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what are the reasons for memory leakage in C C++ (except the usual allocating memory and forget to deallocate it)

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Too many beers the previous evening? – kuroi neko Jan 1 '14 at 11:55
up vote 14 down vote accepted

If an exception is raised between allocation and deallocation, memory leak will occur.

void f1() {
    int* ptr = new int;

    // do something which may throw an exception

    // we never get here if an exception is thrown
    delete ptr;

Each time f1 terminates with an exception, 4 bytes are leaked (assuming int is 4 byte).

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great point thanks watson – ashmish2 Dec 15 '10 at 8:36
3 of the reasons that smart pointers are "smarter" than raw pointers like int * (which have no destructor):… – HostileFork Dec 15 '10 at 8:58

A memory leak is caused when you allocated memory, haven't yet deallocated it, and you will never be able to deallocate it because you can't access it anymore.

For example, the following code causes a memory leak of size sizeof(int):

int * a = malloc(sizeof(int)); //allocate memory
a = 0; //this will cause a memory leak

This creates a memory leak, because now we will never be able to deallocate the memory allocated for a.

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You can also leak memory when you don't deallocate some other resource like not calling fclose on a FILE* or some other library handle because they can allocate buffers of memory that aren't directly accessible to your program.

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Let's say you have created a class that inherits some other class that doesn't have a virtual destructor. If the type of the pointer to this class isn't the most derived class (this usually happens if you use an abstract factory) then only the destructor from the pointer's type will be called and anything you had been hoping do free in the most derived class destructor will leak.

This is a very common error and one that some times is hard to see.

Anyway, if you want to avoid memory leaks with C++ follow this rules:

  • Prefer passing references rather than pointers
  • Use smart pointer whenever possible (see: shared_ptr)
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of course, the standard says it's undefined behavior if the destructor of the base class is not virtual, so you're tampering with evil and a memory leak is the least of your worry here. As for shared_ptr, it's sometimes useful, but there are much better smart pointers / containers out there for daily use. It certainly should be the last choice. – Matthieu M. Dec 15 '10 at 9:32

A new without a delete, a new[] without a delete[], a malloc without a free.

Seriously, what else do you want to hear?

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There is no other reason for memory leakage besides the one you mention

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A counterexample to this is watson1180's answer. – Cam Dec 15 '10 at 7:10
@Cam: I don't think so, in watson1180's example, he forgot to call delete (even though it's written down in the code). – Matthieu M. Dec 15 '10 at 8:37
@Matthieu: Hmm... indeed. Sadly I'm currently unable to un-downvote beb0's answer. – Cam Dec 15 '10 at 8:39
@Cam: I've added a capital letter to "There" that should allow you to change your vote :) – Matthieu M. Dec 15 '10 at 8:54
On the other hand there are some very poorly constructed and poorly documented APIs that you don't know when it is your responsibility to free some resources (hence it's always preferable to return a smart pointer than a raw pointer from a function) – Raphael Dec 15 '10 at 10:09

I'm surprised nobody mentioned memory corruption yet.

I remember a case when we had a crude fixed-size blocks memory allocator implemented as a linked list.

Some guy had messed up size computations, leading to copy data just a couple of bytes beyond the max block size (pointers were only 2 bytes long at the time :)). It would then overwrite the "next" link located at the begining of the next free block with garbage that happened to be filled with zeroes.

This had the consequence of severing the free blocks chain. Since at that point the other pieces of software maintained their own pointers to whatever blocks they were using, the progam seemed to run just fine.

But of course the list went short of a few blocks once in a while, and this leakage eventually exhausted the free blocks, starving the application to death.

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The following example, written in pseudocode, is intended to show how a memory leak can come about, and its effects, without needing any programming knowledge. The program in this case is part of some very simple software designed to control an elevator. This part of the program is run whenever anyone inside the elevator presses the button for a floor.

When a button is pressed:

  Get some memory, which will be used to remember the floor number
  Put the floor number into the memory
  Are we already on the target floor?
    If so, we have nothing to do: finished
      Wait until the lift is idle
      Go to the required floor
      Release the memory we used to remember the floor number

The memory leak would occur if the floor number requested is the same floor that the lift is on; the condition for releasing the memory would be skipped. Each time this case occurs, more memory is leaked.

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