In my homework my task is to create the FooCl class for these:

    double d[] = {1.3, 0.7, 2.4, 1.5, 6.2, 5.7, 8.6, 9.1};
    FooCl<double> itemsD(d, sizeof(d) / sizeof(d[0]));

    std::string s[] = {"C++", "Haskell", "Python", "Java"};
    FooCl<std::string> itemsS(s, sizeof(s) / sizeof(s[0]));


I made a constructor/destructor for it, but I don't know how to create two different functions with templates for the two different types of lists. I think I would need to use some kind of overloading but don't know how.

template <typename T>
class FooCl
    T *mItems;
    int mItemsSize;

    FooCl(T items[], int itemsSize)
        mItems = new T[itemsSize];
        for (int i=0; i<itemsSize; ++i)
            this->mItems[i] = items[i];
        this->mItemsSize = itemsSize;

        delete[] mItems;

    void mySort()
        //I have no idea how to write this function, so it can sort two different types of lists.
  • Why not use std::sort?
    – tkausl
    May 19 at 7:58
  • At least take a look at std::sort, you will find std::less, for example. May 19 at 8:03
  • 1
    You don't need to write special code for specific types - the element type is T, the template parameter. I suspect that you have kind of missed the point of templates.
    – molbdnilo
    May 19 at 8:40

3 Answers 3


One way is to use std::sort as shown below:

void mySort()
//--vvvvvvvvv------------------------------------>use std::sort
    std::sort(mItems, mItems + mItemsSize);

You can even write your sort functionality/implementation which will include the use of mItems and mItemsSize.

  • 2
    I doubt the homework is to just call std::sort. The instructor probably wants them to write their own sort algorithm.
    – Caleth
    May 19 at 8:13
  • @Caleth I have added a note saying that it is also possible to write your own sort using mItems and mItemsSize if it is really the requirement.
    – Anoop Rana
    May 19 at 8:15

If you want to sort any container like std::array or std::vector

template <typename Container, typename Func>
void sort(Container& c, Func functor)
    std::sort(std::begin(c), std::end(c), functor);


std::vector<int> vct {1,2,3,1,2};
sort(vct, [](const int lhs, const int rhs) {return lhs > rhs;});

The two operations important for sorting is comparison and swapping.

Both double and std::string already have definitions for <, which is the idiomatic comparison operator.

There is already a template std::swap, which is the idiomatic swap function.

You need to write a sort that uses mItems and mItemsSize, comparing items (with <) and swapping those that are in the wrong position (with std::swap).

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