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I'm trying to understand the difference between const ref and in, specially when it comes to performance.

  1. I know that in is equivalent to const scope, but what does the scope stor­age class means that ref­er­ences in the pa­ra­me­ter can­not be es­caped (e.g. as­signed to a global vari­able). mean? example code is welcome.

  2. How do I decide between const ref and in when implementing a function? I know with ref the object doesn't get copied because it's a reference, but is the same true with in?

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2 Answers 2

up vote 9 down vote accepted

1) the scope parameter storage class means that you're not allowed to escape a reference to the parameter. Example:

Object glob;

struct S
    Object o;
    void foo(scope Object o)
         this.o = o; // Not allowed! 'o' must not be escaped
         glob = o; // ditto

Note that DMD is not very good at detecting this. The above example currently compiles, but is not allowed.

scope is most useful for delegate parameters:

void foo(scope void delegate() dg)
    /* use dg */

void main()
    int i;
    foo({ ++i; });

In the above example, no closure needs to be allocated for the anonymous function even though it has an upvalue, because foo "guarantees" (it is the compiler's job...) that the delegate isn't escaped. DMD currently does implement this optimization.

2) I think the idea is that when both const and scope is used, the compiler could theoretically pass by reference or value at will, which is why the in shortcut is useful. DMD doesn't take advantage of this right now, but it's a handy shortcut nevertheless, and it has some documentation value.

In short, in won't currently gain you any performance unless it's used on a delegate. ref can gain you some performance with large structs or static arrays. When ref is used for performance reasons, const is often used to document (and enforce) that the ref is not used to update the original value.

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1. good, that explains why I wasn't able to reproduce the effect. 2. so, are you saying that if a parameter of a function has in storage class, it gets copied? should I be using const ref then? –  Arlen Dec 15 '11 at 6:13
With the current compiler selection, all based on DMD, it does get copied. But the neat thing about it is that it's still technically implementation defined because the user cannot tell the difference. For DMD to take advantage of this for optimization, it needs to fully implement scope first. If you have identified the copying as a bottleneck and you want to optimize, using const ref is a good idea. –  jA_cOp Dec 15 '11 at 6:16
How do you know so much about DMD? are you one of the core-devs? –  Arlen Dec 15 '11 at 6:32
Two things of note. 1. The language spec would have to be changed to allow the compiler to pass an in parameter by ref. in is clearly defined as const scope, and changing that would be a breaking change to the ABI. auto ref is what's used if you want a function to be able to take either a ref or not (and it's a bit buggy at the moment IIRC). You may or may not be able to mix auto ref with const. I don't know. 2. A huge difference between in and const ref which you don't cover at all is the fact that const ref must take an lvalue, whereas in doesn't have to. –  Jonathan M Davis Dec 15 '11 at 21:09
@jA_cOp The spec specifically says that in is the same as const scope, so it's not a choice of the optimizer at this point, even if it theoretically could be. And just because an ABI change primarily affects stuff like shared libraries doesn't mean that it doesn't matter - especially since that sort of stuff affects the linking phase, which is after all of the compilation (including optimizations) was done. It could be that in will be changed at some point to be more flexible as you suggest, but it would require a spec change, so dmd can't optimize it at this point. –  Jonathan M Davis Dec 16 '11 at 10:12
  1. It's not legal for scope parameters to escape the function. The compiler is supposed to guarantee that no references to that data escape the function. It's used primarily with delegates, since it allows the compiler to avoid allocating a closure, since it knows that the delegate won't escape.

  2. const ref is const - just like in would be - but the variable is passed by reference instead of being copied, so you avoid a copy. However, unlike C++ const ref does not work with rvalues. It must be given an lvalue. So, if you declare a parameter to be const ref, it's going to be limiting in what you can pass to it. You'll generally have to declare a variable to pass to it, whereas in will accept a temporary.

    void func(const ref int var) {}
    int a;
    func(a); //legal
    func(7); //illegal

Both of those calls would be legal if func took const or in. So, in general, the question is not whether you should use const ref or in. The question is whether you should use const or in. And in that case, the question is whether you want to use scope or not, since they're both const. And you use scope if you want to ensure that no reference to variable that you pass in will escape that function, so it's generally only used with delegates but could be useful with classes or arrays.

However, pure on a function guarantees that no references to any of its arguments can escape except via the return value (since pure functions can only use global variables if they're immutable or are value types and are const), so pure generally gives you all that you need for parameters which are classes and arrays. In addition, if the return type is a class or array, you general don't want to make it so that the arguments can't escape, because then instead of being able to reuse anything from those arguments in the return value, the function is forced to make a copy, which is generally less efficient.

So, scope is generally only of use with delegates, but upon occasion is useful with classes or arrays. It's already generally preferable for functions to be pure anyway, so that takes care of most of the issue. As such, while it doesn't hurt to use in, there's often little point in using in instead of const. And you generally only use const ref if you really want to avoid copying the variable being passed in, because otherwise you can only pass lvalues to that function. You can overload a function such that it has version which takes const and one which takes const ref, but that obviously results in code duplication, so unless you really want const ref, it's probably just best to use const.


scope has yet to be implemented for anything other than delegates (as of 2013-06-18), so using either scope or in with anything other than delegates is ill-advised. At the moment, they're misleading, and if/once scope is implemented for anything other than delegates, there's a high risk that your code will break due to references to the variables marked with scope or in escaping.

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Isn't it true that in doesn't quite work the way it should because scope isn't fully implemented in DMD? Wouldn't it be a breaking change once scope is fully implemented for those who have used in incorrectly? –  Arlen Dec 16 '11 at 3:06
Assuming that scope is buggy (and it may very well be; I don't use it much, so I'm not exactly sure of its current state), then yes, it would be a breaking change for any code that used scope or in incorrectly, but that's the same with pretty much any compiler bug. Fortunately, the number of such issues in dmd has been dropping significantly due to the fast pace of development since moving to github, but it's certainly still possible to run into issues where a feature isn't implemented correctly. –  Jonathan M Davis Dec 16 '11 at 7:02
scope isn't really buggy, it's just not implemented at all except for an optimization. pure is rarely a good alternative to scope because with a pure member function, you can still escape the parameter by assigning it to a member field, and pure has other, unrelated restrictions. If scope was fully implemented, it would be useful for a great number of cases, such as being able to safely pass slices to stack memory to a function receiving it with scope. –  jA_cOp Dec 16 '11 at 8:22
The uses for scope and pure are different, but in general, pure is plenty, and scope is overly restrictive. For instance, in most cases, you want references to arrays to be able to escape, since otherwise you would have to dup them instead of slicing them. pure should generally be used unless you can't, whereas scope should generally only be used if a particular situation requires it. –  Jonathan M Davis Dec 16 '11 at 10:15
I don't see how scope could be described as overly restrictive. You only use it when you don't need to escape references, for documentation purposes and optimization opportunities. It does one thing and one thing only. pure has an unrelated and much broader meaning. Yes, you should use pure whenever you can, but it has nothing to do with scope. –  jA_cOp Dec 16 '11 at 11:14

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