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What is the C++ idiomatic way of creating a std::vector from the last n elements of a std::map?

I am not interested in preserving the order in the vector.

I can copy the elements, like this:

    std::map< double, MyType > m;
    size_t n = 3;
    std::vector< MyType > v;
    std::map< double, MyType >::iterator it = m.end();
    while ( n-- ) { // assuming m.size() >= n

But, is there any other way, more idiomatic, to do it?

share|improve this question
double is a very bad key type for a map. The precision of floating point values makes it generally unusuable. –  Xeo Feb 22 '12 at 9:51
@Xeo Thank you for your comment. What do you mean with "unusable"? –  Alessandro Jacopson Feb 22 '12 at 17:20
Well, imagine you do map[13.37] = blargh;. You're not guaranteed to get the same thing back with map[13.07 + 0.3], for example, or double d = 13.37; map[d] ..., since not every number can be exactly represented as a floating point value. Google should provide further information, "floating point inaccuracy". –  Xeo Feb 22 '12 at 17:36
@Xeo OK, that's fine. Fortunately I did not think to use that map in the problematic ways you show :-) –  Alessandro Jacopson Feb 22 '12 at 18:04

6 Answers 6

up vote 3 down vote accepted

std::copy would be suitable if you wanted to copy the types unchanged. However, std::map<T,U>::iterator_type::value_type is not U (the type you want to copy), but std::pair<T,U> (in other words, dereferencing a map iterator yields a pair of the key and value types), so a raw copy won't work.

So we need to copy the elements, performing a transformation along the way. That's what std::transform is for.

For convenience, I'm going to assume that your compiler supports C++11 lambda expressions and the auto keyword. If not, it can be fairly trivially rewritten as a functor. But we're looking for something roughly like this:

std::transform(map_first, map_last, std::back_inserter(vec), [](std::pair<double,MyType> p) { return p.second; });

Now we just need to fill in the two first parameters:

auto map_first = std::next(map.end(), -n); 
auto map_last = map.end();

The only tricky part here is that map iterators are bidirectional, but not random-access, so we can't simply say map.end() - n. The - operator is not defined. Instead, we have to use std::next (which takes linear rather than constant time for bidirectional operators, but there's no way around that).

(Note, I haven't tried compiling this code, so it might require a small bit of tweaking)

share|improve this answer
It's a good start. (I particularly like the use of lambda.) But what happens if the map doesn't contain n elements? You need a check for that as well. –  James Kanze Feb 22 '12 at 9:49
map::value_type is std::pair<const T, U>, btw. –  Xeo Feb 22 '12 at 9:51
@JamesKanze: true. I tried to omit all the nonessential stuff, such as error checking, since that just muddles up the example code, and I prefer to keep it as short and simple as possible. But obviously, to actually use the code, you'd have to handle possible error conditions. –  jalf Feb 22 '12 at 9:56
@jalf Hmm. Not sure I approve of the statement "the nonessential stuff, such as error checking". More to the point, I'm not sure that it's a good idea to omit it, since so many programmers do forget it in actual code. Best set a good example (or at least mention that it has been omitted). –  James Kanze Feb 22 '12 at 10:01
Nonessential in answering the question that was being asked. Yes, it is essential in actually writing working code, but so are many other things which I conveniently omit. The OP asked how to create a vector from the last N elements of a map (which implies that the last N elements in the map actually exist), so that is the question I tried to answer. Anyway, I just go by what I personally prefer, and when I ask questions, I by far prefer answers that stick to the point, and don't try to bundle it up with a half-dozen things that I didn't need to know. :) YMMV –  jalf Feb 22 '12 at 10:05

std::transform would be the most idiomatic way. You need a functional object:

template<typename PairType>
struct Second
    typename PairType::second_type operator()( PairType const& obj ) const
        return obj.second;

(If your doing much work with std::map or other things that use std::pair, you'll have this in your toolbox.)

After that, it's a bit awkward because you only want the last n. Since iterators into a map are not random access iterators, and you can't add or subtract arbitrary values, the simplest solution is to copy them all, then remove the ones you don't want:

extractLastN( std::map<double, MyType> const& source, size_t n )
    std::vector<MyType> results;
    std::transform( source.begin(), source.end(),
                    std::back_inserter( results ),
                    Second<std::map<double, MyType>::value_type>() );
    if ( results.size() > n ) {
        results.erase( results.begin(), results.end() - n );
    return results;

This isn't the most efficient, but depending on n and where it is used, it may be sufficient. If you do want to avoid the extra copying, etc. (probably worthwhile only if n is typically much smaller than the size of the map), you'll have to do something fancier:

extractLastN( std::map<double, MyType> const& source, ptrdiff_t n )
    std::map<double, MyType>::const_iterator start
            = source.size() <= n
                ? source.begin()
                : std::prev( source.end(), n );
    std::vector<MyType> results;
    std::transform( start, source.end(),
                    std::back_inserter( results ),
                    Second<std::map<double, MyType>::value_type>() );
    return results;

(If you don't have access to C++11, std::prev is simply:

template<typename IteratorType>
prev( IteratorType start, ptrdiff_t n )
    std::advance( start, -n );
    return start;

Again, if you're doing much with the standard library, you probably already have it in your toolkit.)

share|improve this answer
I always forget about std::transform. –  Michael Burr Feb 22 '12 at 9:57
@James Kanze Thank you, I appreciate the error checking. I know it is quite subjective (without any stated requirements) but why don't you just throw an exception in your extractLastN if the size of the map is < n? –  Alessandro Jacopson Feb 22 '12 at 17:35
@uvts_cvs Because it doesn't correspond to what I've usually needed: in most contexts where I've needed something like this, the n was to be understood as a maximum, but less would be acceptable. If this is not the case, then of course some other handling would be necessary (maybe an assert, maybe an exception). –  James Kanze Feb 22 '12 at 17:56

One way of doing it is using a simple for_each:

    map<int,double> m;
    vector<double> v;
    //Fill map
    auto siter = m.end();
    advance(siter, -3);
    for_each(siter, m.end(), [&](pair<int,double> p) { v.push_back(p.second); });

EDIT Even simpler way is using std::prev with for_each:

    map<int,double> m;
    vector<double> v;
    //Fill map
    for_each(prev(m.end(), 3), m.end(), 
                  [&](pair<int,double> p) { v.push_back(p.second); });

Also, if you want fill the vector in reverse order you can use:

for_each(m.rbegin(), next(m.rbegin(), 3), 
        [&](pair<int,double> p) { v.push_back(p.second); });
share|improve this answer
But std::copy and std::transform are there for a reason... :) –  jalf Feb 22 '12 at 9:29
@jalf: I'm pretty sure that reason isn't to force you to write dozens of lines of code to turn everything possible into a transform, though. –  Steve Jessop Feb 22 '12 at 11:20
Where do you get "dozens of lines of code" from? Why would an answer using transform be longer at all? –  jalf Feb 22 '12 at 11:52

Here's a simple Boost.Range version:

#include <boost/range/iterator_range_core.hpp>
#include <boost/range/adaptor/map.hpp>
//#include <boost/range/adaptor/reversed.hpp> // comment in for 'reversed'
#include <map>
#include <vector>

struct X{};

int main(){
  std::map<int, X> m;
  unsigned n = 0;
  auto vec(boost::copy_range<std::vector<X>>(
    boost::make_iterator_range(m, m.size()-n, 0)
    | boost::adaptors::map_values
    //| boost::adaptors::reversed // comment in to copy in reverse order
share|improve this answer

First, what do we want to write to be idiomatic? I suggest:

std::vector<Mytype> v;
  limited(n, m.rbegin()), 

Now we just have to make that code valid.

We can replace values_from(m) with a lambda (which doesn't need m), or implement it using James Kanze's class Second (in which case m is there for type deduction):

template <typename Map>
Second<Map::value_type> values_from(const Map &) {
    return Second<Map::value_type>();

Implementing limited is a bit of a pain. It's a template function that returns an iterator. The iterator type it returns is a template that wraps another iterator type, and forwards everything on to it except that it keeps track of n, and acts like an end iterator when it has been advanced n times. limited_end returns an end iterator of the same type, so it compares equal either if the underlying iterators are equal, or if one of the iterators was created with limited_end and the other one has run n down to zero.

I don't have the code for this handy, but it's basically how you get _n equivalents of all the standard algorithms, not just copy_n. In this case, we want transform_n, but there isn't one.

An alternative to transform would be to use copy_n with a boost::transform_iterator wrapped around m.rbegin(). I won't do that here either, because I always have to check the docs to use transform_iterator.

share|improve this answer
Note that this fills the vector in reverse order. :) –  Xeo Feb 22 '12 at 11:26
@Xeo: it fills the vector in the same order as the questioner's code. Everyone else fills it in reverse order ;-) The difference is worth noting for future uses, but the questioner doesn't care about the order anyway. –  Steve Jessop Feb 22 '12 at 11:28
Ha, you're right.. dammit. :) FWIW, instead of transform_iterator, just use the transformed adaptor from Boost.Range. Or, since it will boil down to the same thing, just map_values as in my answer. :) –  Xeo Feb 22 '12 at 11:29

Do it backwards:

assert(n <= m.size());
std::copy(m.rbegin(), m.rbegin()+n, std::back_inserter(v));

bidirectional iterators FTW.

OK, I obviously wasn't awake yet, and that was wishful thinking. I still prefer walking backwards to get the last n though, so a working version looks like this:

#include <map>
#include <vector>
#include <algorithm>
#include <iterator>

using namespace std;

// I'm assuming it's ok to copy min(m.size(), n)
template <typename Iter>
Iter safe_advance(Iter begin, Iter const &end, int distance)
    while(distance-- > 0 && begin != end)
    return begin;

void copy_last_n(map<double,int> const &m,
                 vector<int> &v, int n)
    transform(m.rbegin(), safe_advance(m.rbegin(), m.rend(), n),
              [](map<double,int>::value_type const &val)
                return val.second;

James Kanze already wrote the Second functor - use that if you don't have access to lambdas.

share|improve this answer
but in the vector, OP wants only value part of the map. –  Naveen Feb 22 '12 at 9:32
Good point! I may have to leave that as an exercise for the reader for now, and come back to it in a bit ... –  Useless Feb 22 '12 at 9:36
There's also no + operator on map iterators. In other words, this just doesn't work. :) –  jalf Feb 22 '12 at 9:40
And there is undefined behavior if the map contains less than n elements. –  James Kanze Feb 22 '12 at 9:47
I asserted the size, but yes, it turns out to fail completely. Will fix later, unless a better approach has been accepted by then. –  Useless Feb 22 '12 at 9:54

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