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Currently, I can only do ranged based loops with this:

for (auto& value : values)

But sometimes I need an iterator to the value, instead of a reference (For whatever reason). Is there any method without having to go through the whole vector comparing values?

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4  
+1, just because I'm angry that they designed it that way. –  Potatoswatter Aug 5 '11 at 7:59
    
I had the same annoyance. –  payload Feb 17 '13 at 11:34
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4 Answers 4

up vote 34 down vote accepted

Use the old for loop as:

for (auto it = values.begin(); it != values.end();  ++it )
{
       auto & value = *it;
       //...
}

With this, you've value as well as iterator it. Use whatever you want to use.


EDIT:

Although I wouldn't recommended this, but if you want to use range-based for loop (yeah, For whatever reason :D), then you can do this:

 auto it = std::begin(values); //std::begin is a free function in C++11
 for (auto& value : values)
 {
     //Use value or it - whatever you need!
     //...
     it++; //at the end OR make sure you do this in each iteration
 }

This approach avoids searching given value, since value and it are always in sync.

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Yea, this is what I've been doing. I was just wondering if there was a solution with ranged based loops instead –  小太郎 Aug 5 '11 at 7:59
    
@ 小太郎: See the edit. –  Nawaz Aug 5 '11 at 8:07
4  
I agree that the first solution with the old for loop is much better :P –  小太郎 Aug 5 '11 at 8:09
1  
@David: What if there are duplicates in the vector? value and it may not be in sync. Remember value is a reference. –  Nawaz Aug 5 '11 at 9:13
5  
@Nawaz: I think I misunderstood the last sentence. I thought that he was using the range based for to locate a known object. BTW, prefer ++it to it++ whenever possible (both uses in your code) as it might have a lesser overhead. –  David Rodríguez - dribeas Aug 5 '11 at 10:14
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What they should have done is define std::begin and std::end for std::pair< T, T >, to allow you to access the hidden iterator.

Here is a proxy wrapper class to allow you to expose the hidden iterator by aliasing it to your own variable. (Edit: Now tested! I didn't realize that G++ supports this already.)

#include <memory>
#include <iterator>

/*  Only provides the bare minimum to support range-based for loops.
    Since the internal iterator of a range-based for is inaccessible,
    there is no point in more functionality here. */
template< typename iter >
struct range_iterator_reference_wrapper
    : std::reference_wrapper< iter > {
    iter &operator++() { return ++ this->get(); }
    decltype( * std::declval< iter >() ) operator*() { return * this->get(); }
    range_iterator_reference_wrapper( iter &in )
        : std::reference_wrapper< iter >( in ) {}
    friend bool operator!= ( range_iterator_reference_wrapper const &l,
                             range_iterator_reference_wrapper const &r )
        { return l.get() != r.get(); }
};

namespace unpolluted {
    /*  Cannot call unqualified free functions begin() and end() from 
        within a class with members begin() and end() without this hack. */
    template< typename u >
    auto b( u &c ) -> decltype( begin( c ) ) { return begin( c ); }
    template< typename u >
    auto e( u &c ) -> decltype( end( c ) ) { return end( c ); }
}

template< typename iter >
struct range_proxy {
    range_proxy( iter &in_first, iter in_last )
        : first( in_first ), last( in_last ) {}

    template< typename T >
    range_proxy( iter &out_first, T &in_container )
        : first( out_first ),
        last( unpolluted::e( in_container ) ) {
        out_first = unpolluted::b( in_container );
    }

    range_iterator_reference_wrapper< iter > begin() const
        { return first; }
    range_iterator_reference_wrapper< iter > end()
        { return last; }

    iter &first;
    iter last;
};

template< typename iter >
range_proxy< iter > visible_range( iter &in_first, iter in_last )
    { return range_proxy< iter >( in_first, in_last ); }

template< typename iter, typename container >
range_proxy< iter > visible_range( iter &first, container &in_container )
    { return range_proxy< iter >( first, in_container ); }

Usage:

#include <vector>
#include <iostream>
std::vector< int > values{ 1, 3, 9 };

int main() {
    // Either provide one iterator to see it through the whole container...
    std::vector< int >::iterator i;
    for ( auto &value : visible_range( i, values ) )
        std::cout << "# " << i - values.begin() << " = " << ++ value << '\n';

    // ... or two iterators to see the first incremented up to the second.
    auto j = values.begin(), end = values.end();
    for ( auto &value : visible_range( j, end ) )
        std::cout << "# " << j - values.begin() << " = " << ++ value << '\n';
}
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1  
+1 for experimenting with wrapper. :-) –  Nawaz Aug 5 '11 at 10:27
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I tried myself on this and found a solution.

Usage:

for(auto i : ForIterator(some_list)) {
    // i is the iterator, which was returned by some_list.begin()
    // might be useful for whatever reason
}

The implementation was not that difficult:

template <typename T> struct Iterator {
    T& list;
    typedef decltype(list.begin()) I;

    struct InnerIterator {
        I i;
        InnerIterator(I i) : i(i) {}
        I operator * () { return i; }
        I operator ++ () { return ++i; }
        bool operator != (const InnerIterator& o) { return i != o.i; }
    };

    Iterator(T& list) : list(list) {}
    InnerIterator begin() { return InnerIterator(list.begin()); }
    InnerIterator end() { return InnerIterator(list.end()); }
};
template <typename T> Iterator<T> ForIterator(T& list) {
    return Iterator<T>(list);
}
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1  
Please, please use a function template for the ForIterator... –  Xeo Feb 17 '13 at 12:56
    
ah, well yes. I didn't quite got it to say, that the compiler could get his T from the constructor... so I thought of decltype and saw the usage-bloat... and I didnt saw that it can get his T from a function... function template, thanks. Is it right, how I do it now? –  payload Feb 17 '13 at 14:57
1  
Yeah, that looks good. FWIW, there's boost::counting_iterator though, which does exactly that, and is conveniently wrapped with boost::counting_range, so you can write: for(auto it : boost::counting_range(r.begin(), r.end())). :) –  Xeo Feb 17 '13 at 15:10
    
I think operator++() should return an InnerIterator, otherwise very nice and uesful. –  Ben Voigt Dec 14 '13 at 17:09
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range based for loop is created as the c++ counterpart for foreach in java that allows easy iteration of array elements. It is meant for removing the usage of complex structures like iterators so as to make it simple. I you want an iterator, as Nawaz said, you will have to use normal for loop.

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I wish they would offer a similar loop that used iterators instead, though :( –  小太郎 Aug 5 '11 at 8:17
    
Im happy that what youre getting is they value and not the iterator, for for me range based for is syntax sugar and about reducing typing amount. Having to dereference the iterator would make it error-prone, especially when used with auto –  Evgeni May 29 '12 at 18:19
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