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What's the best practice for returning a pointer-to-non-const from a function, where that pointer was obtained by modifying a (non-const) pointer-to-const? Like this:

NODE *top_level(const NODE *input)
  while (input->parent != nullptr)
    input = input->parent;  // NODE::parent is (non-const) NODE*

  return input;  // Compile failure: 
                 // Cannot convert from 'const NODE *' to 'NODE *'

I could const_cast the const away on return, which seems fine, but is there a better way?

share|improve this question
Why does the parameter need to be const? – Luchian Grigore Feb 6 '13 at 11:54
"is there a better way"? Yes, return const. Since your input is const, the output should be const too. – Remus Rusanu Feb 6 '13 at 11:55
As top_level may return input, you should declare the parameter non-const or create two different implementations, one const, one non-const. – Mark Feb 6 '13 at 11:55
Why does it need to be const? Technically, it doesn't. The callers will always have non-const in hand. But the function doesn't modify *input, so why shouldn't it be const? In essence, the const here is not ensuring it can be called with const params; it's setting a no-mutation contract. Is that frowned on, semantically? – Chowlett Feb 6 '13 at 12:03
@Chowlett: what's frowned on is creating a function that lets callers write const NODE my_top_level_node = { NULL }; top_level(&my_top_level_node)->parent = whatever_else;. Your function smuggles away constness: the caller's code is const-unsafe but because of your function signature the compiler can't diagnose it. This is "more important" than documenting that the function doesn't change the input. Functions shouldn't modify pointer-to-const inputs, but it doesn't follow that all functions that don't themselves modify their inputs should take pointers-to-const. – Steve Jessop Feb 6 '13 at 12:52
up vote 6 down vote accepted

Best practice, at least in the standard library, is to provide const and non-const overloads. E.g. std::strchr is declared in <cstring> as

char *strchr(char *s, int c);
char const *strchr(char const *s, int c);

In a similar vein, functions like std::map<T>::find have overloads such as

iterator find(const Key& key);
const_iterator find(const Key& key) const;

Note that that there's no const qualifier on the first version, even though find itself has no reason to modify the map.(*) The point is that you get something out of find that can be used to modify the map, so by a kind of "transitivity of mutability", find cannot be const. The same situation applies in your problem, I think.

Alternatively, you could use a const_cast, but to me, that would feel like breaking a promise.

The funny thing about this situation is that, if you can guarantee that your function is never called on the top item of the tree (or whatever the input is), then there's no need for casts or overloads:

struct node {
    node *parent;

node *top(node const *n)
    node *p = n->parent;
    while (p->parent != 0)
        p = p->parent;
    return p;

compiles without any warnings.

(*) If std::map were implemented as a splay tree, find would have to modify it, but I don't think splay trees are allowed by the standard because of complexity guarantees.

share|improve this answer
Comment below duplicated: Mmm, I have done that before, with class member functions. This seems... different. The constness of the param isn't to enable const values to be passed in; it's contracting that the function won't mutate *input itself. – Chowlett Feb 6 '13 at 12:06
@Chowlett: that's similar to how strchr works in C: char *strchr(char const *s, int c). That function is impossible to implement in pure C without casting the const away. The C++ standard library does not use const in this way, as it actually conflicts with the semantics of const. – Fred Foo Feb 6 '13 at 12:13
So, in the case of a "non-mutation guarantee" const, you'd go with const_cast-ing? – Chowlett Feb 6 '13 at 12:15
@Chowlett: personally, I wouldn't put the const on the argument in the first place. I don't like const_cast, it feels like breaking a promise. – Fred Foo Feb 6 '13 at 12:17
Would you just not indicate that the function guarantees non-mutation, then? (I agree about const_cast for the most part, by the way) – Chowlett Feb 6 '13 at 12:19

[Edit: after both our edits, I think my answer and larsmans' are now the same but with things in a different order and different levels of detail for the different options. I encourage people not to bother upvoting this answer unless you see some important difference between it and larsmans'. I'll delete it if nobody finds one.]

If you're certain that the const-ness of *input should not imply that the function won't give you the means to modify some other node further up the list, then the fix is this:

NODE *top_level(const NODE *input_)
  NODE *input = const_cast<NODE*>(input_);
  while (input->parent != nullptr)
    input = input->parent;

  return input;

But this seems wrong to me, because the function can return the exact same pointer value that was passed in.

So, since it can give other code (albeit the caller) the means to modify its input, its input should not be marked as const. The "correct" solution is to provide const and non-const overloads, because that's how you avoid writing functions that "smuggle away constness", like the non-overloaded C version of strstr and other string search functions that return non-const.

If it weren't for the risk of removing const from a pointer to the same node (imagine that the input was somehow guaranteed not to be the top-level node, and imagine you're still sure that the constness of the first node shouldn't imply constness of other nodes in the list), then you could write it like this:

NODE *top_level(const NODE *input)
  NODE *result = input->parent;
  while (result->parent != nullptr)
    result = result->parent;

  return result;

Note that we no longer need the const_cast, it has disappeared when we added the assumption necessary to make the function itself a responsible const-safe citizen. The system works! ;-)

share|improve this answer
Did we just invent exactly the same example? – Fred Foo Feb 6 '13 at 12:29
@larsmans: yep, and we were editing at the same time so neither of us copied the other. This proves conclusively that we're right, doesn't it? ;-) – Steve Jessop Feb 6 '13 at 12:30
+1 for that, despite your disclaimer. – Fred Foo Feb 6 '13 at 12:38
Actually, I think the point "the function can return the exact same pointer value that was passed in" is an important difference. I can see the arguments that fudging the const-ness lets us "smuggle away constness", but in this particular case I know that's legit - except that I might put myNode in and get myNode out. So my takeaway is that what I'm doing is Just Wrong generally; but it's specifically wrong here because I might get out what I put in. – Chowlett Feb 6 '13 at 14:14

The usual solution, at the interface level at least, is to overload on const, providing two functions, NODE const* top_level( NODE const* input ) and NODE* top_level( NODE* input ). If you don't want to duplicate the code, you can then use const_cast to implement one in terms of the other.

share|improve this answer
Mmm, I have done that before, with class member functions. This seems... different. The constness of the param isn't to enable const values to be passed in; it's contracting that the function won't mutate *input itself. – Chowlett Feb 6 '13 at 12:06
@Chowlett But since the return value is related to the argument (in this case, at least)? The C++ standard does just this for functions like stdchr, where it is faced with exactly the same problem. – James Kanze Feb 6 '13 at 12:39
@Chowlett: it's a useful convention that functions that don't modify the object take a const*, but it's not the main purpose of const. The main use of const is that (in the absence of casts) it propagates, so taking a pointer-to-const means (again, in the absence of casts) "I won't modify it and I won't let anybody else modify it either, whether by passing it to them or by storing it away somewhere for them to see later, or by return value". The design of strstr etc in C++ shows you that const-propagation is considered more important than hinting the action of the function itself. – Steve Jessop Feb 6 '13 at 12:44

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