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What are some tips I can use to avoid memory leaks in my applications? In my current project I use a tool "INSURE++" which finds the memory leak and generate the report.

Apart from the tool is there any method to identify memory leaks and overcome it.

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Are you using C, or C++? The available solutions are quite different for the two languages. –  Greg Hewgill Jun 6 '10 at 5:36
I am using C. Can you please provide a resolution for both C and C++ –  Ankur Jun 6 '10 at 5:37
@Ankur: Well an answer that makes sense for C is not going to make sense for C++ and vice versa. Memory management is one of the bits that change in C++. –  Billy ONeal Jun 6 '10 at 5:43
@Ankur: No C solution worth using in C is going to be worth using in C++, since C++ offers extremely radically different solutions. –  Puppy Jun 6 '10 at 11:44
What is this language named "C/C++" that you speak of? –  Dan Jun 6 '10 at 16:08

6 Answers 6

There are three main ways of doing this.

The first is to not create memory leaks in the first place. Defensive programming techniques are invaluable here. See this excellent presentation for a summary of this issues, or the relevant chapter in Secure C Coding. I am more familiar with C than C++, but I understand that C++'s smart pointers are useful here.

A second approach static analysis, which attempts to detect errors in your source-code. The original tool in this category is lint, which is now sadly outdated. The best tools, as far as I know, are commercial such as coverty. However, some free tools do exist.

The third approach is to detect memory leaks at runtime, like INSURE++ does. Valgrind is excellent here and highly recommended. It may help catch bugs you've already introduced. It is especially helpful if you do have a test suite that has good code coverage.

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To avoid or to detect? To avoid, first detect and try to understand where and why... Another way could be the use of a GC library, like the one described here, but other (maybe better) libraries may exist.

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Are we talking tools to find leaks, or ways to code to avoid them?

For the former, the above mentioned valgrind, or Rational suite of IBM tools if you have a license to that. Dr. Dobbs recommended CompuWare’s BoundsChecker but that was 2002.

For the later, see:





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Use a smart pointer, such as std::shared_ptr<t> (C++0x), std::tr1::shared_ptr<t> (TR1), or boost::shared_ptr<t>. Of course this solution only works with C++ -- you're on your own in C.

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Smart pointers can be very helpful in automating the bookkeeping of object lifetimes:


Where possible, use stack allocated objects inside of their relevant scopes instead of new/delete.

Tools like valgrind have some overhead and can slow down your runs. If you know your codebase and the kinds of leaks that tend to arise, you can target specific classes and implement lighter weight checks (even just a simple object count that you check against zero when you quit). These lightweight checks can then be used to motivate you into doing a more extensive valgrind debugging session when they are triggered.

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For C, a good code organization helps. I.e. don't throw calls to malloc() and free() all over your codebase. Centralize them into two functions, then you have one single point for all the checkings. The simplest one could be to count the successful calls and check at program exit that they are balanced.

static unsigned long mymem_count_alloc = 0;
static unsigned long mymem_count_free  = 0;

void *mymem_alloc (size_t size)
    void *p;

    p = malloc(size);
    if (p)
        error logging/handling/signaling

    return (p);

void mymem_free (void *p)
    if (p)

void mymem_check (void)
    if (mymem_count_alloc != mymem_count_free)
        error alert

You can continue this for the different data structures. Whereever you need to allocate memory for a string, use mystr_alloc and mystr_free. And so on. When a leak is detected this way, you can quickly narrow it down.

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+1 mainly for the 'For C, a good code organization helps...'. Personally, I'd prefer to not use this exact method. I'd go for using opaque data structures forcing the use of a functions to create/destroy each particular data type. The counting would shift into these data structures create/destroy functions. You do need to organize your code clearly for this, as it's all to easy for it to get messy. This will be enough to catch many leaks, and valgrind is very good at say catching fence post errors in arrays. –  James Morris Jun 6 '10 at 13:29
Saying that, this method would still be useful, but I'd certainly want it's usage to be conditional: it replaces malloc/free for debug builds, but malloc/free is used in release builds. –  James Morris Jun 6 '10 at 13:34
@James: I go with the create/destroy approach, too. But in there, wrapper functions for malloc/free similar to these are always used, a bit more sophisticated as this example, of course. The error handling part is always necessary, and if something is always necessary when calling a library function, then it should either become a part of the function itself or be put into a wrapper if the manipulation of the function is not possible, regarding the DRY principle. stackoverflow.com/questions/1529679/… –  Secure Jun 6 '10 at 16:08
Saying that (me too ;), what is your reason to make it conditional? –  Secure Jun 6 '10 at 16:11
The basic idea of making it compile conditionally is to remove what in my opinion is debugging code from the release build. –  James Morris Jun 6 '10 at 16:36

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