I may be misinformed, but to my knowledge the OS cleans up memory after a program quits or crashes.

If so, how useful is it to deallocate memory at the end of a program? I understand that if a program is running and deallocating is neglected that memory could become "full", but if a program is already going to end and the OS deallocates all memory used by the program, what is the point of deallocating that memory manually?

  • What if all allowed memory is used (when you don't deallocate), but now you need more memory? So you deallocate current unused memory and use that.
    – user2734982
    Jun 15, 2014 at 10:50
  • Late reply, but this question is specifially for the need to deallocate at the end of the program, so there wouldn't be a need for any significant amount of new memory to allocate.
    – Rik Schaaf
    Dec 23, 2020 at 19:44

6 Answers 6


Quoting from Memory Deallocation Issues in C:

The operating system is responsible for maintaining the resources of an application, including its memory. When an application terminates, it is the operating system’s responsibility to reallocate this memory for other applications. The state of the terminated application’s memory, corrupted or uncorrupted, is not an issue. In fact, one of the reasons an application may terminate is because its memory is corrupted. With an abnormal program termination, cleanup may not be possible.

With this said, there may be other reasons why memory should be freed when a program terminates normally:

  • The conscientious programmer may want to free memory as a quality issue. It is always a good habit to free memory after it is no longer needed, even if the application is terminating.
  • If you use a tool to detect memory leaks or similar problems, then deallocating memory will clean up the output of such tools.
  • In some less complex operating systems, the operating system may not reclaim memory automatically, and it may be the program’s responsibility to reclaim memory before terminating.
  • Also, a later version of the application could add code toward the end of the program. If the previous memory has not been freed, problems could arise.
  • 2
    Though you answer is very clear, you left out the negative effect of freeing memory on program termination. A quote from the same webpage: On the other side of the coin, ensuring that all memory is free before program termination: - May be more trouble than it’s worth; - Can be time consuming and complicated for the deallocation of complex structures; - Can add to the application’s size; - Results in longer running time; - Introduces the opportunity for more programming errors. Whether memory should be deallocated prior to program termination is application-specific.
    – Rik Schaaf
    Jun 15, 2014 at 11:12
  • Not all OS/s will free the memory after an application terminates. I've worked on some real time systems that do not. Jun 15, 2014 at 13:50


You could, of course, not bother going through your cleanup and let the system handle it. However, if you do this it is essentially impossible for you to trace memory leaks in your program since you can't run it and see whether anything is left allocated at the end. If, on the other hand, you ensure a clean shutdown you can know whether there are any leaks by running it and seeing whether anything is left allocated at the end. Since for any non-trivial program likely to be running for some time memory leaks are something to avoid, doing it in this clean fashion leads to benefits.

Additionally, it's also just part of ensuring your program shuts down cleanly with any persistent state left in the right condition and any external resources freed (although most modern OSs will clean that up these days) because you're going through an orderly shutdown rather than just cutting and running.

  • In complex, multithreaded apps, cleanliness is next to ungodliness. Those who try, without any overriding reason, to 'cleanly' shut down such apps have to design, write and test extra, unnecessary shutdown code that can be very awkward and error-prone. User code cannot reliably terminate threads that are running on another core than the one requesting the process termination before deallocating memory. Only the OS has the interprocessor comms to do such a task. If possible, it should be left to get on with the job. Writing user code to shut down such apps is premature stoptimization. Jun 15, 2014 at 19:20

Different perspective:

At the end of your program, there's generally no specific practical reason to clean up memory. But that's not how you usually design non-trivial programs that don't fit on a single page! The parts of a program normally need to be designed to work well no matter when they run in the course of program execution, and usually without knowledge of the rest of the program. They can't permanently allocate and hog memory because in general, they don't know how often they'll be called, or how much code will follow them, or for how long. Many end-user applications are designed to run a potentially-infinite "main loop", after all.

So a program that cleans up completely after itself isn't a goal, it's one of the lesser consequences (a reward for the obsessive!) of designing your whole program properly from the ground up. It may also serve as a warning flag that some stage of the design process didn't go to plan if there are resources left over at the end.

  • Ah yes, I hadn't thought of that, since I use garbage collected languages for complex or long running programs. I use c mainly for processing IO, like calculating or modeling something. In those cases the program ends after a certain amount of time that is independent of user input apart from command line parameters and input files. Except for one time, I never got even close to the memory limit of a modern computer and those programs terminate within seconds to at most a few minutes.
    – Rik Schaaf
    May 23, 2016 at 0:38

You cannot always depend on system, although most modern ones do it. AFAIK Windows 95 didn't do it, so maybe some wild, embedded systems out there also do not clean up after processes.

Other than that, it's a good habit. Sometimes you will refactor things from main into some modules and try to reuse them. It's good not to forget to deallocate things then.

  • I don't think it's reasonable to be programming for Win 95 today. All modern operating systems reclaim the virtual memory assigned to a process after that process exits. Jun 15, 2014 at 10:51
  • 2
    Oh, you would be surprised what ATMs work on. Also it was just an example. "All modern operating systems" - will you give me money if I will find one, that doesn't? Don't take things for granted with such strong quantificators, it's dangerous and more unreasonable than programming for win95.
    – luk32
    Jun 15, 2014 at 10:56
  • well, given that we're talking "C" which is used in all sorts of embedded and backwards devices, I suppose you have a point. Although "modern" is a rather subjective label, and I would argue that what I said was indeed true. It's pretty unreasonable that ATMs (which need to be secure) are running on such obsolete technology; I would say it is pretty reasonable to upgrade rather than maintain code like that. Jun 15, 2014 at 11:03
  • Microsoft will earn tons of money for custom support for WinXP because vast majority of ATMs run on it. It is a buissness decision, and while I do agree that maybe Win95 is taking things to extreme, WinXP nowadays does not sound much better, and it is a serious issue, not just all/all-but-one nitpicking.
    – luk32
    Jun 15, 2014 at 11:21

Yep. That's right. If there's some object that will live for the entire duration of the application, it's reasonable to allocate it once on startup and never free/delete the object. However, if you allocate something as part of a computation where there is no need to retain the object for the entire lifetime of the program, then it is important to free the object when it is no longer needed; otherwise, your program will slowly run out of available memory as objects are leaked over the program's lifetime.

It should be noted that even if you do free your memory, there is always a possibility that your program will be forcibly terminated (e.g. by a signal) before you have a chance to free the memory. So, that is one reason to not be super paranoid about it. That being said, for consistency and maintaining good habits both for regular allocations/deallocations as well allocations/deallocations of long-lived objects, I generally prefer to free/cleanup long lived objects much like regular objects. That being said, you should balance the desire to be clean with quick shutdown and the ability to produce proper core dumps / logs in the event of a forced shutdown. For example, taking the time to free large long-lived data structures may come at the expense of having time to write a core dump, in which case it is probably better to write the core.


In general, if you do not deallocate your memory when it is no longer needed, you can exhaust the system's memory resources. This is what's known as a memory leak.

This is most evident in programs that run for a long period of time... as they run and allocate more and more memory (e.g., call malloc), more and more memory resources are consumed by the program. If they are not returned to the system, then the operating system can start to run out of memory to give to its applications when 'malloc' is called.

Certain operating systems and programming languages have features that can either mitigate or prevent this from happening.

Java, for example, doesn't allow you to directly call malloc and free. Instead, as you create objects, memory is allocated for them by the java runtime. When you are done with variables (i.e., when they go "out of scope"), they are marked for "garbage collection". Normally, a "garbage collection" task or function will run periodically and will call free on all of the memory associated with variables that are no longer used (i.e., "cleans up the garbage").

Some operating systems also support run-time limits on processes and/or threads that prevent them from consuming "all" of the system resources. If any of these limits are hit, the operating system can halt the execution of the program.

Hope that helps, - J.

  • Ok, but say: you have an application that does a difficult calculation. It runs for around a minute, uses a finite amount of memory and deallocates temporarily allocated variables, but leaves long-lived data to be deallocated by the OS. Is there anything against doing this on a modern Windows/Linux OS apart from code reuse problems?
    – Rik Schaaf
    Jun 15, 2014 at 11:23
  • No, there's nothing from preventing you from taking this approach. It's considered bad practice, but it will work. Modern O/Ses (Linux, Windows NT and later derivatives) are all smart enough to recover all your processes' resources after the process exits.
    – jrjbertram
    Jun 15, 2014 at 11:58
  • if you talk about time efficiency, which would be the best approach? And is there a difference between linux and windows in this?
    – Rik Schaaf
    Jun 15, 2014 at 12:37

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