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Suppose I have a std::vector of structs. What happens to the memory if the vector is clear()'d?

std::vector<myStruct> vecs;

Will the memory be freed, or still attached to the vecs variable as a reusable buffer?

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Try calling capacity(). – Mark Garcia Dec 19 '12 at 3:03
Thanks everyone. I want the memory to be freed - guaranteed. So I allocate the vector using new std:vector<myStruct>, then call delete when I'm done. Thus memory guaranteed to be freed. – Andrew S. Dec 19 '12 at 3:20
@AndrewS.: the only effect of the dynamic allocation is to introduce an ineffiency. see jerry's answer for a reasonable way to empty a vector. in a loop body another good way is to just make the vector local to the loop body, i.e. declare it inside the loop body. – Cheers and hth. - Alf Dec 19 '12 at 4:16
Just for interest, why does the memory need to be guaranteed free? – deworde Dec 19 '12 at 9:08
Because this is ios operation and I am trying to be economical with memory on the more limited platform. – Andrew S. Dec 19 '12 at 18:57

4 Answers 4

up vote 33 down vote accepted

The memory remains attached to the vector. If you want to free it, the usual is to swap with an empty vector. C++11 also adds a shrink_to_fit member function that's intended to provide roughly the same capability more directly, but it's non-binding (in other words, it's likely to release extra memory, but still not truly required to do so).

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or use the new std::vector::shrink_to_fit function. – Karthik T Dec 19 '12 at 3:05
@KarthikT: As noted in the answer (was editing as you commented) that's now available, but not truly required to release extra memory. – Jerry Coffin Dec 19 '12 at 3:06
Yeah, even I only just noticed the "non-binding" – Karthik T Dec 19 '12 at 3:23

The vector's memory is not guaranteed to be cleared. You cannot safely access the elements after a clear. To make sure the memory is deallocated Scott Meyers advised to do this:

vector<myStruct>().swap( vecs ); has the following to say on this:

Removes all elements from the vector, calling their respective destructors, leaving the container with a size of 0.

The vector capacity does not change, and no reallocations happen due to calling this function. A typical alternative that forces a reallocation is to use swap:...

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The destructor is called on the objects, but the memory remains allocated.

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No, memory are not freed.

In C++11, you can use the shrink_to_fit method for force the vector to free memory.

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You can use it, but the standard specifies that it does not force extra memory to be released (§ "shrink_to_fit is a non-binding request to reduce capacity() to size()." – Jerry Coffin Dec 19 '12 at 3:08

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