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Consider this program:

#include <map>
#include <string>
#define log magic_log_function // Please don't mind this.


class element;
typedef std::map<int, element> map_t;

class element {
    element(const std::string&);
    element(const element&);
    std::string name;
element::element(const std::string& arg)
    : name(arg)
    log("element ", arg, " constucted, ", this);
element::element(const element& other)
    : name(
    name += "-copy";
    log("element ", name, " copied, ", this);
    log("element ", name, " destructed, ", this);
int main(int argc, char **argv)
    map_t map1; element b1("b1");
    log(" > Done construction.");
    log(" > Making map 1.");
    map1.insert(std::pair<int, element>(1, b1));
    log(" > Done making map 1.");
    log(" > Before returning from main()");

It creates some objects on stack and inserts them into an std::map container, creating two extra temporary copies in the process:

element b1 constucted, 0x7fff228c6c60
 > Done construction.
 > Making map 1.
element b1-copy copied, 0x7fff228c6ca8
element b1-copy-copy copied, 0x7fff228c6c98
element b1-copy-copy-copy copied, 0x232d0c8
element b1-copy-copy destructed, 0x7fff228c6c98
element b1-copy destructed, 0x7fff228c6ca8
 > Done making map 1.
 > Before returning from main()
element b1 destructed, 0x7fff228c6c60
element b1-copy-copy-copy destructed, 0x232d0c8

We can get rid of one extra copy constructor call by changing the std::pair signature to std::pair<int, element&>, however, the second temporary is still created and immediately destroyed:

element b1 constucted, 0x7fff0fe75390
 > Done construction.
 > Making map 1.
element b1-copy copied, 0x7fff0fe753c8
element b1-copy-copy copied, 0x1bc4098
element b1-copy destructed, 0x7fff0fe753c8
 > Done making map 1.
 > Before returning from main()
element b1 destructed, 0x7fff0fe75390
element b1-copy-copy destructed, 0x1bc4098

Is there a way to make std::map just take an object on stack by reference and make a single internal copy of it?

share|improve this question
The most efficient way would be map1.emplace(1, "b1");. But that's not supported everywhere yet. Next best is map1[1] = "b1";, though that has slightly different semantics. – Kerrek SB Dec 14 '12 at 14:30
Also note that map_t::value_type is not std::pair<int, element>! – Kerrek SB Dec 14 '12 at 14:31
#include "log.cpp" is really scary. – user529758 Dec 14 '12 at 14:33
@H2CO3 here are its contents – Mischa Arefiev Dec 14 '12 at 14:35
Erm, that looks more like a header file with inline template definitions and the wrong extension. – R. Martinho Fernandes Dec 14 '12 at 14:36
up vote 2 down vote accepted

Standard practice (with older C++ versions) where I've been is to use a Map of shared pointers.

Still creates a copy of the shared pointers, but that's usually much less onerous than copying large objects.

share|improve this answer
Thanks for the tip, changing the code to use shared_ptrs was an improvement, performance-wise. – Mischa Arefiev Dec 16 '12 at 15:20

This is one of the many use cases which motivated C++11's move functionality, supported by a host of new features, particularly rvalue references, and a variety of new standard library interfaces, including std::map::emplace, std::vector::emplace_back, etc.

If, for whatever reason, you cannot yet use C++11, you can at least console yourself with the thought that the problem has been recognized, and that a solution has been standardized and implemented, and that furthermore many of us are using it, some of us [1] in production-code. So, as the old joke has it, a solution exists and it's your call as to when you take it up.

Note that you don't have to use the emplace member function if your objects implement move constructors, which they may even do by default. This won't happen if the have explicit copy constructors, so your test above may produce observer effects (and indeed, it might also suppress compiler optimizations in the case of PODs, so even with C++03 you might not have the problem you think you do).

There are a variety of hacks available which kinda-sorta avoid copies with only "minor" source code alterations, but IMHO the best approach is to start moving towards C++11. Whatever you do, try to do it in a way that will make the inevitable migration less painful.

[Note 1]: Disclaimer: I no longer write production code, having more or less retired, so I'm not part of the "some of us" in that sentence.

share|improve this answer
Thanks for the great answer. Unfortunately we don't use C++11 yet, so I had to settle for boost's shared_ptrs for now. – Mischa Arefiev Dec 16 '12 at 15:19
@MischaArefiev, fair enough. I was in that position in my last job, too, and now that I'm free to use C++11, I realize how much pain I went through because I couldn't before. But migration is a massive task, so I'm not criticizing the decision to not use it "yet". Added a sentence to my answer, anyway... – rici Dec 16 '12 at 15:26

You can use emplace() :

The element is constructed in-place, i.e. no copy or move operations are performed. The constructor of the element type (value_type, that is, std::pair) is called with exactly the same arguments as supplied to the function

share|improve this answer
g++ from gcc 4.7.2 doesn't have it – Mischa Arefiev Dec 14 '12 at 14:36

Well, if you dont have emplace, you can construct the element on the heap and pass pointers to map:

typedef std::map<int, element*> map_t;
printf(" > Making pair 1.\n");
std::pair<int, element*> pair(1, new element ("b1")) ;
printf(" > Making map 1.\n");

but then you are subject to memory-leaks if you dont take care when your map leaves scope...

share|improve this answer
Thanks for the input, but I want std::map to manage the element objects, which is not the case when pointers are stored. – Mischa Arefiev Dec 14 '12 at 15:20
@Mirscha This I can fully understand... – pbhd Dec 14 '12 at 15:30

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