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I really like the new concept of free begin end to write more generic algorithms and data structures. Currently it sometimes happens to me that I have to differentiate between calls begin(range) and begin(*range) when a type holds a reference to a collection as pointer. I thought about if it is a good idea to always provide an overload of begin/end for pointers for my own collection types.

struct Container {
    int values[3];

const int* begin(const Container& c);
const int* end(const Container& c);
const int* begin(const Container* c);
const int* end(const Container* c);

template<typename Range>
int Sum(const Range& range)
    return std::accumulate(begin(range), end(range), 0);

int main(void)
    Container c = {1, 2, 3};
    std::cout << Sum(c);
    std::cout << Sum(&c);

If this was a good idea why not provide a template for this:

template<typename Range>
auto begin(const Range* r) -> decltype(begin(*r)){
    using std::begin;
    return begin(*r);

template<typename Range>
auto end(const Range* r) -> decltype(end(*r)) { /* ... */ }

int main(void)
    Container c = {1, 2, 3};
    std::vector<int> v = {1, 2, 3}
    std::cout << Sum(c);
    std::cout << Sum(&c);
    std::cout << Sum(v);
    std::cout << Sum(&v);

If this was a good idea why doesn't the standard library define it?

My question is: Is there anything wrong with a template<typename R> auto begin(const R* r) template? Are there any cases where this fails for some reason?

share|improve this question
+1 for the question but I have to say that I struggle to see the benefit. I’d probably abstain from it. –  Konrad Rudolph Dec 17 '12 at 16:32
If Sum(&c) works, then Sum(&&c) would also work (recursively); Sum(&&&c) too. Ad infinitum. So I don't think that is a good idea. –  Nawaz Dec 17 '12 at 16:36
@KonradRudolph If i change type of an argument, field, variable etc. from reference to pointer, I don't have to change code to begin(*x). In generic code I don't need specializations for pointers. –  hansmaad Dec 17 '12 at 16:36
Why not Sum(*c)? Generally, treating U = T* and U = T& and U = T identically should be done with caution -- a U = T* is not the same thing as a U = T. As an example, U tmp = u;, or U tmp; tmp = u; or swap(u, U()) all behave very differently when you have a pointer or reference instead of an instance. Ie, in generic code you should have specializations for pointers. –  Yakk Dec 17 '12 at 16:37
@hansmaad does that happen often enough to be problematic? Also, do you have variables that are so ubiquitously used that changing that code is an unbearable chore? –  R. Martinho Fernandes Dec 17 '12 at 16:38

1 Answer 1

up vote 4 down vote accepted

If you do this you can no longer use std::begin() and std::end() overloaded for arrays:

Container c[2] = { };
std::accumulate(begin(c), end(c), 0);

This shouldn't compile, because you can't add c[i] to 0, but it does because the begin(Container*) overloads are selected instead of the generic std::begin(T (&)[N]) one.

For another example:

Container c[2] = { };
auto dist = std::distance(begin(c), end(c));

this should set dist=2, because the array has two elements, but instead you get dist=3 because end(*c) - begin(*c) equals 3.

share|improve this answer
More generally, a problem occurs any time you have containers in containers. It becomes ambiguous as to which level of coontainer begin/end should refer to. –  Chris Dodd Dec 17 '12 at 20:05
@ChrisDodd, does it? I see an ambiguity for arrays of containers vs pointers to containers, due to the implicit array-to-pointer conversion, but I don't see how vector<list<T>> could match the proposed begin(const Range*) overload, or how *r would be a valid expression for arbitrary containers, it's only valid for arrays or pointers. –  Jonathan Wakely Dec 17 '12 at 20:19
Yes, that's a problem, thank you! –  hansmaad Dec 18 '12 at 6:59

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