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Note: I'm tagging this Python and C++ because I've seen examples in both, but the question is language-agnostic.

A function or class method that modifies an object has two choices: modify the data directly in the object in question, or create a new copy and return it while leaving the original untouched. Generally you can tell which is which by looking at what's returned from the function.

Occasionally you will find a function that tries to do both, modify the original object and then return a copy or reference to that object. Is there ever a case where this provides any advantage over doing only one or the other?

I've seen the example of the Fluent Interface or Method Chaining that relies on returning a reference to the object, but that seems like a special case that should be obvious in context.

My first bad example comes straight from the Python documentation and illustrates the problem of mutable default parameters. To me this example is unrealistic: if the function modifies its parameter then it doesn't make sense to have a default, and if it returns a copy then the copy should be made before any modifications take place. The problem only exists because it tries to do both.

def f(a, L=[]):
    return L

The second example comes from Microsoft C++ in the CStringT::MakeUpper function. The documentation says this about the return value:

Returns a copy of the string but in all uppercase characters.

This leads one to expect that the original remains unchanged. Part of the problem is that the documentation is misleading, if you look at the prototype you find that it's returning a reference to the string. You don't notice this unless you look closely, and assigning the result to a new string compiles with no error. The surprise comes later.

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I'm not sure this question has an answer other than people's opinions. My opinion is strongly no, it doesn't make sense. And your comment on the Python's mutable default argument problem example is something I've been saying for a while; the real problem isn't with the mutable default argument, but that the argument (which may still be used externally) is modified in-place. –  Ben Oct 9 '12 at 22:53
@Ben, it could be answered by a good counter-example. –  Mark Ransom Oct 9 '12 at 22:54
@delnan, a function isn't expected to modify its argument unless it's explicitly documented as doing so, thus the default argument is never modified. If modifications are necessary then a copy should be made regardless of whether the default is used or not. –  Mark Ransom Oct 9 '12 at 23:04
@rici you need to check out sorted. –  Mark Ransom Oct 9 '12 at 23:09
@rici, no it's exactly the opposite - there's one function to mutate in-place and another to return a modified result. You don't have one function that does both. –  Mark Ransom Oct 9 '12 at 23:15

2 Answers 2

C++ Example Inc/Dec operator

// Pre-Increment: Create a new object for return and modify self.
myiterator  operator++(int) {myiterator tmp(*this); operator++(); return tmp;}

// Post-Increment: modify self and return a reference
myiterator&  operator++() {/* Do Stuff*/ return *this;}
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Great example, hiding in plain sight. –  Mark Ransom Oct 10 '12 at 1:44
I don't think this really fits. You either have copy made and returned (which is not modified), or no copy made and reference returned. –  Xeo Oct 10 '12 at 3:40
@Xeo: Pre: Is 1) Copy. 2) Modify Self (In Place). 3) Return copy. –  Loki Astari Oct 10 '12 at 16:28

There are some obvious examples in C++ where you want to modify the object and return a reference:

  1. Assignment:

    T & T::operator=(T && rhs)
        ptr = rhs.ptr;
        rhs.ptr = nullptr;
        return *this;

    This one modifies both the object itself and the argument, and it returns a reference to itself. This way you can write a = b = c;.

  2. IOStreams:

    std::ostream & operator<<(std::ostream & os, T const & t)
        os << t->ptr;
        return os;

    Again, this allows chaining of operations, std::cout << t1 << t2 << t3;, or the typical "extract and check" if (std::cin >> n) { /* ... */ }.

Basically, returning a reference to one of the input objects always serves to either chain calls or to evaluate the resulting state in some form or another, and there are several useful scenarios for this.

On the other hand, modifying an argument and then returning a copy of the object appears to be less useful.

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These are good examples, but one could argue that they both fall under the category of "method chaining," which the question excludes as a special case. –  senderle Oct 9 '12 at 23:24
@senderle: Well... if you're going to discard the return value, then discussing the return type is moot. And if you are using the return value, then that's always a type of "chaining", isn't it? –  Kerrek SB Oct 9 '12 at 23:33
@KerrekSB Not if you can come up with a good use case where a different object is returned. –  delnan Oct 9 '12 at 23:34
Note that a = b = c becomes a = (b = c), so returning a copy would do. For chaining, (a = b) = c needs the reference. –  GManNickG Oct 9 '12 at 23:51

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