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I am c++ programmer on windows platform.I am using Visual studio 2008 I usually end up in the code with memory leak. Normally I find the memory leak by normally inspecting the code, but it is cumbersome and is not a good approach always.

since I can't afford paid memory leak detection tool. I wanted you guys to suggest best possible to avoid memory leak

  1. I wanted to the know how programmer find memory leak.
  2. Is there any standard or procedure one should follow to ensure there is no memory leak in the program.
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"I usually end up in the code with memory leak." If you use automatic variables, containers, and smart pointers (and follow best practices for using smart pointers), memory leaks should be extremely rare. Remember, in almost all cases, you should use automatic resource management. –  James McNellis Jun 7 '11 at 6:12
Duplicates issues covered by several questions, like stackoverflow.com/questions/1502799/… and stackoverflow.com/questions/2820223/… –  HostileFork Jun 7 '11 at 6:13
@Hostile Fork: "how can one avoid to usually end up in code with memory leaks" is not covered by those answers. –  Doc Brown Jun 7 '11 at 8:29
@Doc Brown: Didn't feel like looking that up too, but it's all covered elsewhere, such as stackoverflow.com/questions/45627/… –  HostileFork Jun 7 '11 at 8:33
@Hostile Fork: of course, I feel that's a much better link. Thanks! –  Doc Brown Jun 7 '11 at 8:36

11 Answers 11

up vote 75 down vote accepted


Things You'll Need

  • Proficiency in C++
  • C++ compiler
  • Debugger and other investigative software tools


Understand the operator basics. The C++ operator "new" allocates heap memory. The "delete" operator frees heap memory. For every "new," you should use a "delete" so that you free the same memory you allocated:

char* str = new char [30]; // Allocate 30 bytes to house a string.

delete [] str; // Clear those 30 bytes and make str point nowhere.


Reallocate memory only if you've deleted. In the code below, str acquires a new address with the second allocation. The first address is lost irretrievably, and so are the 30 bytes that it pointed to. Now they're impossible to free, and you have a memory leak:

char* str = new char [30]; // Give str a memory address.

// delete [] str; // Remove the first comment marking in this line to correct.

str = new char [60]; /* Give str another memory address with
                                                    the first one gone forever.*/

delete [] str; // This deletes the 60 bytes, not just the first 30.


Watch those pointer assignments. Every dynamic variable (allocated memory on the heap) needs to be associated with a pointer. When a dynamic variable becomes disassociated from its pointer(s), it becomes impossible to erase. Again, this results in a memory leak:

char* str1 = new char [30];

char* str2 = new char [40];

strcpy(str1, "Memory leak");

str2 = str1; // Bad! Now the 40 bytes are impossible to free.

delete [] str2; // This deletes the 30 bytes.

delete [] str1; // Possible access violation. What a disaster!


Be careful with local pointers. A pointer you declare in a function is allocated on the stack, but the dynamic variable it points to is allocated on the heap. If you don't delete it, it will persist after the program exits from the function:

void Leak(int x){

char* p = new char [x];

// delete [] p; // Remove the first comment marking to correct.



Pay attention to the square braces after "delete." Use "delete" by itself to free a single object. Use "delete" [] with square brackets to free a heap array. Don't do something like this:

char* one = new char;

delete [] one; // Wrong

char* many = new char [30];

delete many; // Wrong!


If the leak yet allowed - I'm usually seeking it with deleaker (check it here: http://deleaker.com).


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Thank you for your depth the answer. This is exactly what I was looking for! –  MastAvalons Dec 7 '11 at 15:51
sorry for question-comment but what about function parameters without pointers? someFunction("some parameter") do I have to delete "some parameter" in the someFunction, after the function call, or are these automatically deleted? –  19greg96 May 26 '13 at 17:31

You can use some techniques in your code to detect memory leak. The most common and most easy way to detect is, define a macro say, DEBUG_NEW and use it, along with predefined macros like __FILE__ and __LINE__ to locate the memory leak in your code. These predefined macros tell you the file and line number of memory leaks.

DEBUG_NEW is just a MACRO which is usually defined as:

#define DEBUG_NEW new(__FILE__, __LINE__)
#define new DEBUG_NEW

So that wherever you use new, it also can keep track of the file and line number which could be used to locate memory leak in your program.

And __FILE__, __LINE__ are predefined macros which evaluate to the filename and line number respectively where you use them!

Read the following article which explains the technique of using DEBUG_NEW with other interesting macros, very beautifully:

A Cross-Platform Memory Leak Detector

From Wikpedia,

Debug_new refers to a technique in C++ to overload and/or redefine operator new and operator delete in order to intercept the memory allocation and deallocation calls, and thus debug a program for memory usage. It often involves defining a macro named DEBUG_NEW, and makes new become something like new(_FILE_, _LINE_) to record the file/line information on allocation. Microsoft Visual C++ uses this technique in its Microsoft Foundation Classes. There are some ways to extend this method to avoid using macro redefinition while still able to display the file/line information on some platforms. There are many inherent limitations to this method. It applies only to C++, and cannot catch memory leaks by C functions like malloc. However, it can be very simple to use and also very fast, when compared to some more complete memory debugger solutions.

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this #define will mess up with overloaded operator new and generate compiler errors. Even if you succeed to overcome that then still the overloaded functions will not be addressed. Though the technique is good, it needs lot of code changes sometimes. –  iammilind Jun 7 '11 at 6:21
@iammilind: Of course, this technique is not all-cure solution of all set of problems and surely isn't applicable in all situations. –  Nawaz Jun 7 '11 at 6:26
what about auto_ptr nawaz.will it work on all situation –  Chris_vr Jun 7 '11 at 6:28
@Chris_vr: auto_ptr will not work with standard containers such as std::vector, std::list etc. See this : stackoverflow.com/questions/111478/… –  Nawaz Jun 7 '11 at 6:32
Okay cool. FILE and line are described. What is operator new and what are these versions of it that you are using? –  user645280 May 6 at 14:51
  1. In visual studio, there is a built in detector for memory leak called C Runtime Library. When your program exits after the main function returns, CRT will check the debug heap of your application. if you have any blocks still allocated on the debug heap, then you have memory leak..

  2. This forum discusses a few ways to avoid memory leakage in C/C++..

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There are some well-known programming techniques that will help you to minimize the risk of getting memory leaks at first hand:

  • if you have to do your own dynamic memory allocation, write new and delete always pairwise, and make sure the allocation/deallocation code is called pairwise
  • avoid dynamic memory allocation if you can. For example, use vector<T> whereever possible instead of T[]
  • use "smart pointers" like auto_pointer or boost smart pointers (http://www.boost.org/doc/libs/1_46_1/libs/smart_ptr/smart_ptr.htm)
  • my personal favorite: make sure you have understood the concept of ownership of a pointer, and make sure that everywhere where you use pointers, you know which code entity is the owner
  • learn which constructors / assignment operators are automatically created by the C++ compiler, and what that means if you have class that owns a pointer (or what that means if you have a class that contains a pointer to an object it does not own).
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I use auto_pointer of a object does that mean it will delete all the other class object pointer inside it. –  Chris_vr Jun 7 '11 at 6:31
@Chris_vr: if you have a specific question about auto_pointer, I would suggest you make a new question, including an example. –  Doc Brown Jun 7 '11 at 6:39

On Windows you can use CRT debug heap.

Is there any standard or procedure one should follow to ensure there is no memory leak in the program.

Yeah, don't use manual memory management (if you ever call delete or delete[] manually, then you're doing it wrong). Use RAII and smart pointers, limit heap allocations to the absolute minimum (most of the time, automatic variables will suffice).

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If you use gcc, there's gprof available.

I wanted to the know how programmer find memory leak

Some uses tools, some does what you do, could also through peer code review

Is there any standard or procedure one should follow to ensure there is no memory leak in the program

For me: whenever I create dynamically allocated objects, I always put the freeing code after, then fill the code between. This would be OK if you're sure there won't be exceptions in the code between. Otherwise, I make use of try-finally (I don't use C++ frequently).

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some time we can't delete allocated in the constructor.what to do on that occasion. –  Chris_vr Jun 7 '11 at 6:32

Answering the second part of your question,

Is there any standard or procedure one should follow to ensure there is no memory leak in the program.

Yes, there is. And this is one of the key differences between C and C++.

In C++, you should never call new or delete in your user code. RAII is a very commonly used technique, which pretty much solves the resource management problem. Every resource in your program (a resource is anything that has to be acquired, and then later on, released: file handles, network sockets, database connections, but also plain memory allocations, and in some cases, pairs of API calls (BeginX()/EndX(), LockY(), UnlockY()), should be wrapped in a class, where:

  • the constructor acquires the resource (by calling new if the resource is a memroy allocation)
  • the destructor releases the resource,
  • copying and assignment is either prevented (by making the copy constructor and assignment operators private), or are implemented to work correctly (for example by cloning the underlying resource)

This class is then instantiated locally, on the stack, or as a class member, and not by calling new and storing a pointer.

You often don't need to define these classes yourself. The standard library containers behave in this way as well, so that any object stored into a std::vector gets freed when the vector is destroyed. So again, don't store a pointer into the container (which would require you to call new and delete), but rather the object itself (which gives you memory management for free). Likewise, smart pointer classes can be used to easily wrap objects that just have to be allocated with new, and control their lifetimes.

This means that when the object goes out of scope, it is automatically destroyed, and its resource released and cleaned up.

If you do this consistently throughout your code, you simply won't have any memory leaks. Everything that could get leaked is tied to a destructor which is guaranteed to be called when control leaves the scope in which the object was declared.

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if smart pointer holds a class and that class contain pointer of several other class. when smart goes off does that mean all the pointer inside will be deleted safely. –  Chris_vr Jun 7 '11 at 6:58
@Chris: Assuming that the object being pointed to by the smart pointer has a destructor which does the necessary cleanup or the object contains members which themselves have destructors to perform the necessary cleanup. In essence, as long as every object takes care of itself (cleaning up after itself when it is destroyed), and as long as every object is stored by value, not as a pointer, then everything that needs to be freed will get freed. –  jalf Jun 7 '11 at 7:16
Woohoo, anonmymous downvotes are the best. Care to explain? –  jalf Dec 15 '11 at 21:26
Here! Have an upvote. –  Mankarse Dec 16 '11 at 17:31

Search your code for occurrences of new, and make sure that they all occur within a constructor with a matching delete in a destructor. Make sure that this is the only possibly throwing operation in that constructor. A simple way to do this is to wrap all pointers in std::auto_ptr, or boost::scoped_ptr (depending on whether or not you need move semantics). For all future code just ensure that every resource is owned by an object that cleans up the resource in its destructor. If you need move semantics then you can upgrade to a compiler that supports r-value references (VS2010 does I believe) and create move constructors. If you don't want to do that then you can use a variety of tricky techniques involving conscientious usage of swap, or try the Boost.Move library.

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it is not always possible to delete the allocated memory in the constructor.How to deal this situation –  Chris_vr Jun 7 '11 at 6:30
@Chris_vr What do you mean? If all your pointer members are scope_ptrs, and each is initialised individually then all the ones that were successfully constructed will delete their pointers, and the others will not yet be holding pointers to allocated memory anyway. I will put up an example in a few hours when I get home from work. –  Mankarse Jun 7 '11 at 6:42
@Chris_vr: if you have a specific example, post it as a new question, so we can discuss it there. –  Doc Brown Jun 7 '11 at 8:39
  1. Download Debugging Tools for Windows.
  2. Use the gflags utility to turn on user-mode stack traces.
  3. Use UMDH to take multiple snapshots of your program's memory. Take a snapshot before memory gets allocated, and take a second snapshot after a point at which you believe that your program has leaked memory. You might want to add pauses or prompts in your program to give you a chance to run UMDH and take the snapshots.
  4. Run UMDH again, this time in its mode that does a diff between the two snapshots. It will then generate a report containing the call stacks of suspected memory leaks.
  5. Restore your previous gflags settings when you're done.

UMDH will give you more information than the CRT debug heap because it is watching memory allocations across your entire process; it can even tell you if third-party components are leaking.

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