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There are two ways of map insertion:

m[key] = val;


m.insert(make_pair(key, val));

My question is, which operation is faster? People usually say the first one is slower, because the STL Standard at first 'insert' a default element if 'key' is not existing in map and then assign 'val' to the default element.

But I don't see the second way is better because of 'make_pair'. make_pair actually is a convenient way to make 'pair' compared to pair<T1, T2>(key, val). Anyway, both of them do two assignments, one is assigning 'key' to 'pair.first' and two is assigning 'val' to 'pair.second'. After pair is made, map inserts the element initialized by 'pair.second'.

So the first way is 1. 'default construct of typeof(val)' 2. assignment the second way is 1. assignment 2. 'copy construct of typeof(val)'

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See also: – Johnsyweb Apr 17 '11 at 7:44

4 Answers 4

up vote 11 down vote accepted

Both accomplish different things.

m[key] = val;

Will insert a new key-value pair if the key doesn't exist already, or it will overwrite the old value mapped to the key if it already exists.

m.insert(make_pair(key, val));

Will only insert the pair if key doesn't exist yet, it will never overwrite the old value. So, choose accordingly to what you want to accomplish.
For the question what is more efficient: profile. :P Probably the first way I'd say though. The assignment (aka copy) is the case for both ways, so the only difference lies in construction. As we all know and should implement, a default construction should basically be a no-op, and thus be very efficient. A copy is exactly that - a copy. So in way one we get a "no-op" and a copy, and in way two we get two copies.
Edit: In the end, trust what your profiling tells you. My analysis was off like @Matthieu mentions in his comment, but that was my guessing. :)

Then, we have C++0x coming, and the double-copy on the second way will be naught, as the pair can simply be moved now. So in the end, I think it falls back on my first point: Use the right way to accomplish the thing you want to do.

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+1 for choosing from semantics rather than performance. The analysis is a bit off though, I think. The first way should be slower (by a default construction) since both key and value are copied in both cases. – Matthieu M. Apr 17 '11 at 10:48
@Matthieu: Hm, true enough. I'll edit a bit but will let my analysis stay. This shows again, that profiling will really tell you what is faster. – Xeo Apr 17 '11 at 10:52
std::map<>::operator[] does not default-initialize values, it value-initializes values, thus something like std::map<K, std::array<int, 1000>>::operator[] could be extremely wasteful. – ildjarn May 2 '12 at 21:06

On a lightly loaded system with plenty of memory, this code:

#include <map>
#include <iostream>
#include <ctime>
#include <string>

using namespace std;

typedef map <unsigned int,string> MapType;
const unsigned int NINSERTS = 1000000;

int main() {
    MapType m1;
    string s = "foobar";
    clock_t t = clock();
    for ( unsigned int i = 0; i < NINSERTS; i++ ) {
        m1[i] = s;
    cout << clock() - t << endl;
    MapType m2;
    t = clock();
    for ( unsigned int i = 0; i < NINSERTS; i++ ) {
        m2.insert( make_pair( i, s ) );
    cout << clock() - t << endl;



or similar values on repeated runs. So insert is (in this case) marginally faster.

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Performance wise I think they are mostly the same in general. There may be some exceptions for a map with large objects, in which case you should use [] or perhaps emplace which creates fewer temporary objects than 'insert'. See the discussion here for details.

You can, however, get a performance bump in special cases if you use the 'hint' function on the insert operator. So, looking at option 2 from here:

iterator insert (const_iterator position, const value_type& val);

the 'insert' operation can be reduced to constant time (from log(n)) if you give a good hint (often the case if you know you are adding things at the back of your map).

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We have to refine the analysis by mentioning that the relative performance depends on the type(size) of the objects being copied as well.

I did a similar experiment (to nbt) with a map of (int -> set). I know it is a terrible thing to do, but, illustrative for this scenario. The "value", in this case a set of ints, has 20 elements in it.

I execute a million iterations of the []= Vs. insert operations and do RDTSC/iter-count.

[] = set | 10731 cycles

insert(make_pair<>) | 26100 cycles

It shows the magnitude of penalty added due to the copying. Of course, CPP11(move ctor's) will change the picture.

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