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I'd like to replicate the following with BOOST FOREACH

std::vector<int>::const_iterator i1;
std::vector<int>::const_iterator i2;
for( i1 = v1.begin(), i2 = v2.begin();
     i1 < v1.end() && i2 < v2.end();
     ++i1, ++i2 )
     doSomething( *i1, *i2 );
share|improve this question
Peccadillo: You probably want to use != instead of < in case your container type changes from vector to some other that doesn't support the ranged iterator concept. And you may want to consider what to do if the count of elements is different in each. – Andy Finkenstadt Sep 2 '11 at 17:18

4 Answers 4

up vote 30 down vote accepted

Iterating over two things simultaneously is called a "zip" (from functional programming), and Boost has a zip iterator:

The zip iterator provides the ability to parallel-iterate over several controlled sequences simultaneously. A zip iterator is constructed from a tuple of iterators. Moving the zip iterator moves all the iterators in parallel. Dereferencing the zip iterator returns a tuple that contains the results of dereferencing the individual iterators.

Note that it's an iterator, not a range, so to use BOOST_FOREACH you're going to have to stuff two of them into an iterator_range or pair. So it won't be pretty, but with a bit of care you can probably come up with a simple zip_range and write:

BOOST_FOREACH(boost::tuple<int,int> &p, zip_range(v1, v2)) {
    doSomething(p.get<0>(), p.get<1>());

Or special-case for 2 and use std::pair rather than boost::tuple.

I suppose that since doSomething might have parameters (int&, int&), actually we want a tuple<int&,int&>. Hope it works.

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Very nice, didn't know about zip iterator (never needed it :-)). +1 – user405725 Sep 2 '11 at 17:24
@Vlad: neither did I, but as long as you know it's called "zip", and have blind faith that anything you can think of, Boost already has, Google is your friend :-) – Steve Jessop Sep 2 '11 at 17:27
I never did functional programming, so I didn't even hear of "zip" (except when we talk compression). So nice to know. – user405725 Sep 2 '11 at 17:29
..Or he could just std:make_pair(beg, end) since BOOST_FOREACH accepts those as ranges too. (where beg is make_zip_iterator(make_tuple(v1.begin(), v2.begin()) etc – Cubbi Sep 2 '11 at 17:31
@Cubbi: good point, I forgot that. And std::make_pair(beg, end); is slightly shorter than boost::iterator_range(beg, end);. – Steve Jessop Sep 2 '11 at 17:37

If you use boost, I think it should be as simple as:

#include <boost/foreach.hpp>
#include <boost/range/combine.hpp>
std::vector<int> v1;
std::vector<int> v2;

// iterate over values
int i1, i2;
BOOST_FOREACH(boost::tie(i1, i2), boost::combine(v1, v2))
    std::cout << i1+i2 << "\n"; // sums two vectors

// iterate over references
typedef boost::tuple<int&, int&> int_ref_tuple;
BOOST_FOREACH(int_ref_tuple tup, boost::combine(v1, v2))
    tup.get<0>() = tup.get<1>(); // assigns one vector to another

the strange part is that boost::combine is not documented. Works for me, anyway.

share|improve this answer
It's documented since boost 1.56:… – oxygene Oct 30 '14 at 8:14

If you want to use BOOST_FOREACH to iterate two vectors simultenously, as you've done in your sample code, then you've to encapsulate both vectors in a wrapper class which should expose begin and end functions. These functions return custom iterator to be used to iterate over the wrapper which internally will iterate over the two vectors. Doesn't sound good, but that is what you've to do.

This is my first attempt to implement this (minimal implementation just to demonstrate the basic idea):

template<typename T>
struct wrapper
    struct iterator
         typedef typename std::vector<T>::iterator It;
         It it1, it2;
         iterator(It it1, It it2) : it1(it1), it2(it2) {}
         iterator & operator++()
            ++it1; ++it2; return *this;
         iterator & operator *()
            return *this;
         bool operator == (const iterator &other)
             return !(*this != other);
         bool operator != (const iterator &other)
             return it1 != other.it1 && it2 != other.it2;
    iterator begin_, end_;
    wrapper(std::vector<T> &v1,  std::vector<T> &v2) 
      : begin_(v1.begin(), v2.begin()),end_(v1.end(), v2.end())
    wrapper(const wrapper & other) : begin_(other.begin_), end_(other.end_) {}
    iterator begin() 
          return begin_;
    iterator end() 
          return end_;

And the following is the test code. Since it's using usual for loop, because ideone has not installed for boost for C++0x or I'm doing something wrong when including it.

int main() {
        std::vector<int> v1 = {1,2,3,4,5,6};
        std::vector<int> v2 = {11,12,13,14,15};
        wrapper<int> w(v1,v2);
        for(wrapper<int>::iterator it = w.begin(); it != w.end(); ++it)
             std::cout << *it.it1 <<", "<< *it.it2 << std::endl;
        return 0;


1, 11
2, 12
3, 13
4, 14
5, 15

Demo :

This is good for experimentation and learning purpose only, as I don't claim it to be perfect. There can be lots of improvement. And @Steve already has posted boost's solution.

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Thanks to the answer of Steve Jessop and the great comments, I came up to the following solution, so if you find that nice, vote up Steve Jessop answer first. ;)

#include <iostream>
#include <vector>

#include <boost/typeof/typeof.hpp>
#include <boost/typeof/std/vector.hpp>

#include <boost/foreach.hpp>
#include <boost/assign/list_of.hpp>
#include <boost/tuple/tuple.hpp>
#include <boost/iterator/zip_iterator.hpp>
#include <boost/range/iterator_range.hpp>

using namespace boost;

int main(int argc, char **argv) {
    std::vector<int> vecFirst = assign::list_of(1)(2)(3)(43)(7)(13);
    std::vector<double> vecSecond = assign::list_of(53.45)(-23.545)(0.1574)(1.001)(0.0047)(9.7);

           make_zip_iterator(make_tuple(vecFirst.begin(), vecSecond.begin())), 
           make_zip_iterator(make_tuple(vecFirst.end(), vecSecond.end()))

    BOOST_FOREACH( BOOST_TYPEOF(*zipSequence.begin()) each, zipSequence) {
       std::cout << "First vector value : " << each.get<0>() 
                 << " - Second vector value : " << each.get<1>() 
                 << std::endl;
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