Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Is it ever acceptable to have a memory leak in your C or C++ application?

What if you allocate some memory and use it until the very last line of code in your application (for example, a global object's destructor)? As long as the memory consumption doesn't grow over time, is it OK to trust the OS to free your memory for you when your application terminates (on Windows, Mac, and Linux)? Would you even consider this a real memory leak if the memory was being used continuously until it was freed by the OS.

What if a third party library forced this situation on you? Would refuse to use that third party library no matter how great it otherwise might be?

I only see one practical disadvantage, and that is that these benign leaks will show up with memory leak detection tools as false positives.

share|improve this question
If the memory consumption doesn't grow over time, it's not a leak. – mpez0 Mar 7 '10 at 19:39
Most applications (including all .NET programs) have at least a few buffers that are allocated once and never freed explicitly., so mpez0's definition is more useful. – Ben Voigt Sep 18 '10 at 20:12
Yes, if you have infinite memory. – user Oct 1 '13 at 11:30

47 Answers 47

up vote 269 down vote accepted


As professionals, the question we should not be asking ourselves the question, "Is it ever OK to do this?" but rather "Is there ever a good reason to do this?" And "hunting down that memory leak is a pain" isn't a good reason.

I like to keep things simple. And the simple rule is that my program should have no memory leaks.

That makes my life simple, too. If I detect a memory leak, I eliminate it, rather than run through some elaborate decision tree structure to determine whether it's an "acceptable" memory leak.

It's similar to compiler warnings – will the warning be fatal to my particular application? Maybe not.

But it's ultimately a matter of professional discipline. Tolerating compiler warnings and tolerating memory leaks is a bad habit that will ultimately bite me in the rear.

To take things to an extreme, would it ever be acceptable for a surgeon to leave some piece of operating equipment inside a patient?

Although it is possible that a circumstance could arise where the cost/risk of removing that piece of equipment exceeds the cost/risk of leaving it in, and there could be circumstances where it was harmless, if I saw this question posted on and saw any answer other than "no," it would seriously undermine my confidence in the medical profession.

If a third party library forced this situation on me, it would lead me to seriously suspect the overall quality of the library in question. It would be as if I test drove a car and found a couple loose washers and nuts in one of the cupholders – it may not be a big deal in itself, but it portrays a lack of commitment to quality, so I would consider alternatives.

share|improve this answer
True and not true at the same time. Ultimate most of us are wage slaves and any desire for craftsmanship must take a back seat to the requirements of the business. If that 3rd party library has a leak and saves 2 weeks of work, there may be a business case to use it, etc... – Cervo Nov 7 '08 at 19:28
I would use the library anyway, if it was something I needed and there were no decent alternatives, but I would log a bug with the maintainers. – tloach Nov 11 '08 at 20:08
While I'd personally go with exactly the same answer, there are programs that hardly free memory at all. The reason is that they are a) intended to run on OSes that free memory, and b) designed not to run very long. Rare constraints for a program indeed, but I accept this as perfectly valid. – unwesen Nov 26 '08 at 19:02
16 haha that's a funny one! – Ray Hidayat Feb 27 '09 at 5:49
Hmm is "not leaking memory" "perfect"? – JohnMcG Sep 1 '10 at 14:30

I only see one practical disadvantage, and that is that these benign leaks will show up with memory leak detection tools as false positives.

If I understood correctly, you don't explicitly free memory (which can be freed because you still have a pointer) and rely on OS to free it during process termination. Though this may seem okay for simple program, consider the situation where your code is moved into a library and becomes a part of some resident daemon process running 24/7. Say this daemon spawns a thread each time it needs to do something useful using your code and say it spawns thousands of threads every hour. In this case you will get real memory leak.

Unfortunately, this situation is not unlikely in the real life and consistent memory management techniques may make your life easier.

share|improve this answer

The rule is simple: if you finished using some memory clean it. and sometimes even if we need some instances later but we remark that we use memory heavily, so it can impact preformance due to swap to disk, we can store data to files in disk and after reload them, sometimes this technique optimize a lot your program.

share|improve this answer

I guess it's fine if you're writing a program meant to leak memory (i.e. to test the impact of memory leaks on system performance).

share|improve this answer

Think of the case that the application is later used from another, with the possibilities to open several of them in separate windows or after each other to do something. If it is not run a a process, but as a library, then the calling program leak memory because you thought you cold skip the memory cleanup.

Use some sort of smart pointer that does it for you automatically (e.g. scoped_ptr from Boost libs)

share|improve this answer

Some time ago I would have said yes, that it was sometime acceptable to let some memory leaks in your program (it is still on rapid prototyping) but having made now 5 or 6 times the experience that tracking even the least leak revealed some really severe functional errors. Letting a leak in a program happens when the life cycle of a data entity is not really known, showing a crass lack of analysis. So in conclusion, it is always a good idea to know what happens in a program.

share|improve this answer

I'm going to give the unpopular but practical answer that it's always wrong to free memory unless doing so will reduce the memory usage of your program. For instance a program that makes a single allocation or series of allocations to load the dataset it will use for its entire lifetime has no need to free anything. In the more common case of a large program with very dynamic memory requirements (think of a web browser), you should obviously free memory you're no longer using as soon as you can (for instance closing a tab/document/etc.), but there's no reason to free anything when the user selects clicks "exit", and doing so is actually harmful to the user experience.

Why? Freeing memory requires touching memory. Even if your system's malloc implementation happens not to store metadata adjacent to the allocated memory blocks, you're likely going to be walking recursive structures just to find all the pointers you need to free.

Now, suppose your program has worked with a large volume of data, but hasn't touched most of it for a while (again, web browser is a great example). If the user is running a lot of apps, a good portion of that data has likely been swapped to disk. If you just exit(0) or return from main, it exits instantly. Great user experience. If you go to the trouble of trying to free everything, you may spend 5 seconds or more swapping all the data back in, only to throw it away immediately after that. Waste of user's time. Waste of laptop's battery life. Waste of wear on the hard disk.

This is not just theoretical. Whenever I find myself with too many apps loaded and the disk starts thrashing, I don't even consider clicking "exit". I get to a terminal as fast as I can and type killall -9 ... because I know "exit" will just make it worse.

share|improve this answer

I took one class in high school on C and the teacher said always make sure to free when you malloc.

But when I took another course college the Professor said it was ok not to free for small programs that only run for a second. So I suppose it doesn't hurt your program, but it is good practice to free for strong, healthy code.

share|improve this answer

I believe it is okay if you have a program that will run for a matter of seconds and then quit and it is just for personal use. Any memory leaks will be cleaned up as soon as your program ends.

The problem comes when you have a program that runs for along time and users rely on it. Also it is bad coding habit to let memory leaks exist in your program especially for work if they may turn that code into something else someday.

All in all its better to remove memory leaks.

share|improve this answer

It looks like your definition of "memory leak" is "memory that I don't clean up myself." All modern OSes will free it on program exit. However, since this is a C++ question, you can simply wrap the memory in question inside an appropriate std::auto_ptr which will call delete when it goes out of scope.

share|improve this answer

I agree with vfilby – it depends. In Windows, we treat memory leaks as relatively serous bugs. But, it very much depends on the component.

For example, memory leaks are not very serious for components that run rarely, and for limited periods of time. These components run, do theire work, then exit. When they exit all their memory is freed implicitly.

However, memory leaks in services or other long run components (like the shell) are very serious. The reason is that these bugs 'steal' memory over time. The only way to recover this is to restart the components. Most people don't know how to restart a service or the shell – so if their system performance suffers, they just reboot.

So, if you have a leak – evaluate its impact two ways

  1. To your software and your user's experience.
  2. To the system (and the user) in terms of being frugal with system resources.
  3. Impact of the fix on maintenance and reliability.
  4. Likelihood of causing a regression somewhere else.


share|improve this answer

Its perfectly acceptable to omit freeing memory on the last line of the program since freeing it would have no effect on anything since the program never needs memory again.

share|improve this answer

Splitting hairs perhaps: what if your app is running on UNIX and can become a zombie? In this case the memory does not get reclaimed by the OS. So I say you really should de-allocate the memory before the program exits.

share|improve this answer

No, they are not O.K., but I've implemented a few allocators, memory dumpers, and leak detectors, and have found that as a pragmatic matter it's convenient to allow one to mark such an allocation as "Not a Leak as far as the Leak Report is concerned"...

This helps make the leak report more useful... and not crowded with "dynamic allocation at static scope not free'd by program exit"

share|improve this answer

Many people seem to be under the impression that once you free memory, it's instantly returned to the operating system and can be used by other programs.

This isn't true. Operating systems commonly manage memory in 4KiB pages. malloc and other sorts of memory management get pages from the OS and sub-manage them as they see fit. It's quite likely that free() will not return pages to the operating system, under the assumption that your program will malloc more memory later.

I'm not saying that free() never returns memory to the operating system. It can happen, particularly if you are freeing large stretches of memory. But there's no guarantee.

The important fact: If you don't free memory that you no longer need, further mallocs are guaranteed to consume even more memory. But if you free first, malloc might re-use the freed memory instead.

What does this mean in practice? It means that if you know your program isn't going to require any more memory from now on (for instance it's in the cleanup phase), freeing memory is not so important. However if the program might allocate more memory later, you should avoid memory leaks - particularly ones that can occur repeatedly.

Also see this comment for more details about why freeing memory just before termination is bad.

A commenter didn't seem to understand that calling free() does not automatically allow other programs to use the freed memory. But that's the entire point of this answer!

So, to convince people, I will demonstrate an example where free() does very little good. To make the math easy to follow, I will pretend that the OS manages memory in 4000 byte pages.

Suppose you allocate ten thousand 100-byte blocks (for simplicity I'll ignore the extra memory that would be required to manage these allocations). This consumes 1MB, or 250 pages. If you then free 9000 of these blocks at random, you're left with just 1000 blocks - but they're scattered all over the place. Statistically, about 5 of the pages will be empty. The other 245 will each have at least one allocated block in them. That amounts to 980KB of memory, that cannot possibly be reclaimed by the operating system - even though you now only have 100KB allocated!

On the other hand, you can now malloc() 9000 more blocks without increasing the amount of memory your program is tying up.

Even when free() could technically return memory to the OS, it may not do so. free() needs to achieve a balance between operating quickly and saving memory. And besides, a program that has already allocated a lot of memory and then freed it is likely to do so again. A web server needs to handle request after request after request - it makes sense to keep some "slack" memory available so you don't need to ask the OS for memory all the time.

share|improve this answer
What if, other programs require the memory which your program is holding up unnecessarily, hence even though you might not need any more mallocs, free() the unused memory spaces :) – M.N Feb 27 '09 at 6:11

As long as your memory utilization doesn't increase over time, it depends. If you're doing lots of complex synchronization in server software, say starting background threads that block on system calls, doing clean shutdown may be too complex to justify. In this situation the alternatives may be:

  1. Your library that doesn't clean up its memory until the process exits.
  2. You write an extra 500 lines of code and add another mutex and condition variable to your class so that it can shut down cleanly from your tests – but this code is never used in production, where the server only terminates by crashing.
share|improve this answer

If you allocate a bunch of heap at the beginning of your program, and you don't free it when you exit, that is not a memory leak per se. A memory leak is when your program loops over a section of code, and that code allocates heap and then "loses track" of it without freeing it.

In fact, there is no need to make calls to free() or delete right before you exit. When the process exits, all of its memory is reclaimed by the OS (this is certainly the case with POSIX. On other OSes – particularly embedded ones – YMMV).

The only caution I'd have with not freeing the memory at exit time is that if you ever refactor your program so that it, for example, becomes a service that waits for input, does whatever your program does, then loops around to wait for another service call, then what you've coded can turn into a memory leak.

share|improve this answer

There is nothing conceptually wrong with having the os clean up after the application is run.

It really depends on the application and how it will be run. Continually occurring leaks in an application that needs to run for weeks has to be taken care of, but a small tool that calculates a result without too high of a memory need should not be a problem.

There is a reason why many scripting language do not garbage collect cyclical references… for their usage patterns, it's not an actual problem and would thus be as much of a waste of resources as the wasted memory.

share|improve this answer

If your code has any memory leaks, even known "acceptable" leaks, then you will have an annoying time using any memory leak tools to find your "real" leaks. Just like leaving "acceptable" compiler warnings makes finding new, "real" warnings more difficult.

share|improve this answer

If you are using it up until the tail of your main(), it is simply not a leak (assuming a protected memory system, of course!).

In fact, freeing objects at process shutdown is the absolute worst thing you could do... the OS has to page back in every page you have ever created. Close file handles, database connections, sure, but freeing memory is just dumb.

share|improve this answer

While most answers concentrate on real memory leaks (which are not OK ever, because they are a sign of sloppy coding), this part of the question appears more interesting to me:

What if you allocate some memory and use it until the very last line of code in your application (for example, a global object's deconstructor)? As long as the memory consumption doesn't grow over time, is it OK to trust the OS to free your memory for you when your application terminates (on Windows, Mac, and Linux)? Would you even consider this a real memory leak if the memory was being used continuously until it was freed by the OS.

If the associated memory is used, you cannot free it before the program ends. Whether the free is done by the program exit or by the OS does not matter. As long as this is documented, so that change don't introduce real memory leaks, and as long as there is no C++ destructor or C cleanup function involved in the picture. A not-closed file might be revealed through a leaked FILE object, but a missing fclose() might also cause the buffer not to be flushed.

So, back to the original case, it is IMHO perfectly OK in itself, so much that Valgrind, one of the most powerful leak detectors, will treat such leaks only if requested. On Valgrind, when you overwrite a pointer without freeing it beforehand, it gets considered as a memory leak, because it is more likely to happen again and to cause the heap to grow endlessly.

Then, there are not nfreed memory blocks which are still reachable. One could make sure to free all of them at the exit, but that is just a waste of time in itself. The point is if they could be freed before. Lowering memory consumption is useful in any case.

share|improve this answer

The best practice is to always free what you allocate, especially if writing something that is designed to run during the entire uptime of a system, even when cleaning up prior to exiting.

Its a very simple rule .. programming with the intention of having no leaks makes new leaks easy to spot. Would you sell someone a car that you made knowing that it sputtered gas on the ground ever time it was turned off? :)

A few if () free() calls in a cleanup function are cheap, why not use them?

share|improve this answer

Only in one instance: The program is going to shoot itself due to an unrecoverable error.

share|improve this answer

When an application shuts down, it can be argued that it is best to not free memory.

In theory, the OS should release the resources used by the application, but there is always some resources that are exceptions to this rule. So beware.

The good with just exiting the application:

  1. The OS gets one chunk to free instead of many many small chunks. This means shutdown is much much faster. Especially on Windows with it's slow memory management.

The bad with just exiting is actually two points:

  1. It is easy to forget to release resources that the OS does not track or that the OS might wait a bit with releasing. One example is TCP sockets.
  2. Memory tracking software will report everything not freed at exit as leaks.

Because of this, you might want to have two modes of shutdown, one quick and dirty for end users and one slow and thorough for developers. Just make sure to test both :)

share|improve this answer

No, you should not have leaks that the OS will clean for you. The reason (not mentioned in the answers above as far as I could check) is that you never know when your main() will be re-used as a function/module in another program. If your main() gets to be a frequently-called function in another persons' software - this software will have a memory leak that eats memory over time.


share|improve this answer

It really depends upon the usage of the object that creating the memory leak. If you are creating the object so many times in the life time of the application that is using the object, then it is bad to use that way. Because so much memory leak will be there. On the other hand if we have a single instance of object without consuming the memory and leaking only in terms of small amount then it is not a problem.

Memory leak is a problem when the leak increases when the application is running.

share|improve this answer

As a general rule, if you've got memory leaks that you feel you can't avoid, then you need to think harder about object ownership.

But to your question, my answer in a nutshell is In production code, yes. During development, no. This might seem backwards, but here's my reasoning:

In the situation you describe, where the memory is held until the end of the program, it's perfectly okay to not release it. Once your process exits, the OS will clean up anyway. In fact, it might make the user's experience better: In a game I've worked on, the programmers thought it would be cleaner to free all the memory before exiting, causing the shutdown of the program to take up to half a minute! A quick change that just called exit() instead made the process disappear immediately, and put the user back to the desktop where he wanted to be.

However, you're right about the debugging tools: They'll throw a fit, and all the false positives might make finding your real memory leaks a pain. And because of that, always write debugging code that frees the memory, and disable it when you ship.

share|improve this answer

I believe the answer is no, never allow a memory leak, and I have a few reasons which I haven't seen explicitly stated. There are great technical answers here but I think the real answer hinges on more social/human reasons.

(First, note that as others mentioned, a true leak is when your program, at any point, loses track of memory resources that it has allocated. In C, this happens when you malloc() to a pointer and let that pointer leave scope without doing a free() first.)

The important crux of your decision here is habit. When you code in a language that uses pointers, you're going to use pointers a lot. And pointers are dangerous; they're the easiest way to add all manner of severe problems to your code.

When you're coding, sometimes you're going to be on the ball and sometimes you're going to be tired or mad or worried. During those somewhat distracted times, you're coding more on autopilot. The autopilot effect doesn't differentiate between one-off code and a module in a larger project. During those times, the habits you establish are what will end up in your code base.

So no, never allow memory leaks for the same reason that you should still check your blind spots when changing lanes even if you're the only car on the road at the moment. During times when your active brain is distracted, good habits are all that can save you from disastrous missteps.

Beyond the "habit" issue, pointers are complex and often require a lot of brain power to track mentally. It's best to not "muddy the water" when it comes to your usage of pointers, especially when you're new to programming.

There's a more social aspect too. By proper use of malloc() and free(), anyone who looks at your code will be at ease; you're managing your resources. If you don't, however, they'll immediately suspect a problem.

Maybe you've worked out that the memory leak doesn't hurt anything in this context, but every maintainer of your code will have to work that out in his head too when he reads that piece of code. By using free() you remove the need to even consider the issue.

Finally, programming is writing a mental model of a process to an unambiguous language so that a person and a computer can perfectly understand said process. A vital part of good programming practice is never introducing unnecessary ambiguity.

Smart programming is flexible and generic. Bad programming is ambiguous.

share|improve this answer

Let's get our definitions correct, first. A memory leak is when memory is dynamically allocated, eg with malloc(), and all references to the memory are lost without the corresponding free. An easy way to make one is like this:

#define BLK ((size_t)1024)
    void * vp = malloc(BLK);

Note that every time around the while(1) loop, 1024 (+overhead) bytes are allocated, and the new address assigned to vp; there's no remaining pointer to the previous malloc'ed blocks. This program is guaranteed to run until the heap runs out, and there's no way to recover any of the malloc'ed memory. Memory is "leaking" out of the heap, never to be seen again.

What you're describing, though, sound like

int main(){
    void * vp = malloc(LOTS);
    // Go do something useful
    return 0;

You allocate the memory, work with it until the program terminates. This is not a memory leak; it doesn't impair the program, and all the memory will be scavenged up automagically when the program terminates.

Generally, you should avoid memory leaks. First, because like altitude above you and fuel back at the hangar, memory that has leaked and can't be recovered is useless; second, it's a lot easier to code correctly, not leaking memory, at the start than it is to find a memory leak later.

share|improve this answer
Well, the point is that memory that is malloc'ed and held until the program calls _exit() isn't "leaked". – Charlie Martin Dec 30 '09 at 1:55
It is a memory leak and it can impair your program. Future allocations can fail from this proces because I am sure you are checking that malloc returned non nil everywhere. by over using memory, such as in an embedded situation where memor is scarce this could be the difference between life and death. – MikeJ Mar 7 '10 at 19:26
Mike, that's just not true. In a compliant C environment, ending main frees all process resources. In an embedded environment like you describe, you might see that situation, but you wouldn't have a main. Now, I'll grant that there might be flawed embedded environments for which this wouldn't be true, but then I've seen flawed environments that couldn't cope with += correctly too. – Charlie Martin Mar 11 '10 at 22:03
+1 for automagically – Justin McDonald May 31 '13 at 13:26
Yes, you have now discovered that if you malloc too much memory it's a Bad Thing. It's still not a leak. It's not a leak until and unless it's mallocd memory to which the reference is lost. – Charlie Martin Jun 1 '15 at 19:44

Generally a memory leak in a stand alone application is not fatal, as it gets cleaned up when the program exits.

What do you do for Server programs that are designed so they don't exit?

If you are the kind of programmer that does not design and implement code where the resources are allocated and released correctly, then I don't want anything to do with you or your code. If you don't care to clean up your leaked memory, what about your locks? Do you leave them hanging out there too? Do you leave little turds of temporary files laying around in various directories?

Leak that memory and let the program clean it up? No. Absolutely not. It's a bad habit, that leads to bugs, bugs, and more bugs.

Clean up after yourself. Yo momma don't work here no more.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.