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struct TestConstRef {
    std::string str;
    Test(const std::string& mStr) : str{mStr} { }

struct TestMove {
    std::string str;
    Test(std::string mStr) : str{std::move(mStr)} { }

After watching GoingNative 2013, I understood that sink arguments should always be passed by value and moved with std::move. Is TestMove::ctor the correct way of applying this idiom? Is there any case where TestConstRef::ctor is better/more efficient?

What about trivial setters? Should I use the following idiom or pass a const std::string&?

struct TestSetter {
    std::string str;
    void setStr(std::string mStr) { str = std::move(str); }
share|improve this question
That claim seems dubious to me. Passing by const& and then initializing will call a single copy constructor. Passing by value and moving will call a copy constructor followed by a move assignment operator. – Yuushi Sep 7 '13 at 13:29
@Yuushi: In general, the move constructor of most classes is nearly free (equivalent to a swap). Also, you are forgetting the cases where you initialize the argument from a temporary (or a moved-from variable). – Matthieu M. Sep 7 '13 at 13:31
@MatthieuM. I realize that the move constructor is generally nearly free. However, if you are initializing from a temporary/moved from variable, why not declare it to take an rvalue reference explicitly? – Yuushi Sep 7 '13 at 13:35
@Yuushi Then it doesn't work for anything else. Sure, you can overload, but it's and extra code (even if you don't type it out twice, it can lead to the same problems as excessive inlining or template bloat). Just to save a single move, which is usually as cheap as handing over a reference (perhaps it has to touch two words instead of one, but that's like one clock cycle). – delnan Sep 7 '13 at 13:38
up vote 17 down vote accepted

The simple answer is: yes.

The reason is quite simple as well, if you store by value you might either need to move (from a temporary) or make a copy (from a l-value). Let us examine what happens in both situations, with both ways.

From a temporary

  • if you take the argument by const-ref, the temporary is bound to the const-ref and cannot be moved from again, thus you end up making a (useless) copy.
  • if you take the argument by value, the value is initialized from the temporary (moving), and then you yourself move from the argument, thus no copy is made.

One limitation: a class without an efficient move-constructor (such as std::array<T, N>) because then you did two copies instead of one.

From a l-value (or const temporary, but who would do that...)

  • if you take the argument by const-ref, nothing happens there, and then you copy it (cannot move from it), thus a single copy is made.
  • if you take the argument by value, you copy it in the argument and then move from it, thus a single copy is made.

One limitation: the same... classes for which moving is akin to copying.

So, the simple answer is that in most cases, by using a sink you avoid unnecessary copies (replacing them by moves).

The single limitation is classes for which the move constructor is as expensive (or near as expensive) as the copy constructor; in which case having two moves instead of one copy is "worst". Thankfully, such classes are rare (arrays are one case).

share|improve this answer
Thanks for the clear reply! Does this apply to trivial setters as well? (second example in the original post, edited in later) – Vittorio Romeo Sep 7 '13 at 14:05
"yes" is the answer to which question? :) – BЈовић Sep 7 '13 at 14:10
@VittorioRomeo: to any method which makes a copy of the argument, be it constructor, setter, or just some destructive computation. – Matthieu M. Sep 7 '13 at 17:40
@MatthieuM. Have you profiled this? Before searching SO I was considering this myself, and in every instance that I've tested, passing by value is consistently slower on both g++ 4.8.1 and clang++ 3.4. I tested with a string member and in the case of passing by reference to the setter where the member already had enough space allocated (non empty string), the pass by value was drastically slower. This was all passing lvalues, I've not looked at rvalues yet. – Troy Oct 6 '13 at 22:43
@Troy: I suspect that the gain is due to the member having enough space allocated, and the assignment operator taking advantage of it by overwriting the existing string in place without allocation. On the other hand when you use the pass-by-value idiom, the copy made need allocate new storage; memory allocation is not cheap (especially when using the default allocator). Indeed, I had not considered that in the case of a setter, the copy could be made via a copy assignment operator, which has different dynamics than a copy constructor. – Matthieu M. Oct 7 '13 at 6:38

A bit late, as this question already has an accepted answer, but anyways... here's an alternative:

struct Test {
    std::string str;
    Test(std::string&& mStr) : str{std::move(mStr)} { } // 1
    Test(const std::string& mStr) : str{mStr} { } // 2

Why would that be better? Consider the two cases:

From a temporary (case // 1)

Only one move-constructor is called for str.

From an l-value (case // 2)

Only one copy-constructor is called for str.

It probably can't get any better than that.

But wait, there is more:

No additional code is generated on the caller's side! The calling of the copy- or move-constructor (which might be inlined or not) can now live in the implementation of the called function (here: Test::Test) and therefore only a single copy of that code is required. If you use by-value parameter passing, the caller is responsible for producing the object that is passed to the function. This might add up in large projects and I try to avoid it if possible.

share|improve this answer
As far as I understand, this is the best possible approach in terms of performance and codegen, but requires one extra constructor - correct? – Vittorio Romeo Sep 7 '13 at 14:48
@VittorioRomeo: Yes, that is the drawback - you always need two overloads. If a method has multiple parameters, this can become quite a burden and its worth to consider going back to by-value parameters. – Daniel Frey Sep 7 '13 at 14:51
Sounds like a language defect, to be honest. The number of required ctors may grow exponentially... is there any proposal to fix this? – Vittorio Romeo Sep 7 '13 at 15:00
I agree, it does seem like a language defect. Would be nice to be able to have a single constructor such as you can when using templates and perfect forwarding. – Troy Oct 6 '13 at 22:45
What if I need to accept two parameters in constructor - should there be 4 overloads of constructor? – bayda Nov 11 '13 at 14:17

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