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I have following piece of code:

customObject* object;
std::list<customObject> objects;
for(int i = 0; i < 10: ++i) {
   object = new customObject;

Will the memory be freed on successful exit?

Sorry, guys. Made some mistakes)) fixed

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Maybe you mean objects.push_back(*object);? –  Mihran Hovsepyan May 13 '11 at 12:23
There are syntax errors, some of them relevant in answering your question. –  AProgrammer May 13 '11 at 12:24
Is customObject* instead of CustomObject* a typo? –  ascanio May 13 '11 at 12:29
-1 @qutron I don't think you even try to compile it. –  Mihran Hovsepyan May 13 '11 at 12:47

9 Answers 9

up vote 2 down vote accepted

Once you fix the syntax errors and actually compile and run your code (assuming you keep in the new), you will leak ten customObjects.

You must iterate over the list and delete each instance that you have new'd.

Consider whether your list needs to contain pointers... If it does, then consider using a smart pointer (but not a std::auto_ptr).

It is probably better just to store the objects themselves (which std::list<customObject> objects does).

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Since you've declared the std::list as:

std::list<customObject> objects; //not storing the pointers!

Then you don't need to create customObject using new. You should do this:

std::list<customObject> objects;
for(int i = 0; i < 10; ++i) {
   customObject object;
   objects.push_back(object); //store the object, not pointer!

In C++0x, this can be done very concisely with lamda expression, as:

std::list<customObject> objects(10);
int i=0;
std::for_each(objects.begin(),objects.end(),[&](customObject &obj){ 
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@Mihran: replaced : with ;. Is this the reason for the downvote? –  Nawaz May 13 '11 at 12:33
@Mihran: I didn't find that interesting, as the error was irrelevant in answering the question. Though correcting it was not a bad idea, but it wasn't deserving downvote. –  Nawaz May 13 '11 at 12:38
@Mihran: I cannot edit my post just to get your upvote. –  Nawaz May 13 '11 at 12:38
@Mihran: Whatever. –  Nawaz May 13 '11 at 12:44

First of all your code will not compile (using operator . on a pointer, pushing list into itself). Second standard containers will free space they allocate, but not space you allocated with new, malloc, etc.

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First, you have a mismatch between the type of the std::list and the objects you are attempting to store in it. std::list<customObject> objects; This creates a list of customObjects not customObject pointers. std::list<customObject*> objects; This creates a list of customObject pointers.

As to whether the memory will be freed once the list goes out of scope; Note that the list will call the destructor of each element. If you consider that pointers (regardless of type) are really just integer representations of memory addresses, and not objects with destructors; it should be clear that the list has no destructor to call. Another way to think about it is that all stl containers use value semantics and never dereference pointers.

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No, the memory will not be "freed". STL practices value semantics, and the container thinks it only "owns" the "value" of the pointer, not the object referenced.

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The answer is No... Also I'm not sure your code will work, since you are trying to store a pointer in a non-pointer list.

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STL containers do not release memory allocated to pointer because they do not know if they have the sole ownership and hence the responsibility to deallocate the memory.

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Never mind the syntactical errors you have: that of accessing members through a pointer and pushing the pointee onto a std::list. As for your question:

That depends. For all practical reasons yes: any modern operating system would take the memory it allocated for your process back when your process ends.

That said, as the process runs it is the process' responsibility to free memory it no longer needs. In your code above you introduce a leak in each iteration of the loop, because you never release the memory you allocated in the preceding iteration. This can translate to a system-wide slowdown, and at some point the OS can kill your process for being rude.

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The memory will be freed by OS but only after the program has exited.

If you want to free the memory while your program is running you need to call delete on every pointer stored. Or use Boost Pointer Container Library to free the pointers automatically. Another solution is to use std::vector< std::shared_pointer<Item> >.

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I'm not sure this is what is being asked -- since all allocs are free'ed once the program exits. –  Martin Kristiansen May 13 '11 at 12:25
@Martin Kristiansen: The OP has asked 'Will the memory be freed on successful exit?'. I interpreted it as program exit. –  Juraj Blaho May 13 '11 at 12:28

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