Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to implement a container in C++ that uses a flat array to store the data but iterates over that data in pairs. Now I could easily change the implementation such that the container holds a vector of std::pair however I want to iterate through pairs starting at element 0 or at element 1.

To illustrate what I want to achieve, if my underlying array looks like: 1,2,3,4,5,6,7,8

I want to define two iterators, one which returns the pairs: (1,2), (3,4), (5,6), (7,8) and the second iterator to return the pairs: (2,3), (4,5), (6,7)

is this possible to do while still allowing the elements of the iterator to be references of the underlying array?

share|improve this question

3 Answers 3

It is possible to write your own iterator, which iterates over the elements. The following question shows some explanations on how that is done: Custom Iterator in C++.

You can then return the desired values as std::pair and iterate to the next element-pair (by incrementing the counter by 2).

share|improve this answer

Boost library has got Iterator Adaptor that allows you to wrap other iterator types and change or adapt their functionality. Here's how you could use it for your purpose:

#include <boost/iterator/iterator_adaptor.hpp>
#include <vector>

struct iterator :
    public boost::iterator_adaptor<
        iterator,                    // the name of our class, see docs for details
        std::vector<int>::iterator,  // underlying base iterator
        std::pair<int&, int&>,       // our value type
        boost::forward_traversal_tag // the category you wish to give it
    >
{
     // need this to convert from vector::iterator to ours
    explicit iterator(std::vector<int>::iterator i)
        : iterator::iterator_adaptor_(i) {}

    value_type operator*()
    {
        return value_type(
            *base_reference(),
            *(base_reference()+1)
        );
    }
};

Example of usage:

std::vector<int> v {1,2,3,4};
iterator it(v.begin());
++it;
(*it).first = 0;  // TODO: operator->
(*it).second = 0;

for (int i : v) std::cout << i << ' '; // prints 1 0 0 4

You'll also need to override comparison to properly handle end condition, etc. Hope that helps.

share|improve this answer

Just thought I'd put in what I actually used in my code. I didn't want to use boost as suggested by @jrok but the type std::pair<int&, int&> in their answer gave me a hint of what was required.

Below is the class that I constructed which uses two iterators. A RepeatIterator that returns pairs starting on even indexes in the underlying data, and a SpacerIterator that returns pairs starting on odd indexes.

class RepeatArray {
    typedef std::vector<int> storage_t;

public:
    class RepeatIterator {
    public:
        typedef RepeatIterator self_t;
        typedef int value_t;
        typedef int& reference_t;
        typedef int* pointer_t;
        typedef std::pair<reference_t, reference_t> return_t;

        RepeatIterator(storage_t::iterator input) : current_pos(input){}

        return_t operator *() {
            return return_t(*(current_pos), *(current_pos + 1 ));
        }

        self_t operator++() { self_t i = *this; current_pos += 2; return i; }
        self_t operator++(int junk) { current_pos+=2; return *this; }


        bool operator==(const self_t& rhs) { return current_pos == rhs.current_pos; }
        bool operator!=(const self_t& rhs) { return current_pos != rhs.current_pos; }
        bool operator<(const self_t& rhs) { return current_pos < rhs.current_pos; }
        bool operator<=(const self_t& rhs) { return current_pos <= rhs.current_pos; }
        bool operator>(const self_t& rhs) { return current_pos > rhs.current_pos; }
        bool operator>=(const self_t& rhs) { return current_pos >= rhs.current_pos; }

    private:
        storage_t::iterator current_pos;
    };

    class SpacerIterator {
    public:
        typedef SpacerIterator self_t;
        typedef int value_t;
        typedef int& reference_t;
        typedef int* pointer_t;
        typedef std::pair<reference_t, reference_t> return_t;

        SpacerIterator(storage_t::iterator input) : current_pos(input){}

        return_t operator *() {
            return return_t(*(current_pos), *(current_pos + 1 ));
        }

        self_t operator++() { self_t i = *this; current_pos += 2; return i; }
        self_t operator++(int junk) { current_pos+=2; return *this; }

        bool operator==(const self_t& rhs) { return current_pos == rhs.current_pos; }
        bool operator!=(const self_t& rhs) { return current_pos != rhs.current_pos; }
        bool operator<(const self_t& rhs) { return current_pos < rhs.current_pos; }
        bool operator<=(const self_t& rhs) { return current_pos <= rhs.current_pos; }
        bool operator>(const self_t& rhs) { return current_pos > rhs.current_pos; }
        bool operator>=(const self_t& rhs) { return current_pos >= rhs.current_pos; }


    private:
        storage_t::iterator current_pos;
    };

    void add(int start, int end) {
        positions.push_back(start);
        positions.push_back(end);
    }

    void dump() {
        for (auto i : positions) {
            std::cout <<i<<",";
        }
        std::cout <<std::endl;
    }

    RepeatIterator repeatBegin(){return RepeatIterator(positions.begin());}
    RepeatIterator repeatEnd(){return RepeatIterator(positions.end());}

    SpacerIterator spacerBegin(){return SpacerIterator(positions.begin() + 1);}
    SpacerIterator spacerEnd(){return SpacerIterator(positions.end() - 1);}

protected:
    storage_t positions;
};

And then the tesing program compiled using clang++ -std=c++0x -o testRepeatArray RepeatArray.cpp

int main() {
    RepeatArray r = RepeatArray();
    r.add(1,3);
    r.add(7,12);
    std::cout<<"original:"<<std::endl;
    r.dump();

    std::cout << "Testing Repeat iterator:"<<std::endl;
    for (RepeatArray::RepeatIterator it2 = r.repeatBegin(); it2 != r.repeatEnd(); ++it2) {
        std::cout << (*it2).first <<","<< (*it2).second << std::endl;
    }
    std::cout << "Testing Spacer iterator:"<<std::endl;
    for (RepeatArray::SpacerIterator it3 = r.spacerBegin(); it3 != r.spacerEnd(); ++it3) {
        std::cout << (*it3).first <<","<< (*it3).second << std::endl;
    }

    std::cout<<"Testing modification:"<<std::endl;

    RepeatArray::RepeatIterator it = r.repeatBegin();
    (*it).first = 0;
    (*it).second = 123;

    r.dump();
    return 0;
}
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.