement the memory diagnostic in them.

Have a look at this C++ FAQ answer to know how to do that and what precautions you should take.

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Doesn't the FAQ entry totally forget to mention the requirement that operator-new is mandated by the standard to contain an infinite loop calling the new-handler in case of failure? –  Kerrek SB Aug 17 '11 at 18:40
@Kerrek SB: Infinite Loop? I am not sure I understand, Isn't new supposed to just throw std::bad_alloc in case of failure? –  Alok Save Aug 17 '11 at 18:47
There should be some sort of infinite loop, since the handlers may install futher handlers. Either your new handler provides memory and you break, or there is no more new handler and you throw. –  Kerrek SB Aug 17 '11 at 18:52
Hm, maybe it's not actually in the standard. only says that you "may" call the new handler. Scott Meyers #49 says you should loop and call new handlers. –  Kerrek SB Aug 17 '11 at 18:56
@Kerrek SB: Is this specified by the Standard or an implementation detail? If it is Standard specified(I am not aware of it but it would be interesting if it so) You can discuss it with Sbi in C++ Lounge or add a comment on the FAQ answer,(if you guys do have a conversation, please do add a link here so i can followup as well, I am in a different time zone & already well past midnight for me now, So can't stay back :() –  Alok Save Aug 17 '11 at 18:57

This is a sort of working example of something similar: http://www.almostinfinite.com/memtrack.html (just copy the code at the end of the page and put it in Memtrack.h, and then run TrackListMemoryUsage() or one of the other functions to see diagnostics)

It overrides operator new and does some arcane macro stuff to make it 'stamp' each allocation with information that allow it to count how many instances of an object and how much memory they're usingusing. It's not perfect though, the macros they use break down under certain conditions. If you decide to try this out make sure to include it after any standard headers.

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you can apply this approach

#ifdef DEBUG

class ObjectCount {
    static int count;
    ObjectCount() {
    void static showCount() {
        cout << count;

int ObjectCount::count = 0;

class Employee : public ObjectCount {
class Employee {
    Employee(const Employee & emp) {


at DEBUG mode, invoking of ObjectCount::showCount() method will return count of object(s) created.

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Without knowing your code and your requirements, I see 2 reasonable options:

a) Use boost::shared_ptr. It has the atomic reference counts you suggested built in and takes care of your memory management (so that you'd never actually care to look at the count). Its reference count is available through the use_count() member.

b) If the implications of a), like dealing with pointers and having shared_ptrs everywhere, or possible performance overhead, are not acceptable for you, I'd suggest to simply use available tools for memory leak detection (e.g. Valgrind, see above) that'll report your loose objects at program exit. And there's no need to use intrusive helper classes for (anyway debug-only) tracking object counts, that just mess up your code, IMHO.

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We used to have the solution of a base class with internal counter and derive from it, but we changed it all into boost::shared_ptr, it keeps a reference counter and it cleans up memory for you. The boost smart pointer family is quite useful: boost smart pointers

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