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In this talk (sorry about the sound) Chandler Carruth suggests not passing by reference, even const reference, in the vast majority of cases due to the way in which it limits the back-end to perform optimisation.

He claims that in most cases the copy is negligible - which I am happy to believe, most data structures/classes etc. have a very small part allocated on the stack - especially when compared with the back-end having to assume pointer aliasing and all the nasty things that could be done to a reference type.

Let's say that we have large object on the stack - say ~4kB and a function that does something to an instance of this object (assume free-standing function).

Classically I would write:

void DoSomething(ExpensiveType* inOut);
ExpensiveType data;
...
DoSomething(&data);

He's suggesting:

ExpensiveType DoSomething(ExpensiveType in);
ExpensiveType data;
...
data = DoSomething(data);

According to what I got from the talk, the second would tend to optimise better. Is there a limit to how big I make something like this though, or is the back-end copy-elision stuff just going to prefer the values in almost all cases?

EDIT: To clarify I'm interested in the whole system, since I feel that this would be a major change to the way I write code, I've had use of refs over values drilled into me for anything larger than integral types for a long time now.

EDIT2: I tested it too, results and code here. No competition really, as we've been taught for a long time, the pointer is a far faster method of doing things. What intrigues me now is why it was suggested during that talk that we move to pass by value, but as the numbers don't support it, it's not something I'm going to do.

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    Measure it, then tell us what you found. – Kerrek SB Sep 29 '15 at 13:24
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    @KerrekSB, I dislike the "measure it" responses on SO. I mean, sure, measure it and let us know what was found, but measuring it only gives you one answer on one compiler on one platform. It may yield completely different results on a different setup. However, understanding the logic behind why certain things are fast or slow helps people make a decision. Even if its just a case of "Compiler X can optimise Y in Z ways" is more useful than "This code runs in ABC time when run under setup X". Profiling and measuring are important and useful tools, but there's more to the story than that. – Dan Sep 29 '15 at 13:31
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    @Dan: Well, sorry that you don't like the answer, but that doesn't change the fact that it depends, and you can only make an informed decision if you have the data. – Kerrek SB Sep 29 '15 at 13:34
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    @LightnessRacesinOrbit I believe the logic is that since the compiler can track the lifetime completely and does not need to worry about pointer aliasing (you're passing a "copy" after all), the compiler has more freedom to optimise both the parameter and return value. The theory is that a modern compiler will eliminate the copies in this case (although I suppose it does depend on the contents of the function) - they already do it for the return value: en.wikipedia.org/wiki/Return_value_optimization so perhaps they also do for the args (but I don't know if they do). – Dan Sep 29 '15 at 13:39
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    @nwp: I fail to see how passing by value when you don't want a copy "describes the programmer's intent". – Lightness Races in Orbit Sep 29 '15 at 13:50
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I have now watched parts of Chandler's talk. I think the general discussion along the lines "should I now always pass by value" does not do his talk justice. Edit: And actually his talk has been discussed before, here value semantics vs output params with large data structures and in a blog from Eric Niebler, http://ericniebler.com/2013/10/13/out-parameters-vs-move-semantics/.

Back to Chandler. In the key note he specifically (around the 4x-5x minute mark mentioned elsewhere) mentions the following points:

  • If the optimizer cannot see the code of the called function you have much bigger problems than passing refs or values. It pretty much prevents optimization. (There is a follow-up question at that point about link time optimization which may be discussed later, I don't know.)
  • He recommends the "new classical" way of returning values using move semantics. Instead of the old school way of passing a reference to an existing object as an in-out parameter the value should be constructed locally and moved out. The big advantage is that the optimizer can be sure that no part of the object is alisased since only the function has access to it.
  • He mentions threads, storing a variable's value in globals, and observable behaviour like output as examples for unknowns which prevent optimization when only refs/pointers are passed. I think an abstract description could be "the local code can not assume that local value changes are undetected elsewhere, and it cannot assume that a value which is not changed locally has not changed at all". With local copies these assumptions could be made.

Obviously, when passing (and possibly, if objects cannot be moved, when returning) by value, there is a trade-off between the copy cost and the optimization benefits. Size and other things making copying costly will tip the balance towards reference strategies, while lots of optimizable work on the object in the function tips it towards value passing. (His examples involved pointers to ints, not to 4k sized objects.)

Based on the parts I watched I do not think Chandler promoted passing by value as a one-fits-all strategy. I think he dissed passing by reference mostly in the context of passing an out parameter instead of returning a new object. His example was not about a function which modified an existing object.

On a general note:

A program should express the programmer's intent. If you need a copy, by all means do copy! If you want to modify an existing object, by all means use references or pointers. Only if side effects or run time behavior become unbearable; really only then try do do something smart.

One should also be aware that compiler optimizations are sometimes surprising. Other platforms, compilers, compiling options, class libraries or even just small changes in your own code may all prevent the compiler from coming to the rescue. The run-time cost of the change would in many cases come totally unexpected.

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Perhaps you took that part of the talk out of context, or something. For large objects, typically it depends on whether the function needs a copy of the object or not. For example:

ExpensiveType DoSomething(ExpensiveType in) 
{
    cout << in.member;
}

you wasted a lot of resource copying the object unnecessarily, when you could have passed by const reference instead.

But if the function is:

ExpensiveType DoSomething(ExpensiveType in) 
{
    in.member = 5;
    do_something_else(in);
}

and we did not want to modify the calling function's object, then this code is likely to be more efficient than:

ExpensiveType DoSomething(ExpensiveType const &inr) 
{
    ExpensiveType in = inr;
    in.member = 5;
    do_something_else(in);
}

The difference comes when invoked with an rvalue (e.g. DoSomething( ExpensiveType(6) ); The latter creates a temporary , makes a copy, then destroys both; whereas the former will create a temporary and use that to move-construct in. (I think this can even undergo copy elision).

NB. Don't use pointers as a hack to implement pass-by-reference. C++ has native pass by reference.

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