1

When I try this:

#include <optional>                                                                         using namespace std;                                                                        
int main() {
    return make_optional(2) + make_optional(3);
}

I get this:

error: no match for ‘operator+’ (operand types are ‘std::optional<int>’ and
 ‘std::optional<int>’)
    5 |     return make_optional(2) + make_optional(3);
      |            ~~~~~~~~~~~~~~~~ ^ ~~~~~~~~~~~~~~~~
      |                         |                  |
      |                         optional<[...]>    optional<[...]>

It seems natural to add optional types same as size_t types. ~~I know Haskell supports this natively~~ (EDIT: this assumption is not entirely correct). Of course I could write a helper function. My intention of asking is to make sure there is no simpler way to do this. And before you suggest, yes I have googled, RTFM'ed, etc.

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8
  • 1
    You should ask yourself if you still want to use an optional if you need to do math on the data type: there will be wrapping/unwrapping overhead. Anyhow: C++ is not Haskell. Completely different languages actually, different philosophy, different purposes.
    – JHBonarius
    Apr 19, 2021 at 6:52
  • Why do you think this is uncommon? I can think of several instances where this is needed. Binary search for example. Anyhow, as you said, different languages.
    – sprajagopal
    Apr 19, 2021 at 8:33
  • ? A binary search doesn't require arithmetic (of the elements) and arithmetic doesn't require binary search. std:optional is quite new in C++ (2017 standard), and it's not a zero-cost abstraction. Boost::Optional is older (2003?). Before that people seemed to be happy just check the result from a std::find (=binary search) and execute code based on that. No common need to remember the 'optionality' of a value and transport that all around. (Or sometimes a pointer with nullptr would be used, to indicate it doesn't have a value). C++ is used for other purposes.
    – JHBonarius
    Apr 19, 2021 at 9:33
  • I think you misunderstood. Binary search (or any search for that matter) may or may not return a valid index. Implemented recursively and with optional, this would involve adding. Anyway, the rest of your comment is probably valid. I don't know much about the history.
    – sprajagopal
    Apr 19, 2021 at 10:13
  • @sprajagopal: "Implemented recursively and with optional, this would involve adding." That's one way to implement it, but not the only way. C++'s binary searching uses iterators, not indices. And it was implemented in C++98 without any need for optional.
    – Nicol Bolas
    Apr 19, 2021 at 13:49

1 Answer 1

Reset to default
1

As you can see here std::optional simply doesn't offer an operator+ member. After all, std::optional is able to contain anything, including types for which operator+ doesn't make sense. What would optional<that_type>::operator+ do for those types?

Clearly, you can write your own free function (modulo const/&/both or whatever you deem appropriate for parameters/return type):

std::optional<int> operator+(std::optional<int> o1, std::optional<int> o2) {
    if (o1) {
        if (o2) {
            return std::make_optional(o1.value() + o2.value());
        }
    }
    return std::nullopt;
}
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7
  • Is there a design choice here? I assumed Maybe in Haskell is equivalent to optional in C++. But is that a valid assumption (apart from the available operators)?
    – sprajagopal
    Apr 19, 2021 at 6:27
  • 3
    @sprajagopal, in Haskell Just 1 + Just 3 is invalid.
    – Enlico
    Apr 19, 2021 at 6:30
  • 2
    I don't understand the logic here. operator+(std::optional<T>, std::optional<U>) could simply require that a suitable + exists: requires requires (T t, U u) { t+u;}. The return type would be std::optional<std::common_type_t<T,U>>. That seems reasonable enough, so why the question in the first paragraph?
    – MSalters
    Apr 19, 2021 at 13:49
  • 1
    Note BTW that this operator+ is not defined in namespace std, which means it will not be found by Argument Dependent Lookup on std::optional. This is unavoidable; it's not your namespace.
    – MSalters
    Apr 19, 2021 at 13:53
  • @MSalters, isn't require a C++20 keyword? If you refer to checking that the input satisfies a concept (one could do it with a static_assert or via SFINAE, I believe), yes, it could be done, but given the meaning that the name of std::optional implies, imho it's not obvious that it should take care of facts that are specific to the one or the other type that you might put in it.
    – Enlico
    Apr 19, 2021 at 13:59

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