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I wanted to verify the if the following optimizations work as expected:

  • RVO
  • Named RVO
  • Copy elision when passing an argument by value

So I wrote this little program:

#include <algorithm>
#include <cstddef>
#include <iostream>
#include <vector>

struct Foo {
    Foo(std::size_t length, char value) : data(length, value) { }

    Foo(const Foo & rhs) : data( { std::cout << "*** COPY ***" << std::endl; }

    Foo & operator= (Foo rhs) {
        std::cout << "*** ASSIGNMENT ***" << std::endl;
        std::swap(data,; // probably expensive, ignore this please
        return *this;

    ~Foo() { }

    std::vector<char> data;

Foo TestRVO() { return Foo(512, 'r'); }

Foo TestNamedRVO() { Foo result(512, 'n'); return result; }

void PassByValue(Foo inFoo) {}

int main()
    std::cout << "\nTest RVO: " << std::endl;
    Foo rvo = TestRVO();

    std::cout << "\nTest named RVO: " << std::endl;
    Foo named_rvo = TestNamedRVO();

    std::cout << "\nTest PassByValue: " << std::endl;
    Foo foo(512, 'a');

    std::cout << "\nTest assignment: " << std::endl;
    Foo f(512, 'f');
    Foo g(512, 'g');
    f = g;

And I compiled it with optimizations enabled:

$ g++ -o test -O3 main.cpp ; ./test

This is output:

Test RVO: 

Test named RVO: 

Test PassByValue: 
*** COPY ***

Test assignment: 
*** COPY ***

According to the output RVO and named RVO work as expected. However, copy elision is not performed for the assignment operator and when calling PassByValue.

Is copy elision not allowed on user defined copy-constructors? (I know that RVO is explicitly allowed by the standard but I don't know about copy elision when passing by value.) Is there a way to verify copy elision without defining copy constructors?

share|improve this question
Just to be clear, (N)RVO is copy elision. They aren't the only forms, but to say your example shows that copy elision is not performed is inaccurate. – Dennis Zickefoose Jun 17 '11 at 9:25
Cooy elision is generally allowed for all temporary objects, but not for named or bound-to-reference objects. It seems that gcc performs precisely the allowed ones. – n.m. Jun 17 '11 at 9:29
@Dennis Zickefoose thanks, I fixed the text. – StackedCrooked Jun 17 '11 at 9:30
up vote 9 down vote accepted

The way you use the copy constructor it can not be elided, as the copied object still exists after the call.

If you try it this way, it might work better:

PassByValue(Foo(512, 'a')); 

All optimizations are allowed but not required, so it is up to each compiler to decide what it can and will do.

share|improve this answer
The optimization is indeed performed here. This example together with @Space_C0wb0y 's answer make me get it. – StackedCrooked Jun 17 '11 at 9:25

The standard says (in paragraph 12.8.15):

This elision of copy operations is permitted in the following circumstances (which may be combined to eliminate multiple copies):

  • in a return statement in a function with a class return type, when the expression is the name of a non-volatile automatic object with the same cv-unqualified type as the function return type, the copy operation can be omitted by constructing the automatic object directly into the function’s return value

  • when a temporary class object that has not been bound to a reference (12.2) would be copied to a class object with the same cv-unqualified type, the copy operation can be omitted by constructing the tempo- rary object directly into the target of the omitted copy

Neither of these cases applies here, so the elision is not allowed. The first on is obvious (no return). The second is not allowed, because the object you pass in is not a temporary.

Note that your code is still fine, because you would have to create the copy anyway. To make away with that copy, you would have to use C++0x's move-semantics.

share|improve this answer
In C++11 the section number becomes §12.8/31, and there are 2 more circumstances where copy/move elision are allowed, but those are related to exception handling only. – kennytm Dec 13 '11 at 22:10

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