Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have following code:

#include <functional>   // std::less
#include <map>
#include <iostream>
using namespace std;

class Key
        Key() {cout << "Key Constructor" << endl;}
        ~Key() {cout << "Key Destructor" << endl;}
        Key(const Key& key) {cout << "Key Copy Constructor" << endl;}

        bool operator < (const Key& k1) {return true;}
int main()
        map<Key, int> mymap;
        Key k;

        cout << "operator[]"<<endl;
        mymap[k] = 1;

        map<Key, int> mymap2;
        cout << "insert"<<endl;
        mymap2.insert(std::make_pair(k, 1));
        cout << "=========" << endl;


And the output is:

$ g++ test.cpp -fpermissive
$ ./a.out
Key Constructor
Key Copy Constructor
Key Copy Constructor
Key Destructor
Key Copy Constructor
Key Copy Constructor
Key Copy Constructor
Key Copy Constructor
Key Destructor
Key Destructor
Key Destructor
Key Destructor
Key Destructor
Key Destructor

Could anyone please explain why mymap[k] = 1; invoke 2 copy constructor and mymap2.insert(std::make_pair(k, 1)); invokes 4 copy constructor? and does that mean operator[] is much more efficient than insert?



Thanks user 6502 and petersohn for your insight, I now guess the reason for the 2 extra copy constructor for insert is as below:

  • make_pair is a function, it make a copy inside function first, and then return the copy - that is one extra copy
  • make_pair(k, 1) will create a pair<Key, int>, but the required value_type is pair<const& Key, int>, the type conversion will cause another extra copy

So in case 2, if I use:

mymap2.insert(std::pair<const Key, int>(k, 1));

The number of copy constructors get called will be the same with operator[]

As 6502 noted, following claim has been changed hence not true anymore:

A call to this function(operator[]) is equivalent to: (*((this->insert(make_pair(x,mapped_type()))).first)).second

operator[] is implemented different to avoid extra copy introduced by make_pair()

share|improve this question

2 Answers 2

up vote 11 down vote accepted

The problem with insert is that make_pair will create a pair of the wrong type so the passed object will need a conversion to a proper pair type to be passed to insert.

Actually in a former version the C++ standard mandated map::operator[] to behave as insert (thus forcing an inefficient implementation). Later the text was relaxed allowing a better implementation.

Note anyway that for standard containers the elements are considered to be "values", i.e. the implementation is free to copy things around and you get no guarantees about how many copies will be made.

You can see the make_pair problem by changing the code to

    mymap2.insert(std::pair<const Key, int>(k, 1));

Longer explanation

The problem is that make_pair will create an std::pair<Key, int> value but insert signature wants instead a const std::pair<const Key, int>& (note that std::map::value_type is a pair with a const first element).

These two types are incompatible and unrelated so to be able to make the call another pair must be created copying both key and value and this is where an extra key duplication occurs.

Even if it could be apparently "logical" that a pair<X, Y> should be directly usable where pair<const X, Y> is expected this is not true in C++ and it's one of the logical problems of the const-correctness concept (it doesn't scale by composition).

share|improve this answer
Use const Key& is not fair as it hide the problem of the fact how Key is copied, actually, if I call mymap2.insert(std::make_pair<const Key&, int>(k, 1)); the number of constructor decreased to 2 as well. –  Baiyan Huang Jun 22 '13 at 14:30
I think there are 2 reasons for 2 extra constructor: one is what you mentioned as type conversion (but not caused by make_pair directly), just I use the wrong type, it should be: make_pair<const Key, int>; and the other reason is make_pair is a function, it will create a copy inside and then return a copy of it - one extra copy –  Baiyan Huang Jun 22 '13 at 14:36
Actually in a former version the C++ standard mandated map::operator[] to behave as insert Doesn't it still? –  hellofunk Jun 22 '13 at 16:09
@OpenLearner: No doesn't. Document N3242=11-0012 in says that T& operator[](const key_type& x) is required to "insert value_type(x, T())" only if no key equivalent to x is present. The old description instead was requiring equivalence to an insert call in all cases (including a bad make_pair call). –  6502 Jun 22 '13 at 17:45

It's because of make_pair. You have to copy k into the pair, plus there is an extra function call. Possibly the number of copies can be reduced by enabling optimization (I didn't try). However, if you do this, then you'll have exactly the same number of copies than with operator[]:

mymap2.insert(std::pair<const Key&, int>(k, 1));

In C++11 though, things start to get better. If you compile your code with C++11, then you'll get two copies with insert. Even better, if Key has a move constructor, you'll get one copy and one move for insert (while two copies with operator[]). If you use my line above in C++11, you'll even spare the move and only get one copy.

Interestingly, with operator[], I always get two copies, for which I don't know the exact reason.

share|improve this answer
It depends on what you mean with "better". For sure they're not simpler so understanding what is going to happen will be harder. –  6502 Jun 22 '13 at 6:48
It may be harder to understand, but it generally behaves better. As a rule of thumb, if you have a move constructor (and move assignment operator) that moves the contents of an object to another more efficiently than a copy, then in several cases you'll get a faster code than if you only had copy constructor/assignment operator. –  petersohn Jun 22 '13 at 7:09
interesting, seems operator[] and insert are implemented quite differently in stl –  Baiyan Huang Jun 22 '13 at 14:46
@lzprgmr: when I was reading the C++ standard I found the description of operator[] in terms of insert and found that (luckily) no implementation was following the standard on it (especially because the insert code was also creating a pair of the wrong type, like your example). I raised the issue and later the standard was changed to avoid providing an explicit (bad) implementation. –  6502 Jun 22 '13 at 15:10
@lzprgmr: in the old description the code for operator[] was calling make_pair<K, V>, thus creating pair<K, V> instead of pair<const K, V> that was needed by insert.Note that the whole idea of describing operator[] in terms of insert is broken (for example forces creating a default value even when it's not needed). Of course no standard library implementation was following this bad idea and in the end the standard was fixed (relaxed). –  6502 Jun 22 '13 at 15:20

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.