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I have a very basic question in C++. How to avoid copy when returning an object ?

Here is an example :

std::vector<unsigned int> test(const unsigned int n)
    std::vector<unsigned int> x;
    for (unsigned int i = 0; i < n; ++i) {
    return x;

As I understand how C++ works, this function will create 2 vectors : the local one (x), and the copy of x which will be returned. Is there a way to avoid the copy ? (and I don't want to return a pointer to an object, but the object itself)

Thank you very much.

EDIT : extra question according to the first answers : what would be the syntax of that function using "move semantics" ?

share|improve this question
move semantics: – chris May 7 '12 at 4:34
It won't necessarily create a copy. NRVO or move symantics can prevent that. – Vaughn Cato May 7 '12 at 4:35
You can rely on your compiler for performing NRVO magic or explictly use move semantics. – Alok Save May 7 '12 at 4:36
The "copy of x which will be returned" may be constructed by moving from x, or its construction elided to become the same object as x. The semantics of the language already avoid any copies. – Mankarse May 7 '12 at 4:42
In response to your edit - you do not need to change the syntax at all. Anything which is eligible for copy elision must use move construction (if the construction is not elided altogether). – Mankarse May 7 '12 at 4:43

6 Answers 6

up vote 11 down vote accepted

This program can take advantage of named return value optimization (NRVO). See here:

In C++11 there are move constructors and assignment which are also cheap. You can read a tutorial here:

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Should be noted that not all compilers will do this and even those that do won't all the time. It may still be worth looking into IFF the object is big, you're noting copies, and profiling shows it to be a significant bottleneck. – Crazy Eddie May 7 '12 at 7:12

There seems to be some confusion as to how the RVO (Return Value Optimization) works.

A simple example:

#include <iostream>

struct A {
    int a;
    int b;
    int c;
    int d;

A create(int i) {
    A a = {i, i+1, i+2, i+3 };
    std::cout << &a << "\n";
    return a;

int main(int argc, char*[]) {
    A a = create(argc);
    std::cout << &a << "\n";

And its output at ideone:


Surprising ?

Actually, that is the effect of RVO: the object to be returned is constructed directly in place in the caller.

How ?

Traditionally, the caller (main here) will reserve some space on the stack for the return value: the return slot; the callee (create here) is passed (somehow) the address of the return slot to copy its return value into. The callee then allocate its own space for the local variable in which it builds the result, like for any other local variable, and then copies it into the return slot upon the return statement.

RVO is triggered when the compiler deduces from the code that the variable can be constructed directly into the return slot with equivalent semantics (the as-if rule).

Note that this is such a common optimization that it is explicitly white-listed by the Standard and the compiler does not have to worry about possible side-effects of the copy (or move) constructor.

When ?

The compiler is most likely to use simple rules, such as:

// 1. works
A unnamed() { return {1, 2, 3, 4}; }

// 2. works
A unique_named() {
    A a = {1, 2, 3, 4};
    return a;

// 3. works
A mixed_unnamed_named(bool b) {
    if (b) { return {1, 2, 3, 4}; }

    A a = {1, 2, 3, 4};
    return a;

// 4. does not work
A mixed_named_unnamed(bool b) {
    A a = {1, 2, 3, 4};

    if (b) { return {4, 3, 2, 1}; }

    return a;

In the latter case (4), the optimization cannot be applied when A is returned because the compiler cannot build a in the return slot, as it may need it for something else (depending on the boolean condition b).

A simple rule of thumb is thus that:

RVO should be applied if no other candidate for the return slot has been declared prior to the return statement.

share|improve this answer
+1 for pointing out that we can avoid not only copying, but construction of redundant object and redundant assignment as well ;) – LihO May 7 '12 at 9:58
Re case (4), it depends on the compiler (how smart it is) and the specifics of the code. For example, with the concrete code you show a smart compiler can note that the initialization of a has no side effects, and that that declaration can be moved down under the if. – Cheers and hth. - Alf May 9 '12 at 21:05
@Cheersandhth.-Alf: Exact, the as-if rule still stands obviously. In the general case though (out-of-line constructor), this would only be deductible with LTO enabled. – Matthieu M. May 10 '12 at 6:11

Named Return Value Optimization will do the job for you since the compiler tries to eliminate redundant Copy constructor and Destructor calls while using it.

std::vector<unsigned int> test(const unsigned int n){
    std::vector<unsigned int> x;
    return x;
std::vector<unsigned int> y;
y = test(10);

with return value optimization:

  1. y is created
  2. x is created
  3. x is assigned into y
  4. x is destructed

(in case you want to try it yourself for deeper understanding, look at this example of mine)

or even better, just like Matthieu M. pointed out, if you call test within the same line where y is declared, you can also avoid construction of redundant object and redundant assignment as well (x will be constructed within memory where y will be stored):

std::vector<unsigned int> y = test(10);

check his answer for better understanding of that situation (you will also find out that this kind of optimization can not always be applied).

OR you could modify your code to pass the reference of vector to your function, which would be semantically more correct while avoiding copying:

void test(std::vector<unsigned int>& x){
    // use x.size() instead of n
    // do something with x...
std::vector<unsigned int> y;
share|improve this answer
Ah I see. Indeed I had ignored the fact that you first constructed a default y before assigning to it. Your sequence of events is right in this case, though I would recommend you just directly initialize y to avoid creating two objects where one would suffice. Sorry for the noise. – Matthieu M. May 7 '12 at 9:48
@MatthieuM.: I appreciate your point though. Check my answer now :) – LihO May 7 '12 at 9:56
I cannot upvote twice :( – Matthieu M. May 7 '12 at 11:13

Compilers often can optimize away the extra copy for you (this is known as return value optimization). See

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Referencing it would work.

Void(vector<> &x) {

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First of all, you could declare your return type to be std::vector & in which case a reference will be returned instead of a copy.

You could also define a pointer, build a pointer inside your method body and then return that pointer (or a copy of that pointer to be correct).

Finally, many C++ compilers may do return value optimization ( eliminating the temporary object in some cases.

share|improve this answer
Too bad the reference would immediately be illegal to use (UB). -1 for bad advice. – Mankarse May 7 '12 at 4:45

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