1

Im in need of an object that can wrap a lazy initialization for a try_emplace with map (in effect calling a factory type of function only when needed), so that the following will convert ok in try_emplace:

std::map<std::string, bool> cache_;
cache_.try_emplace("hello", lazy_wrapper([]{return true;}));

or perhaps

std::map<std::string, whatever_wrapper<bool> > cache_;
cache_.try_emplace("hello", []{return true;});

I imagine that should be possible, but mainly on the lookout for an off-the-shelf solution (eg. std / boost) compared to rolling my own wrapper.

5
  • What'd you try?
    – Barry
    Jun 25 '20 at 14:13
  • I tried provide the lambda naked, that ofc. didnt compile. I guess it's easy enough to make a class type that will convert, but like I said im mostly interested if an off-shelf solution already exists.
    – darune
    Jun 25 '20 at 14:15
  • 1
    Alas in a perfect (forwarding) world; P0927R0: Towards A (Lazy) Forwarding Mechanism for C++.
    – dfrib
    Jun 25 '20 at 14:20
  • In terms of laziness, do you mean that the function doesn't get called unless the key is not present in the map? Jun 25 '20 at 14:24
  • @NicolBolas thats correct
    – darune
    Jun 25 '20 at 14:25
2

The following is a hand-made solution i just threw together in a few minutes, that does the job, but Im mostly on the lookout for some kind of off-the-shelf solution:

template<class F>
struct lazy_wrap {
    F f_;
    lazy_wrap(F&& f) : f_(f) {}
    template<class T>
    operator T() {
        return f_();
    }
};
2
  • This will evaluate f each time to get a T, I wouldn't call that "lazy"
    – Caleth
    Jun 25 '20 at 14:24
  • 1
    Oh, this is for std::map<std::string, bool>, not std::map<std::string, lazy_wrap<bool>>
    – Caleth
    Jun 25 '20 at 14:29
0

You ultimately will have to implement the try-emplace logic yourself, since there's no simple function to do it.

template<typename Map, typename Key, typename Func>
auto lazy_try_emplace(Map &map, const Key &key, Func f)
{
    auto it = map.find(key);
    if(it == map.end())
      return map.emplace(key, f());
    return std::pair(it, false);
}

Yes, this looks up the element twice, but there's no way to avoid that without actually being part of the std::map implementation (which is why try_emplace exists at all). Search time could be minimized by replacing map.find with map.lower_bound, changing the conditional test to see if the key is not equal to key, and using emplace_hint with that iterator.

-1

Do you really need a wrapper? You could do this instead:

// C++20
if (!cache_.contains("hello"))
    cache_.emplace("hello", [] { return true; });

// pre C++20
if (cache_.count("hello") == 0)
    cache_.emplace("hello", [] { return true; });

Simple, clear, no headache.

2
  • 1
    this does a double lookup
    – Caleth
    Jun 25 '20 at 14:37
  • 1
    I dont really need a wrapper as you say (map.find works too) - but it's more expressive that way with one line of code. On the same token we don't need try_emplace in the first place.
    – darune
    Jun 25 '20 at 14:40

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