I want to write my own algorithm (just a function really) that takes a range of iterators. If the iterators are from a map, I want to use the data (iterator->second) value. If the iterator is "normal" like a vector or list, I just want to use the dereferenced iterator value.
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1I would recommend adapting the iterator instead. I posted two examples of a key iterator in an answer to another question. It would be trivial to transform either of those into a value iterator.– James McNellisAug 16, 2012 at 19:22
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I like that, but unfortunately I can't count on having boost on all the systems.– John GordonAug 16, 2012 at 19:26
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1Keep reading: the second implementation presented in that answer does not make use of Boost.– James McNellisAug 16, 2012 at 19:26
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1An iterator adapator is the correct solution. Your function should not change behavior just because my value type happened to be a pair. It's the caller's job to make sure the range is correctly defined, not yours.– GManNickGAug 16, 2012 at 23:07
5 Answers
I think, value-getter idea is right here, but you can implement it without c++11
and without structs at all, only using functions:
template <typename T>
const T& get(const T& t)
{
return t;
}
template <typename T, typename V>
const V& get(const std::pair<T,V>& t)
{
return t.second;
}
int main()
{
std::vector<int> v = {1};
std::cout << get(*v.begin());
std::cout << "\n----\n";
std::map<int, std::string> m;
m.insert(std::make_pair(0, "sss"));
std::cout << get(*m.cbegin());
}
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1I really like this. It's simple, reduces the amount of code that's specialized, and will compile on the old collection of compilers I'm stuck with. Aug 16, 2012 at 19:33
You can make a value-getter class that extracts the value you're interested in. Note that this approach doesn't work if you store pair
s in any container (it transforms all pair
s, whether in a map or not). I'd think it would be a much clearer approach to only accept "regular" iterators and let it be callers job to transform map iterators appropriately (as suggested in the comments to your question.)
template<typename T>
struct get {
static auto val(const T& t) -> const T&
{
return t;
}
};
template<typename U, typename V>
struct get<std::pair<U, V>> {
static auto val(const std::pair<U, V>& p) -> const V&
{
return p.second;
}
};
// use like
get<decltype(*iter)>::val(*iter);
Convenience function could look like:
template<class T>
auto getval(const T& t) -> decltype(get<T>::val(t))
{
return get<T>::val(t);
}
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I'll give this an upvote if you add the convenience function. I started to do it on the fly, but it's not trivial. <g> Aug 16, 2012 at 19:08
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1
You can overload the function based on the input:
void foo(const std::vector<int>::iterator& it1, const std::vector<int>::iterator& it2)
{
//use *it
}
void foo(const std::map<int,int>::iterator& it1, const std::map<int,int>::iterator& it2)
{
//use it->second
}
Edit:
I think this is the closest you can get to what you want to achieve:
template <typename T, typename X>
void foo(T const& x, X const& y)
{
}
template <typename T, typename S>
void foo(const typename std::map<T,S>::iterator& x, const typename std::map<T,S>::iterator& y)
{
}
int main()
{
std::map<int,int> x;
std::vector<int> y;
foo(x.begin(), x.end()); //will call second version
foo(y.begin(), y.end()); //will call first version
}
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perhaps I was too specific in the title, but I was hoping to avoid specific container names, so I wouldn't have to write a separate function for every container type. Maybe I'm looking for a way to overload based on the value_type being a pair or not. Aug 16, 2012 at 18:57
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@JohnGordon see edited answer, perhaps it's closer to what you need. Aug 16, 2012 at 19:01
A trait should do the trick. First the type-deducing helper:
template <typename Iter>
typename iter_value<Iter>::value_type & iter_deref(Iter it)
{
return iter_value<Iter>::deref(it);
}
All we need is something like this:
template <typename Iter>
class iter_value
{
template <typename T> struct aux
{
typedef T type;
static type & deref(Iter it) { return *it; }
};
template <typename U, typename V> struct aux<std::pair<U const, V>>
{
typedef V type;
static type & deref(Iter it) { return it->second; }
};
typedef typename std::iterator_traits<Iter>::value_type type;
public:
typedef typename aux<type>::type value_type;
static value_type & deref(Iter it)
{
return aux<type>::deref(it);
}
};
You can create a function that extracts the value out of the iterator. Then you can overload that based on the type of the iterator. You can use that function in your algorithm. Assuming a vector of ints
and a map of string
->int
, it could look like this:
int getValue(const std::vector<int>::iterator& it)
{
return *it;
}
int getValue(const std::map<std::string, int>::iterator& it)
{
return it->second;
}
Then the algorithm can use the function getValue()
to get a value from the iterator.