I feel like developers talk about memory leaks but when you ask them what that means many have no idea. To prevent these situations, let's decide on one.

Please no Wikipedia definitions...

What is your best definition of a memory leak and what is the best way to prevent them?

  • I belive Brian Gianforcaro's answer is the best and most succinct.
    – Foredecker
    Commented Nov 23, 2008 at 3:37
  • Why don't you accept Wikipedia's definition? Commented Nov 23, 2008 at 6:03
  • @Joshua Swink: Because that would be a cop out of an answer. :)
    – Spoike
    Commented Nov 23, 2008 at 6:49
  • I guess what I'm trying to get at is: what do you hope to add to the concept here? This is one of those questions with a correct answer, and Wikipedia has it. So I don't see the point. (Not including the later addition of "and what is the best way to prevent them".) Commented Nov 23, 2008 at 23:11

11 Answers 11


There are two definitions (at least for me):

Naive definition: Failure to release unreachable memory, which can no longer be allocated again by any process during execution of the allocating process. This can mostly be cured by using GC (Garbage Collection) techniques or detected by automated tools.

Subtle definition: Failure to release reachable memory which is no longer needed for your program to function correctly. This is nearly impossible to detect with automated tools or by programmers who are not familiar with the code. While technically it is not a leak, it has the same implications as the naive one. This is not my own idea only. You can come across projects that are written in a garbage collected language but still mention fixing memory leaks in their changelogs.

  • 1
    It is possible to find memory leaks in the category "Subtle" quite easily with eclipse.org/mat.
    – kohlerm
    Commented Nov 28, 2008 at 15:56

Allocated memory that cannot be used because the reference to it has been lost.

  • 5
    I like it, but I don't think it's quite accurate. Even in gc systems, sometimes things are called "leaks" because although the memory is still reachable, it "shouldn't be", because it's no longer needed. Commented Nov 23, 2008 at 3:33
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    I think this is the best one - references to memory can be lost even in languages with Garbage collection.
    – Foredecker
    Commented Nov 23, 2008 at 3:37
  • 2
    You don't have to lose the reference to the memory to have a leak. If you don't need the memory any more but you fail to deallocate it, even if you keep a reference to it around, it is a memory leak in my book. Commented Nov 23, 2008 at 3:46
  • 3
    I think there is clearly a difference between memory not needed/used, and memory leaked.
    – mthurlin
    Commented Nov 23, 2008 at 3:49
  • 1
    Removing the "free()" call would of course create a leak. But you and some others claim "unused" memory is also a leak. According to that principle, my simple example is leaking memory since it did not free *p right after the last use of it. My point being that unused memory != leaked memory.
    – mthurlin
    Commented Nov 23, 2008 at 4:53

Definition: Failure to release memory after allocation.

  • That's only a leak if it's memory you don't need any more. Commented Nov 23, 2008 at 3:22
  • True, definitely an over sight by myself. I noticed you are also in Rochester, NY.. small world. Commented Nov 23, 2008 at 3:26
  • The link is not working. Can you update the link?
    – Sohail Si
    Commented Jun 16, 2016 at 11:48
  • As said before, the link in the answer is dead. Please replace it with a working one or at least edit your question and remove the link.
    – dtell
    Commented Feb 23, 2019 at 15:29

The process in which memory resource are allocated and not properly released once no longer required, often introduced through bad coding practices.

There are built in ways in some languages to help prevent them, although the best way to avoid them is through diligent observation of code execution paths and code reviews. Keeping methods short and singularly purposed helps to keep resource usage tightly scoped and less prone to get lost in the shuffle, as well.


There are two ways a memory leak may be defined.

First, if data is not freed when there are no longer has any references to it, that data is unreachable (unless you have some corrupt pointer or read past the data in a buffer or something). Basically, if you don't free/delete data allocated on the heap, it becomes unusable and simply wastes memory.

There may be cases where a pointer is lost but the data is still accessible. For example, if you store the pointer in an int, or store an offset to the pointer (using pointer arithmetic), you can still get the original pointer back.

In this first definition, data is handled by garbage collectors, which keep track of the number of references to the data.

Second, memory is essentially leaked if it is not freed/deleted when last used. It may be referenced, and immediately free-able, but the mistake has been made not to do so. There may be a valid reason (e.g. in the case where a destructor has some weird side effect), but that indicates bad program design (in my opinion).

This second type of memory leaking often happens when writing small programs which use file IO. You open the file, write your data, but don't close it once you're done. The FILE* may still be within scope, and easily closeable. Again, there may be some reason for doing this (such as locking write access by other programs), but to me that's a flag of bad design.

In this second definition, data is not handled by garbage collectors, unless the compiler/interpreter is smart (or dumb) enough to know it won't be used any longer, and this freeing the data won't cause any side effects.

  • Yes, I've hit multiple programs that don't close a file handle when they should. I've even had a several-message exchange with one who thought write/rename/close was acceptable programming since you get away with it on a Windows file system. Commented Nov 23, 2008 at 5:22


In computer science, a memory leak is a particular type of unintentional memory consumption by a computer program where the program fails to release memory when no longer needed. This condition is normally the result of a bug in a program that prevents it from freeing up memory that it no longer needs.

  • 2
    Wait a minute, Wikipedia cites stackoverflow in its definition.... I daresay that makes the definition a circular reference!
    – Jon
    Commented May 30, 2013 at 15:14
  • This is gonna cause a overflow..;) correct me if I'm wrong
    – Yadu
    Commented May 11, 2020 at 11:50

Memory that is not deallocated when it is no longer needed, and is no longer "reachable". For instance, in unmanaged code, if I use "new" to instantiate an object, but I don't use "delete" when I'm done with it (and my pointer has gone out of scope or something).

The best way to prevent them probably depends on who you ask and what language you are using. Garbage collection is a good solution for it, of course, but there may be some overhead associated with this, which isn't a big deal unless you performance is your primary concern. Garbage collection may not always be available, again, depending on the language you are using.

Alternatively, you can make sure you have the appropriate deletes and/or destructors in place. There's a lot of methods and tools to detect memory leaks as well, but this will depend on the language and/or IDE you are using.


Memory Leak: Failing to free memory that you no longer need before either:

  • The program terminates
  • Additional memory is allocated

Best way to prevent Memory Leaks: Free memory as soon as it is no longer needed.

  • Freeing memory before termination is a non-issue. It's memory lost while the program is still running that causes problems. Commented Nov 23, 2008 at 5:31
  • You, as the programmer of a program, can't free memory allocated by your program after said program terminates. It's simply beyond you control. So the first point is reundant. It doesn't matter if you alloc more memory after you've started a leak, either.
    – strager
    Commented Nov 23, 2008 at 5:37
  • On the first point, if you don't free them memory before the application terminates you stand to create a memory leak in the vast majority of computers in existence (hint: the world isn't a PC). Commented Nov 23, 2008 at 6:33
  • On the second note, if I allocate 1 MB of memory, free it, then allocate 1 MB of memory, my program is using 1 MB of memory. If I don't need the first MB and don't free it before I allocate the second MB my program is now using 2 MB of memory where is should be using 1, a leak of 1MB. Commented Nov 23, 2008 at 6:34
  • Also note that on many systems, including many "modern" OSes, a program cannot give memory back to the system until it terminates so if I have 2 MB allocated and give one back, it is still unusable by any other process on the system. Commented Nov 23, 2008 at 6:37

Here are some techniques for preventing / detecting memory leaks:

  1. Consider your algorithm in terms of memory consumption. Other respondents have mentioned the fact that you don't have to lose the pointer to an allocated item to leak memory. Even if your implementation contains zero pointer bugs, you can still effectively leak memory if you hold onto allocated items long after you actually need them.

  2. Profile your application. You can use memory debugger tools like Valgrind or Purify to find leaks.

  3. Black-box testing. Watch what happens to your compiled code after you feed it large data sets, or allow it to run for long periods of time. See if its memory footprint has a tendency to grow without limit.


All the definitions given here (at the time I wrote this, we have gotten better answers since) fail to address one borderline case:

You have a singleton that allocates memory upon creation and this memory is normally held as long as the program is running even though the current use is done and it's unknown whether any future use will ever be made or not. This is generally done because of the overhead of recreating it.

By the "fail to free when done with it" standard this would be considered a leak and I've seen leak-reporting tools call such things leaks as the memory was still in use. (And in fact the code may not contain code capable of cleaning the object up.)

However, I have encountered code of this nature in compiler libraries before even when the cost of recreating the object isn't all that great.

Leak or not?

  • Singletons are a memory leak by definition - this is just one of the reasons you should never use them Commented Nov 23, 2008 at 5:44
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    This is missing the unintentional aspect of the memory leak. And a singleton, could have a release method that frees the allocated memory.
    – philant
    Commented Nov 23, 2008 at 14:28
  • I would only define something as a "memory leak" if it causes a program which should be able to process an infinite sequence of inputs using a bounded amount of memory, to instead require an unbounded amount of memory. A singleton which requires a bounded amount of storage will not cause a memory leak.
    – supercat
    Commented Nov 19, 2012 at 21:17

edit: This answer is wrong. I'm leaving it up as an example of how easy it is to be mistaken about something you think you know very well. Thank you to everyone who pointed out my mistake.

A memory leak is: A programming error. Your software borrows some memory from the system, uses it, and then fails to return it to the system when it has finished. This means that that particular chunk of memory can never be used by any other programs until the system is rebooted. Many such leaks could use up all of the available memory, resulting in a completely useless system.

To prevent memory leaks, practice RIIA, and always test your software. There are plenty of tools available for this task.

  • I am unaware of any modern OS that doesn't return all of an app's memory to the system free list immediately upon termination. Commented Nov 23, 2008 at 5:32
  • I am with Just Some Guy. All of a program's memory is returned to the system when the process is killed. Remains of the data are there, maybe including cache data from opened files, but that's all handled by the OS anyway, not the program itself.
    – strager
    Commented Nov 23, 2008 at 5:34
  • You guys have obviously never worked on embedded devices. Commented Nov 23, 2008 at 6:00
  • How many of them are constantly loading and unloading apps? Commented Nov 23, 2008 at 6:12
  • How many of them never exit and thus whether or not the memory is freed when they do it moot? Commented Nov 23, 2008 at 6:25

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