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I am new to c++ and I just learned about dynamic memory and memory leaks.

From what I understand, when creating a pointer(int *ptr = new int), and then changing the address that he is pointing, the old address still exist/allocated. (please correct me if I am wronge).

so I thought about this:

int *ptr;
ptr = new int;

first ptr is fill with random(or not?) address, then I change it, so the old one stays? if I try this code:

int *ptr;
cout << ptr << endl ;
ptr = new int;
cout << ptr << endl ;

I get:


Does it mean that 0x401a4e is part of a memory leak? Or is it released when ptr moves to dynamic memory? How does it work?

share|improve this question
watchout its dangling – huseyin tugrul buyukisik Aug 8 '12 at 19:51
It should be pointed out that once you have learned the basics of memory management (see Konrad Rudolph below for a succinct description) then you should stop using it in preference of automated memory management via smart pointers/containers. In real code it is very rare for you to manage RAW pointers manually. – Loki Astari Aug 8 '12 at 21:02
up vote 9 down vote accepted

The first line (int *ptr;) does not allocate any dynamic memory so there is no memory leak. The value you see is uninitialized. It is not a valid pointer. You should not delete the pointer before assigning a value to it. Doing so would be undefined behaviour.

share|improve this answer
Though if you now do another ptr = new int, without deleting the old pointer, then you will leak memory. – SinisterMJ Aug 8 '12 at 19:51

You need to understand that memory leaks are not about pointers (really: never – even though a lot of people will claim something different). The whole business with pointers is just misleading.

They are about a mismatch in dynamic memory allocations and deallocations.

Every allocation via new must be matched with exactly one deallocation via delete. Same for malloc and free and new[] and delete[] (and other conceivable dynamic resource allocation functions).

int* x; // Not a memory leak: no dynamic allocation
new int; // Memory leak: we acquired a value via `new` and lost it.

int* y = new int;
int* z = y;
delete y; // Not a memory leak any more: we freed the memory.

delete z; // Oooh, bad: we deleted a value twice. The horror.

Modern C++ code uses very few (in most cases: no) manual dynamic memory allocations. That way, you cannot have leaks. In principle. This is very good, so do it. Instead of manual dynamic memory allocations, you can make use of standard containers and smart pointers which handle the memory management for you.

share|improve this answer
I always wondered why delete doesn't automatically set the pointer to NULL. At least it'd help people with spaghetti code. – Alex Belanger Aug 8 '12 at 20:04
I would argue that modern c++ code still uses manual dynamic memory allocations (sometimes even a lot of them), but avoids the potential for leaks by immediately stuffing the allocated memory into some sort of smart pointer. – Grizzly Aug 8 '12 at 20:04
@AlexBelanger: What? Smart pointer don't have anything to do with the compiler. There is nothing bugged with allocating memory and giving the resulting pointer to an object which will automatically deallocate it when its destroyed (although there are potentially buggy situations if one isn't careful about potential instruction reordering) – Grizzly Aug 8 '12 at 20:08
@Alex I don’t understand the joke then: setting the pointer to 0 would not prevent calling delete twice on the same target – only on the same pointer. – Konrad Rudolph Aug 8 '12 at 20:12
@Grizzly The whole point of a lot of the innovations of C++03 and C++11 (both in the compiler and the libraries) was to reduce the need for manual dynamic memory allocations. If you find yourself using a lot of those, you’re probably doing something wrong. Pervasive use of runtime polymorphic class hierarchies is one such error: they are way overused. C++ offers many features which make such hierarchies redundant in many cases. – Konrad Rudolph Aug 8 '12 at 20:20

In C/C++, memory is not automatically released. So, yes, if you do this:

 YourType* ptr = new YourType();
 ptr = new YourType();

you will have a memory leak.

But in your case, you don't have a memory leak because the first value is not a valid memory location. It is an uninitialized pointer.

share|improve this answer

No, it's not a memory leak. The difference is that when you say "new int", you're telling C++ to reserve a block of memory to hold an int; if you then lose the pointer to that reserved block, then it can't be recovered, and can't be freed, and therefore it's a leak because it can never be reused.

Just holding some bits in a pointer variable doesn't perform any magic; they're just bits. It's allocating the memory using new that can get you into trouble. Once you've reserved a block, you have to make sure not to lose it.

share|improve this answer
Take your time to read OP's question. – Alex Belanger Aug 8 '12 at 19:52
@AlexBelanger -- I did. What is it that you think I missed? – Ernest Friedman-Hill Aug 8 '12 at 19:53
I think he is asking why the two outputs printed arn't the same and afraid he just created a memory leak. What I see wrong is that the first pointer isn't initialized so it points to a random memory address... thus the outputs are different, but there's no leak with his code (yet). – Alex Belanger Aug 8 '12 at 19:56
Yes, that exactly what my answer says, just like all the other answers on this page say. – Ernest Friedman-Hill Aug 8 '12 at 19:58
Well in my opinion it's a way too in-depth answer. Even if it's correct and theses advices are good to keep in mind when playing with pointers, you don't explain to him why he obtained that "weird" result in the first place. – Alex Belanger Aug 8 '12 at 20:00

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