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The following code demonstrates a trick that ensures complete deallocation of a vector:

#include <vector>

using namespace std;

template<typename T>
class tvector : public vector<T>
    typedef vector<T> base;
    void swap(tvector<T>& v) {
        // do some other stuff, but omitted here.
        base::swap(v); }

int main()
    tvector<int> tv1;
    // imagine filling tv1 with loads of stuff, use it for something...

    // now by swapping with a temporary declaration of an empty tvector that should
    // go out of scope at the end of the line, we get all memory used by tv1 returned
    // to the heap

Well, this works using Visual C++ (cl.exe), but using GNU g++ does not compile, with this error:

test.cpp: In function ‘int main()’:
test.cpp:18:28: error: no matching function for call to ‘tvector<int>::swap(tvector<int>)’
test.cpp:10:7: note: candidate is: void tvector<T>::swap(tvector<T>&) [with T = int]

Is this an error in g++, or is my code genuinely wrong C++ code?

My workaround for this deallocation trick using g++ is this:

int main()
    tvector<int> tv1;
        tvector<int> t;

Any opinions on this?

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My opinion is that since it is about to go out of scope you should do nothing at all and let the destructor clean it up. –  Dark Falcon Nov 3 '11 at 12:51
No. Don't inherit from standard containers. Don't take this risk. –  Alexandre C. Nov 3 '11 at 13:00
How is this any improvement over the traditional swap trick? Also note that C++11 makes this less of an issue, thanks to shrink_to_fit. –  Kerrek SB Nov 3 '11 at 13:03
@KerrekSB: shrink_to_fit has no guarantees. It is up to the implementation to decide whether the deallocation should take place. The real question is "How is std::vector<int>().swap(v); any improvement over v = std::vector<int>()". –  Alexandre C. Nov 3 '11 at 13:23

3 Answers 3

This is all well known. The standard textbook trick to deallocate the contents of a vector is:

std::vector<int> v;
// Do stuff with v

std::vector<int>().swap(v); // clears v

Note that the reverse doesn't work:

v.swap(std::vector<int>()); // compile time error

because you are trying to bind a temporary to a non const reference, which is forbidden.

Visual Studio allows this as a non standard extension, but pushing the warnings level up to /W3 (IIRC) triggers a "non standard extension used" warning.

In C++11 (and technically in C++03 too !), you can simply do

v = std::vector<int>();

or, if you are into verbosity (C++11 only), there is

v.clear(); // or v.resize(0);

but the standard doesn't guarantee anything about whether the request to shrink is to be fulfilled.

You can use this if you really need to, but please, do not inherit from standard containers. This is not a safe thing to do: you run the risk of calling the wrong destructor.

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+1: nice and complete answer –  rubenvb Nov 3 '11 at 13:15
@MagnusHoff: clear() doesn't change the capacity of the vector, only the size. No memory is deallocated. –  Fred Larson Nov 3 '11 at 13:19
Awesome. This explains it, I was just doing it the wrong way round. Thanks to Alexandre. –  user1027660 Nov 3 '11 at 14:09

You call the swap method with temporary, which is not stored anywhere. It can't be taken as a reference because from the compilers point of view it's not stored anywhere. tvector<int> versus tvector<int>&.

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That makes sense, thanks Joachim. It must be that Visual C++ is just more tolerant and stores this tempoary somewhere? –  user1027660 Nov 3 '11 at 13:03
One should note that while you can't take a non-const reference of a temporary, const references to temporaries are fine. But in this case a const reference won't work, because the argument has to be modified. However, you can take an Rvalue reference (introduced in C++11) of a temporary to implement move semantics. –  reima Nov 3 '11 at 13:03

You're looking for this idiom to free a vector's reserved memory:


Passing a temporary variable to swap isn't permitted, because swap takes a non-const reference (in other words, it needs a non-temporary variable that it can modify). (I'm surprised that Visual C++ accepts this code.)

If you use Clang instead of gcc, it tries to explain this for you:

test.cc:35:14: error: non-const lvalue reference to type 'tvector' cannot
      bind to a temporary of type 'tvector'
test.cc:22:27: note: passing argument to parameter 'v' here
    void swap(tvector& v) {

The correct version of the idiom works because it creates a variable that stays created for the entire statement and then passes a non-temporary parameter.

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