Working my way through Effective STL at the moment. Item 5 suggests that it's usually preferable to use range member functions to their single element counterparts. I currently wish to copy all the values in a map (i.e. - I don't need the keys) to a vector.

What is the cleanest way to do this?

11 Answers 11

up vote 48 down vote accepted

You can't easily use a range here becuase the iterator you get from a map refers to a std::pair, where the iterators you would use to insert into a vector refers to an object of the type stored in the vector, which is (if you are discarding the key) not a pair.

I really don't think it gets much cleaner than the obvious:

#include <map>
#include <vector>
#include <string>
using namespace std;

int main() {
    typedef map <string, int> MapType;
    MapType m;  
    vector <int> v;

    // populate map somehow

    for( MapType::iterator it = m.begin(); it != m.end(); ++it ) {
        v.push_back( it->second );
    }
}

which I would probably re-write as a template function if I was going to use it more than once. Something like:

template <typename M, typename V> 
void MapToVec( const  M & m, V & v ) {
    for( typename M::const_iterator it = m.begin(); it != m.end(); ++it ) {
        v.push_back( it->second );
    }
}
  • 50
    Python has truly spoiled me :-( – Gilad Naor Apr 21 '09 at 7:47
  • 1
    Nice, the template. Maybe give it an output iterator instead of a container! – xtofl Apr 21 '09 at 8:14
  • Skurmedel's solution is even nicer: use the 'transform' function with a p -> p.second functor. – xtofl Apr 21 '09 at 8:16
  • 2
    I'm a firm believer in Occam's Razor - don't introduce entities unecessarily. In the case of the transform solution, we need a subsidiary function which is not needed on the explicit loop solution. So until we get nameless functions, I'll stick with my solution. – anon Apr 21 '09 at 8:19
  • 3
    Beware of Occam's Razor interpretation. Introducing a new non-const variable "it" may not the safest solution in the end. STL algorithms have been proven fast and robust for quite some time now. – Vincent Robert Apr 21 '09 at 8:53

You could probably use std::transform for that purpose. I would maybe prefer Neils version though, depending on what is more readable.


Example by xtofl (see comments):

#include <map>
#include <vector>
#include <algorithm>
#include <iostream>

template< typename tPair >
struct second_t {
    typename tPair::second_type operator()( const tPair& p ) const { return     p.second; }
};

template< typename tMap > 
second_t< typename tMap::value_type > second( const tMap& m ) { return second_t<     typename tMap::value_type >(); }


int main() {
    std::map<int,bool> m;
    m[0]=true;
    m[1]=false;
    //...
    std::vector<bool> v;
    std::transform( m.begin(), m.end(), std::back_inserter( v ), second(m) );
    std::transform( m.begin(), m.end(), std::ostream_iterator<bool>( std::cout,     ";" ), second(m) );
}

Very generic, remember to give him credit if you find it useful.

  • that I like even better than Neil's. Workidout, workidout! – xtofl Apr 21 '09 at 8:15
  • 11
    (example: codepad.org/4kBV9Rg2 ) – xtofl Apr 21 '09 at 8:23
  • Neat super-generic code xtofl. – Skurmedel Apr 21 '09 at 8:29
  • 1
    +1 Add the call to reserve on the vector and it's perfect. – lothar Apr 21 '09 at 15:37
  • Care to give me a reason for downvote? – Skurmedel Jun 27 '10 at 10:35

If you are using the boost libraries, you can use boost::bind to access the second value of the pair as follows:

#include <string>
#include <map>
#include <vector>
#include <algorithm>
#include <boost/bind.hpp>

int main()
{
   typedef std::map<std::string, int> MapT;
   typedef std::vector<int> VecT;
   MapT map;
   VecT vec;

   map["one"] = 1;
   map["two"] = 2;
   map["three"] = 3;
   map["four"] = 4;
   map["five"] = 5;

   std::transform( map.begin(), map.end(),
                   std::back_inserter(vec),
                   boost::bind(&MapT::value_type::second,_1) );
}

This solution is based on a post from Michael Goldshteyn on the boost mailing list.

Using lambdas one can perform the following:

{
   std::map<std::string,int> m;
   std::vector<int> v;
   v.reserve(m.size());
   std::for_each(m.begin(),m.end(),
                 [&v](const std::map<std::string,int>::value_type& p) 
                 { v.push_back(p.second); });
}
  • 1
    I don't think you need to v.reserve(m.size()) because v will grow as you push_back new elements. – Dragan Ostojić Sep 28 '16 at 18:37
  • 5
    @DraganOstojić .reserve() only causes one reallocation. Depending on the number of elements, .push_back() may perform multiple allocations to get to the same size. – mskfisher Mar 14 '17 at 20:52

Old question, new answer. With C++11 we have the fancy new for loop:

for (const auto &s : schemas)
   names.push_back(s.first);

where schemas is a std::map and names is an std::vector.

This populates the array (names) with keys from the map (schemas); change s.first to s.second to get an array of values.

  • 2
    It should be const auto &s – Slava Dec 29 '15 at 22:24
  • 1
    @Slava to clarify for any one new to the range based for: the way I wrote it works, however, the version Slava suggested is faster and safer as avoids copying the iterator object by using a reference, and specifies a const since it would be dangerous to modify the iterator. Thanks. – Seth Dec 31 '15 at 5:52
  • 1
    Shortest and cleanest solution. And probably the fastest (tested to be faster than the accepted solution and also faster than @Aragornx's solution). Add reserve() and you'll get another performance gain. With the advent of C++11 that should now be the accepted solution! – Adrian W Oct 11 '17 at 18:18
  • 2
    Shouldn't this be names.push_back(s.second); as the question asks for the values, not the keys in a vector? – David Apr 12 at 20:03
  • @David You are correct, I've pointed out how to get either. – Seth Jun 1 at 1:38
#include <algorithm> // std::transform
#include <iterator>  // std::back_inserter
std::transform( 
    your_map.begin(), 
    your_map.end(),
    std::back_inserter(your_values_vector),
    [](auto &kv){ return kv.second;} 
);

Sorry that I didn't add any explanation - I thought that code is so simple that is doesn't require any explanation. So:

transform( beginInputRange, endInputRange, outputIterator, unaryOperation)

this function calls unaryOperation on every item from inputIterator range (beginInputRange-endInputRange). The value of operation is stored into outputIterator.

If we want to operate through whole map - we use map.begin() and map.end() as our input range. We want to store our map values into vector - so we have to use back_inserter on our vector: back_inserter(your_values_vector). The back_inserter is special outputIterator that pushes new elements at the end of given (as paremeter) collection. The last parameter is unaryOperation - it takes only one parameter - inputIterator's value. So we can use lambda: [](auto &kv) { [...] }, where &kv is just a reference to map item's pair. So if we want to return only values of map's items we can simply return kv.second:

[](auto &kv) { return kv.second; }

I think this explains any doubts.

  • 2
    Hi, do add a bit of explanation along with the code as it helps to understand your code. Code only answers are frowned upon. – Bhargav Rao Sep 23 '16 at 7:53
  • 1
    Yes! this code snippet may solve the question, including an explanation really helps to improve the quality of your post. Remember that you are answering the question for readers in the future, and those people might not know the reasons for your code suggestion. – J. Chomel Sep 23 '16 at 8:51
  • I think this only works starting from C++14, since auto isn't supported in lambda's prior to that. Explicit function signature would still work. – turoni Jul 30 at 6:28

Here is what I would do.
Also I would use a template function to make the construction of select2nd easier.

#include <map>
#include <vector>
#include <algorithm>
#include <memory>
#include <string>

/*
 * A class to extract the second part of a pair
 */   
template<typename T>
struct select2nd
{
    typename T::second_type operator()(T const& value) const
    {return value.second;}
};

/*
 * A utility template function to make the use of select2nd easy.
 * Pass a map and it automatically creates a select2nd that utilizes the
 * value type. This works nicely as the template functions can deduce the
 * template parameters based on the function parameters. 
 */
template<typename T>
select2nd<typename T::value_type> make_select2nd(T const& m)
{
    return select2nd<typename T::value_type>();
}

int main()
{
    std::map<int,std::string>   m;
    std::vector<std::string>    v;

    /*
     * Please note: You must use std::back_inserter()
     *              As transform assumes the second range is as large as the first.
     *              Alternatively you could pre-populate the vector.
     *
     * Use make_select2nd() to make the function look nice.
     * Alternatively you could use:
     *    select2nd<std::map<int,std::string>::value_type>()
     */   
    std::transform(m.begin(),m.end(),
                   std::back_inserter(v),
                   make_select2nd(m)
                  );
}
  • 1
    Good one. And why make_select2nd are not in the stl? – Mykola Golubyev Apr 21 '09 at 9:01
  • select2nd is an extension to the STL in the SGI version (so unofficial). Adding function templates as utilities is just second nature now (see make_pair<>() for inspiration). – Martin York Apr 21 '09 at 13:47

I thought it should be

std::transform( map.begin(), map.end(), std::back_inserter(vec), boost::bind(&MapT::value_type::first,_1) );

One way is to use functor:

 template <class T1, class T2>
    class CopyMapToVec
    {
    public: 
        CopyMapToVec(std::vector<T2>& aVec): mVec(aVec){}

        bool operator () (const std::pair<T1,T2>& mapVal) const
        {
            mVec.push_back(mapVal.second);
            return true;
        }
    private:
        std::vector<T2>& mVec;
    };


int main()
{
    std::map<std::string, int> myMap;
    myMap["test1"] = 1;
    myMap["test2"] = 2;

    std::vector<int>  myVector;

    //reserve the memory for vector
    myVector.reserve(myMap.size());
    //create the functor
    CopyMapToVec<std::string, int> aConverter(myVector);

    //call the functor
    std::for_each(myMap.begin(), myMap.end(), aConverter);
}
  • I would not bother with the variable aConverter. just create a temporary in the for_each. std::for_each(myMap.begin(), myMap.end(), CopyMapToVec<std::string, int>(myVector)); – Martin York Apr 21 '09 at 8:46
  • prefer 'transform', since that's what you're doing: transforming a map into a vector using a quite straightforward functor. – xtofl Apr 21 '09 at 8:56

Why not:

template<typename K, typename V>
std::vector<V> MapValuesAsVector(const std::map<K, V>& map)
{
   std::vector<V> vec;
   vec.reserve(map.size());
   std::for_each(std::begin(map), std::end(map),
        [&vec] (const std::map<K, V>::value_type& entry) 
        {
            vec.push_back(entry.second);
        });
    return vec;
}

usage:

auto vec = MapValuesAsVector(anymap);

  • I think your vec will be twice size of map – dyomas Aug 30 '16 at 14:54
  • thanks dyomas, I've updated the function to do a reserve instead of resize and now it works correctly – Jan Wilmans Mar 20 '17 at 19:02

Surprised nobody has mentioned the most obvious solution, use the std::vector constructor.

template<typename K, typename V>
std::vector<std::pair<K,V>> mapToVector(const std::unordered_map<K,V> &map)
{
    return std::vector<std::pair<K,V>>(map.begin(), map.end());
}

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