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Suppose I have the following:

std::map<KEY,VALUE> m1;
std::map<KEY,VALUE> m2;

What is the most direct way to move all key/value pairs from m1 into m2?

I would expect:

  • m1 to be empty after this operation
  • m2 may initially have pairs
  • those pairs in m2 that don't have the same key as m1 should be left alone
  • those pairs in m2 that have the same key as m1 should be overwritten with m1's pairs

Do I need a combination of calls from <algorithm>?


James Kranze's solution satisfies my requirements.

for( const auto& p : m1 )
  m2[ p.first ] = p.second;

Joachim Pileborg's recommendation will only work if m2 and m1 do not have the same key (ie m2's value will not be overwritten by m1's value for the same key)

std::move( m1.begin(), m1.end(), std::inserter( m2, m2.begin() ));
share|improve this question
Are element copies allowed? Or you literally mean "move" in the language sense? – PreferenceBean Mar 6 '12 at 13:59
Also, what have you tried? – PreferenceBean Mar 6 '12 at 14:00
It is at times like this that you come to actually appreciate list::splice. It's quite surprising, when you think about it, that associative containers have no interface to exchange their nodes. – Matthieu M. Mar 6 '12 at 15:42
up vote 4 down vote accepted

The most obvious solution is just to write a loop yourself:

for ( std::map<KEY, VALUE>::const_iterator current = m1.begin();
        current != m1.end();
        ++ current ) {
    m2[current->first] = current->second;

Otherwise, I think something like the following should work:

std::copy( m2.begin(), m2.end(), std::inserter( m1, m1.end() ) );
m2.swap( m1 );

This isn't exactly intuitive, and I'd hesitate to use it without comments, since:

  1. Since std::map doesn't have push_back or push_front, you need to use the more general insterter, which in turn requires an iterator specifying where the insertion is to take place. Except that std::map treats this iterator as a “hint”, and since it generally won't be a good hint, it will be ignored.

  2. You actually have to copy from m2 into m1, since insertion into a map will not overwrite any existing value, and when the key is present in both maps, you want to keep the value from m1.

share|improve this answer
+1 this looks good - your point 2. is key as to why std::move(), on its own, is insufficient for my requirements - ty – kfmfe04 Mar 6 '12 at 14:31
Does m2[std::move(current->first)] = std::move(current->second); could avoid some copy in this case ? (if KEY and VALUE are std::string for example) – Thomas Petit Mar 6 '12 at 15:10
@ThomasPetit: You could move second, but not first, since map keys are immutable. – Mike Seymour Mar 6 '12 at 15:53
@ThomasPetit Changing a simple expression such as m2[current->first] = current->second; by adding move---anywhere in the expression, is premature optimization. Keep it simple (and in this case, keep it portable as well), until the profiler says you don't have a choice. – James Kanze Mar 6 '12 at 17:00

How about std::move?

share|improve this answer
+1: I lol'd a bit. – PreferenceBean Mar 6 '12 at 14:01
std::move( m1.begin(), m1.end(), std::inserter( m2, m2.begin()) seems to do the trick - but not sure about keys that live in both m1 and m2. Need to verify. – kfmfe04 Mar 6 '12 at 14:15
looks like if a key exists in m1 and in m2, m2's pair will NOT be overwritten by the pair in m1... – kfmfe04 Mar 6 '12 at 14:29
Is std::move actually usable here? I've no experience with it, but IIUC, it results in the modification of the source elements. Which, if those elements are in an std::map, results in undefined behavior. – James Kanze Mar 6 '12 at 14:45

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