Say that I have some user-defined complex struct, like

struct usrStruct{
     double a;
     T1 b;
     T2 c;
     /* and so on...*/

which is used as a basic element for a std::vector, std::list or anything iterable..

Say that the std::vector<usrStruct> is passed to a function of mine through iterators

  template<class InputIterator>  
  T myFoo( InputIterator first, InputIterator last ){ /*...*/ }.

Q: Is there a standard way to override operator*() of the InputIterator, (in this case of std::vector<usrStruct>::iterator ) so that myFoo just interacts with the member a?

i.e., so that

  *first == (*first).a;

and thus myFoo works orthogonally with respect to the whole definition of usrStruct?

Thank you.

  • Well, according to wikipedia as found: en.wikipedia.org/wiki/Operators_in_C_and_C%2B%2B you can overload the dereference operator, but to do how you want it to is most likely pragmatic – M4rc Oct 14 '12 at 8:31
  • 1
    It’s important to realise that if that were possible it would break the interface contract of the container/iterator. And that in turn would make your object unusable with a lot of algorithms (both in the standard library and third party libraries). – Konrad Rudolph Oct 14 '12 at 8:53
  • you mean because of the fact that iterator_traits stuff would break, for instance? so, if I would like to std::copy a vector<usrStruct> to a vector<double>, I have no choices than doing as @benjamin says. Right? – Acorbe Oct 14 '12 at 9:05

No, you cannot do that. You can make your struct implicitly convertible to a double (via operator double). Or you can allow direct comparisons by overloading operator==(usrSruct,double) and/or operator==(double,usrStruct).

  • Thank you. my final aim, indeed, is to be independent even on the double. The member a in the user struct can be of any type (although in a finite set) and myFoo will call specific template function. – Acorbe Oct 14 '12 at 8:42

You can create a new iterator that based on vector::iterator and reflect it as double values and it is really simple:

template< class BaseIterator >
struct custom_iterator :
    std::iterator<std::iterate_traits<BaseIterator>::iterator_category, double>
    typedef std::iterator<std::iterate_traits<BaseIterator>::iterator_category, double>
    typedef typename base_t::reference reference;
    custom_iterator( BaseIterator it ) : m_it( it ) {}
    reference operator*() const {
        return my_it->a;
    custom_iterator& operator++ () {++m_it; return *this;}
    custom_iterator operator++ (int) {
        custom_iterator tmp( *this );
        return *this;
    bool operator==( custom_iterator const& rhs ) const {
        return m_it == rhs.m_it;
    BaseIterator m_it;

And now you can use it as myFoo( custom_iterator(v.begin()), custom_iterator(v.end()) )

  • Indeed, my concern here was about design. I.e. is it a good idea to do so? – Acorbe Oct 31 '12 at 14:59
  • it depend on your need, using new iterator you can pass your struct to every function that work with iterators of type double. – BigBoss Oct 31 '12 at 16:07

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