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How does the compiler determine when it is safe to RVO? And no, I don't mean the rvalue, but the lvalue - if I understand correctly RVO works by "forwarding" the target address to the method, so it returns into the target address instead of the address of a temporary and then copy/assign to the target.

But how does the compiler know it is safe to perform a RVO? What if the lvalue already has some data in it, including dynamically allocated resource? A RVO in such a case may result in a leaked resource. Mayhaps there are some rules which specify whether it is applicable to perform the optimization or stick to using copy or assignment?

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RVO cannot result in a leaked resource (for a sane type). The object is constructed in the same place the called expects the return value to be. The exact rules may depend on the implementation though, they are not mandated by the standard. – juanchopanza Dec 17 '13 at 12:51
How can it result in a leaked resource? It behaves like if you passed the variable you're copying to as a reference parameter – szx Dec 17 '13 at 12:55
If it is a "constructor" type of function which allocates dynamic resource to a member pointer, running that function twice on the address of the same object will allocate the resource twice, I assume a "constructor type" function will directly allocate instead of checking if the pointer already allocates. Which would make sense for a "constructor type" function. So the first resource will leak... – user2341104 Dec 17 '13 at 12:56
Why would the constructor be called twice? – Joseph Mansfield Dec 17 '13 at 12:57
@sftrabbit - well, I explicitly put it in "" and called it a "constructor" type of function, not a constructor per se. Let's say ` T a = foo1(); .... a = foo2()` - it is safe for foo1 to apply RVO, but if foo2 applies it, dynamic resources will leak. – user2341104 Dec 17 '13 at 13:00
up vote 3 down vote accepted

RVO can only initialise a new object, not reassign an existing object. So in this case:

Thing thing = make_thing();

the address of thing is passed to the function, which initialises it in place.

In this case:

thing = make_thing();

RVO (in general) creates a temporary, which is then assigned to thing. There will be no leaks or similar issues, as long as the type is correctly assignable. Since it's a temporary rvalue, it can be moved from, which might be more efficient than copying. If the type is trivially assignable, then this assignment could also be elided - the compiler will know whether this is the case when it chooses how to call the function.

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So, there is a rule "rvo can only be applied to "new" objects" but how does the compiler determine when an object is new? If it is only instantiated and nothing else? Does that mean that even operations that do not technically obstruct rvo will disable the optimization if used with the object between the instantiation and point of rvo? – user2341104 Dec 17 '13 at 13:03
@user2341104: The rules for when copies and moves can be elided are quite complicated, but that's a reasonable simplification. The compiler can see that the object is new because the function call is part of its initialiser. If it's being reassigned (as in my second example), then (in general) RVO is used to initialise a temporary to assign from, as I described. – Mike Seymour Dec 17 '13 at 13:07
So, T t = foo() will use RVO, but T t; t = foo() will not (with nothing else happening in between the two statements)? In other words, does the compiler need the assignment to be part of the instantiation or maybe it has other ways of determine if assignment is the first method being called after the point of instantiation? – user2341104 Dec 17 '13 at 13:09
@user2341104: The first case isn't assignment - it's initialisation. RVO can be used for initialisation, but not (in general) for assignment. – Mike Seymour Dec 17 '13 at 13:10
There seems to be some confusion here as to what RVO is. RVO is independent of what the caller is doing; it occurs in the function doing the return. (Other optimizations, like the ones described in the section on initialization, do apply.) – James Kanze Dec 17 '13 at 14:08

Return value optimization is a particular case of copy elision. It may occur in the following situation as described by the standard:

in a return statement in a function with a class return type, when the expression is the name of a non-volatile automatic object (other than a function or catch-clause parameter) with the same cv- unqualified type as the function return type, the copy/move operation can be omitted by constructing the automatic object directly into the function’s return value

There is no reason this should result in a memory leak. If the class performs some dynamic allocation in its constructor, this will happen when the object is constructed directly into the function's return value.

In response to your comment (where foo1 and foo2 both construct T objects and return them):

T a = foo1();
a = foo2();

We're not only looking at RVO here, but another kind of copy elision that occurs when attempting to construct an object from a temporary.

In the first line, two copies/moves can be elided:

  1. Returning the constructed object from foo1
  2. Copying the returned object into a

That is, the object constructed in foo1 can be directly created in the location of a. If the constructor dynamically allocates some object, that will only be done once, for the a object.

In the second line, a single copy/move can be elided - only the return from the function. So the object that foo2 constructs will be created directly in the return value of the function, then it will be copy/move assigned into a. Copy/move assignments aren't elided.

It is then up to the copy/move assignment operator to ensure that the original allocated resource is discarded safely and the only remaining resource is the one that was created inside foo2.

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If the object has already allocated something? – user2341104 Dec 17 '13 at 12:57
@user2341104 But it is only constructed once, directly into the function's return value. – Joseph Mansfield Dec 17 '13 at 12:58
see my comment to the question – user2341104 Dec 17 '13 at 13:00
@user2341104 Response in my answer. – Joseph Mansfield Dec 17 '13 at 13:10

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