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I learned C# and now I'm learning C++. The whole point of releasing a memory is new for me, and I want to know when I need to worry about memory releasing and when I don't.

From what I understand, the only case I have to worry about the release of memory, is when I used new operator, so I should to release the memory by using delete.
But in these cases there is no need to release the memory:

  • Class variables (Members), or static variables.
  • Local variables in function.
  • STL family (string, list, vector, etc.).

Is this true?
And are there other cases where I have to worry about memory releasing?

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A related, but tangential topic, is RAII. –  Alex Chamberlain Jan 31 '13 at 13:10
Of utmost importance are the concepts of ownership and object lifetimes (on top of RAII). Especially with the availability of pointers (plain and smart) and references, your code should make it crystal-clear what objects owns what data. This is especially important if you ever use threads with your program. Also, use valgrind judiciously in your testing to verify memory cleanliness. –  kfmfe04 Jan 31 '13 at 13:22

2 Answers 2

up vote 6 down vote accepted

You basically got it right: You need to balance new with delete, new[] with delete[], and malloc with free.

Well-written C++ will contain almost none of those, since you leave the responsibiltiy for dynamic memo­ry and lifetime management to suitable container or manager classes, most notably std::vector and std::unique_ptr.

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Note how there are crazy cases where due to a typedef you use new but have to use delete[] –  PlasmaHH Jan 31 '13 at 13:04
@PlasmaHH: Hm, well, more accurately, the craziness comes from the fact that the "[]" in new[] isn't lexically near the word "new", and sometimes it can be on a completely different line :-) –  Kerrek SB Jan 31 '13 at 13:53

As a general rule of thumb I tend to abide by the following:

  • If I code a new/new[] i immediately code the corresponding delete/delete[]
  • Likewise any malloc/calloc is immediately followed by the relevant free

This avoids many nasty situations where you can generate a memory leak. If you are new to C++ I would not get used to malloc and its many variants, it requires a lot of scaffolding to remain type-safe, which unless truly necessary can be counted as a bad thing, however, as mentioned, there are times it is necessary: for example, when having to use C-based libraries/APIs then you may conceivably need to use them.

In the main stay well clear of them and your life will be much easier.

Note: I mention the points above, as having gone from C to C++ I have had to face up to a lot of old tried and tested techniques from C which cause problems in C++.

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In the face of early return, break or exceptions, you migth need a bit more thinking than just putting a delete|delete[]|free blindly after the new|new[]|malloc. Even if you use them, you can use std::shared_ptr or std::unique_ptr to manage the memory in a safe way. –  Michael Wild Jan 31 '13 at 13:25
I agree entirely, I did not mean to imply these were catch-all fixes:) I merely meant that when coding each new|new[]|malloc|calloc the relevant delete|delete[]|free type should be placed at the correct part of the code (not blindly:). In regards of early return and break I code with the principle of only having one single exit point from a function, so I rarely encounter that as a problem, however, yes you're right: in regards of early termination from a function you would need to plan for that and delete appropriately/ rethink the flow of the function & have a single return point. –  GMasucci Jan 31 '13 at 13:43
And if you really do manual cleanup, you should wrap the allocation inside a try-catch block, after all, a function you are calling might throw. Sadly C++ doesn't have a try-finally... –  Michael Wild Jan 31 '13 at 13:45
Cheers:) I ran out of characters in the last comment and was penning an addendum, you beat me to it:) –  GMasucci Jan 31 '13 at 13:47

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