I am trying to create a class method that will return a std::vector, and am a bit confused about the best way to do this.

The approach I've used is to define the following method:

std::vector<double>* GetBins(void);

and in the method, allocate a new std::vector, which I fill with data. I'm returning a pointer to this ie.

std::vector<double>* Frequency::GetBins(void) {
    std::vector<double> *rtnVec = new std::vector<double>();
    for (_itMap = _mapFreq.begin(); _itMap != _mapFreq.end(); _itMap++ ) {
    return rtnVec;

(_itMap is a class-defined iterator).

In my main.cpp, I've done the following:

 std::vector<double>* myBins;
 myBins = myFreq3->GetBins();
 delete myBins;

I know with this approach, I'm going to get a dangling pointer unless I delete the pointer in the main.cpp code, so it's already a bit 'dangerous'. What's the best way to return a new std::vector from a class method?

Thanks guys Pete

  • Why do you need to return anything? Create a BinsProcessor interface and ask the Frequency to process the bins with your CustomBinsProcessor. – Peter Wood Apr 19 '13 at 14:30

The best way is to return by value:

std::vector<double> Frequency::GetBins() {
    std::vector<double> rtnVec;
    rtnVec.reserve(_mapFreq.size()); // reserve enough size, no reallocations
    for (_itMap = _mapFreq.begin(); _itMap != _mapFreq.end(); ++_itMap ) {
    return rtnVec;

Then you'd use the function like this:

std::vector<double> myBins = myFreq3->GetBins();
// no need for delete!

The compiler will probably use RVO and perform no copies. If you're using C++11, then move semantics will ensure that no copies are performed.

  • 1
    Or for (auto&& elem: _mapFreq) { rtnVec.push_back(elem.first); } – MSalters Apr 19 '13 at 13:56
  • 1
    @MSalters yes, that's a better way to iterate the map. However, OP is asking specifically about return semantics, and using a range-based for loop makes no difference here. – mfontanini Apr 19 '13 at 14:02
  • Fair point. Thinking about it, I'd also add a rtnVec.reserve(_mapFreq.size()). Again, doesn't affect the return type directly, but it does eliminate some of the copying you'd incur while filling rtnVec. – MSalters Apr 19 '13 at 14:11
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    @Pete855217 note that returning a const reference in that example will trigger undefined behaviour if you try to access the vector from outside the function. Just return by value as shown in the answer. – mfontanini Apr 19 '13 at 14:21
  • 1
    @Pete855217 using a postfix increment(X++) is perfectly valid as well. However, using a prefix increment(++X) avoids making an extra copy of the iterator. – mfontanini Apr 19 '13 at 14:46

Return by value

std::vector<double> Frequency::GetBins(void) {
    std::vector<double> rtnVec;

    // ...

    return rtnVec;

However if you want return by pointer, you can use smart pointers:

std::unique_ptr<std::vector<double>> Frequency::GetBins(void) {
    std::unique_ptr<std::vector<double>> rtnVec(new std::vector<double>());


    return rtnVec;
  • Unless move semantics are used, returning by value will cause a deep copy, which is far from optimal. – dtech Apr 19 '13 at 14:11
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    @ddriver In both the OP's design, and in this post, both RVO will occur implicitly, and copy elision should occur at the calling site. In C++11, close variants of their code will either continue to RVO, or will implicitly move. – Yakk - Adam Nevraumont Apr 19 '13 at 14:14

If you want to avoid copies/ dangling pointers/..., another way is simply to pass your std::vector by reference to the method:

void Frequency::GetBins( std::vector<double>& bins ) {
    for (_itMap = _mapFreq.begin(); _itMap != _mapFreq.end(); _itMap++ ) {

You just need then to define it before:

 std::vector<double> myBins;

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