220

This is one of the possible ways I come out:

struct RetrieveKey
{
    template <typename T>
    typename T::first_type operator()(T keyValuePair) const
    {
        return keyValuePair.first;
    }
};

map<int, int> m;
vector<int> keys;

// Retrieve all keys
transform(m.begin(), m.end(), back_inserter(keys), RetrieveKey());

// Dump all keys
copy(keys.begin(), keys.end(), ostream_iterator<int>(cout, "\n"));

Of course, we can also retrieve all values from the map by defining another functor RetrieveValues.

Is there any other way to achieve this easily? (I'm always wondering why std::map does not include a member function for us to do so.)

  • 8
    your solution is the best... – linello Apr 9 '13 at 10:15
  • 2
    The only think I would add t this is keys.reserve(m.size());. – Galik Apr 4 '18 at 18:07

16 Answers 16

161

While your solution should work, it can be difficult to read depending on the skill level of your fellow programmers. Additionally, it moves functionality away from the call site. Which can make maintenance a little more difficult.

I'm not sure if your goal is to get the keys into a vector or print them to cout so I'm doing both. You may try something like this:

map<int, int> m;
vector<int> v;
for(map<int,int>::iterator it = m.begin(); it != m.end(); ++it) {
  v.push_back(it->first);
  cout << it->first << "\n";
}

Or even simpler, if you are using Boost:

map<int,int> m;
pair<int,int> me; // what a map<int, int> is made of
vector<int> v;
BOOST_FOREACH(me, m) {
  v.push_back(me.first);
  cout << me.first << "\n";
}

Personally, I like the BOOST_FOREACH version because there is less typing and it is very explicit about what it is doing.

  • 1
    Go figures I'd end up back here after my Google search. Yours is the answer I prefer :) – mpen Apr 14 '09 at 20:15
  • 4
    @Jere - Have you actually worked with BOOST_FOREACH? The code you propose here is totally wrong – Manuel Mar 5 '10 at 19:25
  • 2
    @Jamie - that is another way, but the boost docs show specifying the variable and its type prior to the BOOST_FOREACH if the type contains a comma. They also show typedefing it. So, I'm confused, what is wrong with my code? – Jere.Jones Jul 9 '10 at 16:56
  • 17
    Curious, wouldn't it make sense to presize the vector to prevent resize allocation? – Alan Oct 16 '13 at 22:34
  • 2
    Don't forget to do v.reserve(m.size()) to avoid having the vector resize during the transfer. – Brian White Mar 21 '17 at 14:34
138
//c++0x too
std::map<int,int> mapints;
std::vector<int> vints;
vints.reserve(mapints.size());
for(auto const& imap: mapints)
    vints.push_back(imap.first);
  • 3
    Nice. Forget about it = ...begin(); it != ...end. Nicest would of course be std::map having a method keys() returning that vector... – masterxilo May 18 '13 at 23:28
  • 2
    @BenHymers: It seems to me this answer was given at answered Mar 13 '12 at 22:33, which is several months after C++11 became C++. – Sebastian Mach Jul 22 '13 at 14:31
  • 33
    @BenHymers but it is of use to anyone reading the question now, which is what SO is all about - not only helping the asker, but everyone else. – Luchian Grigore Dec 14 '13 at 1:16
  • 8
    for (auto &imap) is more precise because no copy operation. – SmallChess Jun 23 '15 at 6:20
  • 2
    @StudentT, better yet, for(auto const & imap : mapints). – cp.engr Oct 23 '15 at 16:58
58

There is a boost range adaptor for this purpose:

vector<int> keys;
// Retrieve all keys
boost::copy(m | boost::adaptors::map_keys, std::back_inserter(keys));

There is a similar map_values range adaptor for extracting the values.

  • 1
    Unfortunately, it seems like boost::adaptors is not available until Boost 1.43. The current stable release of Debian (Squeeze) only offers Boost 1.42 – Mickaël Le Baillif Nov 23 '12 at 12:45
  • 2
    That's a pity. Boost 1.42 was released in Feb 2010, over 2.5 years before Squeeze. – Alastair Nov 30 '12 at 20:40
  • At this point, shouldn't Squeeze Updates and or the backports repo be offering Boost 1.44? – Luis Machuca Mar 28 '13 at 14:16
  • which boost header is that defined in? – James Wierzba Apr 14 '16 at 19:41
  • 1
    See the linked doco, it's defined in boost/range/adaptor/map.hpp – Alastair Apr 15 '16 at 13:57
43

C++0x has given us a further, excellent solution:

std::vector<int> keys;

std::transform(
    m_Inputs.begin(),
    m_Inputs.end(),
    std::back_inserter(keys),
    [](const std::map<int,int>::value_type &pair){return pair.first;});
  • 20
    In my view there is nothing excellent about it. std::vector<int> keys; keys.reserve(m_Inputs.size()); for ( auto keyValue : m_Inputs){ keys.push_back(keyValue.first); } Is far better than the cryptic transform. Even in terms of performance. This one is better. – Jagannath Jun 11 '12 at 14:59
  • 3
    You can reserve the size of keys here too if you want comparable performance. use the transform if you want to avoid a for loop. – DanDan Jun 14 '12 at 20:35
  • 4
    just want to add - can use [](const auto& pair) – ivan.ukr Mar 2 '16 at 15:04
  • @ivan.ukr what compiler are you using? This syntax is not allowed here: 'const auto &': a parameter cannot have a type that contains 'auto' – Gobe Apr 20 '16 at 20:37
  • 3
    @ivan.ukr auto parameter in lambda is c++14 – roalz Oct 13 '17 at 21:24
12

@DanDan's answer, using C++11 is:

using namespace std;
vector<int> keys;

transform(begin(map_in), end(map_in), back_inserter(keys), 
            [](decltype(map_in)::value_type const& pair) {
    return pair.first;
}); 

and using C++14 (as noted by @ivan.ukr) we can replace decltype(map_in)::value_type with auto.

  • 3
    You could add keys.reserve(map_in.size()); for efficiency. – Galik Apr 4 '18 at 18:18
  • I find the transform method actually takes more code than for-loop. – user1633272 Nov 5 '18 at 8:00
  • const can be put behind the type! I almost forget that. – Zhang May 6 at 8:58
10

The SGI STL has an extension called select1st. Too bad it's not in standard STL!

9

I think the BOOST_FOREACH presented above is nice and clean, however, there is another option using BOOST as well.

#include <boost/lambda/lambda.hpp>
#include <boost/lambda/bind.hpp>

std::map<int, int> m;
std::vector<int> keys;

using namespace boost::lambda;

transform(      m.begin(), 
                m.end(), 
                back_inserter(keys), 
                bind( &std::map<int,int>::value_type::first, _1 ) 
          );

copy( keys.begin(), keys.end(), std::ostream_iterator<int>(std::cout, "\n") );

Personally, I don't think this approach is as clean as the BOOST_FOREACH approach in this case, but boost::lambda can be really clean in other cases.

8

Your solution is fine but you can use an iterator to do it:

std::map<int, int> m;
m.insert(std::pair<int, int>(3, 4));
m.insert(std::pair<int, int>(5, 6));
for(std::map<int, int>::const_iterator it = m.begin(); it != m.end(); it++)
{
    int key = it->first;
    int value = it->second;
    //Do something
}
7

Also, if you have Boost, use transform_iterator to avoid making a temporary copy of the keys.

7

Bit of a c++11 take:

std::map<uint32_t, uint32_t> items;
std::vector<uint32_t> itemKeys;
for (auto & kvp : items)
{
    itemKeys.emplace_back(kvp.first);
    std::cout << kvp.first << std::endl;
}
5

You can use the versatile boost::transform_iterator. The transform_iterator allows you to transform the iterated values, for example in our case when you want to deal only with the keys, not the values. See http://www.boost.org/doc/libs/1_36_0/libs/iterator/doc/transform_iterator.html#example

5

Here's a nice function template using C++11 magic, working for both std::map, std::unordered_map:

template<template <typename...> class MAP, class KEY, class VALUE>
std::vector<KEY>
keys(const MAP<KEY, VALUE>& map)
{
    std::vector<KEY> result;
    result.reserve(map.size());
    for(const auto& it : map){
        result.emplace_back(it.first);
    }
    return result;
}

Check it out here: http://ideone.com/lYBzpL

4

The best non-sgi, non-boost STL solution is to extend map::iterator like so:

template<class map_type>
class key_iterator : public map_type::iterator
{
public:
    typedef typename map_type::iterator map_iterator;
    typedef typename map_iterator::value_type::first_type key_type;

    key_iterator(const map_iterator& other) : map_type::iterator(other) {} ;

    key_type& operator *()
    {
        return map_type::iterator::operator*().first;
    }
};

// helpers to create iterators easier:
template<class map_type>
key_iterator<map_type> key_begin(map_type& m)
{
    return key_iterator<map_type>(m.begin());
}
template<class map_type>
key_iterator<map_type> key_end(map_type& m)
{
    return key_iterator<map_type>(m.end());
}

and then use them like so:

        map<string,int> test;
        test["one"] = 1;
        test["two"] = 2;

        vector<string> keys;

//      // method one
//      key_iterator<map<string,int> > kb(test.begin());
//      key_iterator<map<string,int> > ke(test.end());
//      keys.insert(keys.begin(), kb, ke);

//      // method two
//      keys.insert(keys.begin(),
//           key_iterator<map<string,int> >(test.begin()),
//           key_iterator<map<string,int> >(test.end()));

        // method three (with helpers)
        keys.insert(keys.begin(), key_begin(test), key_end(test));

        string one = keys[0];
  • 1
    I'll leave it to the reader to also create the const_iterator and reverse iterators if/when needed. – Marius Mar 5 '10 at 19:29
2

Based on @rusty-parks solution, but in c++17:

std::map<uint32_t, uint32_t> items;
std::vector<uint32_t> itemKeys;
for (const auto& [key, std:ignore] : items) {
  itemKeys.emplace_back(key);
}
-1

Slightly similar to one of examples here, simplified from std::map usage perspective.

template<class KEY, class VALUE>
std::vector<KEY> getKeys(const std::map<KEY, VALUE>& map)
{
    std::vector<KEY> keys(map.size());
    for (const auto& it : map)
        keys.push_back(it.first);
    return keys;
}

Use like this:

auto keys = getKeys(yourMap);
  • 1
    Hey, I know this answer is old but it's also wrong. Initializing with size map.size() means double the vector size return. Please fix to save someone else the headache :( – thc Jul 3 at 23:44
-2

(I'm always wondering why std::map does not include a member function for us to do so.)

Because it can't do it any better than you can do it. If a method's implementation will be no superior to a free function's implementation then in general you should not write a method; you should write a free function.

It's also not immediately clear why it's useful anyway.

  • 7
    There are reasons other than efficiency for a library to provide a method, such as "batteries included" functionality, and a coherent, encapsulated API. Although admittedly neither of those terms describe the STL particularly well :) Re. not clear why it's useful -- really? I think it's pretty obvious why listing the available keys is a useful thing to be able to do with a map/dict: it depends on what you're using it for. – andybuckley Dec 16 '12 at 14:19
  • 3
    By this reasoning, we should't have empty() because it can be implemented as size() == 0. – gd1 Oct 1 '15 at 8:49
  • 1
    What @gd1 said. While there shouldn't be a lot of functional redundancy in a class, insisting on absolutely zero is not a good idea IMO - at least until C++ allows us to "bless" free functions into methods. – einpoklum - reinstate Monica Feb 2 '16 at 19:15
  • 1
    In older versions of C++ there were containers for which empty() and size() could reasonably have different performance guarantees, and I think the spec was sufficiently loose as to permit this (specifically, linked lists that offered constant-time splice()). As such, decoupling them made sense. I don't think this discrepancy is permitted any more, however. – DrPizza Apr 8 '16 at 23:11
  • I agree. C++ treats std::map<T,U> as a container of pairs. In Python, a dict acts like its keys when iterated over, but lets you say d.items() to get the C++ behavior. Python also provides d.values(). std::map<T,U> certainly could provide a keys() and values() method that return an object that has begin() and end() that provide iterators over the keys and values. – Ben Jul 10 '17 at 17:02

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