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I have implemented a function insipired on scala's flat map and I wonder if I can access the return type of the lambda inside the lambda to avoid repeating it when using it

/**
 * Inspired on scala's flat map, provide a @param func which output will be flattened in the output
 * sequence, which is the return type of @param func
 */
template <typename IN, typename F>
auto flat_mapf(const IN& input, F func)
    -> decltype(func(std::declval<typename IN::value_type>()))
{
    decltype(func(std::declval<typename IN::value_type>())) output;
    auto outit = std::back_inserter(output);
    for (auto i = input.begin(); i != input.end(); ++i)
    {
        decltype(func(std::declval<typename IN::value_type>())) interm = func(*i);
        std::move(interm.begin(), interm.end(), outit);
    }
    return output;
}


// usage example, I would like to avoid repeating vector<size_t> type two times:
auto vo = flat_mapf(vi, [](const size_t& x) -> vector<size_t> {
    vector<size_t> res;
    for (size_t i = 0; i < x; ++i)
        res.push_back(x);
    return res;
});
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1  
Huh? So you want to avoid the vector<size_t> in the line vector<size_t> res;? –  Christian Rau Nov 22 '12 at 12:55
    
I may be wrong, but I think return type for lambdas is optional. –  Morwenn Nov 22 '12 at 12:57
1  
Wow. What bugs you is that you have to repeat vector<size_t> twice, and not the huge decltype in flat_mapf? As a note: auto interm = func(*i);. –  Xeo Nov 22 '12 at 13:04
3  
@Xeo - understandable that a library author is more concerned about the experience of users of flat_mapf than about what its internal implementation looks like. There are many more uses than implementations (especially here, as flat_mapf is the monadic "bind" operation). –  Daniel Earwicker Nov 22 '12 at 13:09
2  
@Daniel: Except that a lambda is not part of the library, so there is nothing the library author can do. –  Xeo Nov 22 '12 at 13:12

3 Answers 3

Can't you just omit the -> vector<size_t> from the usage example, so the compiler infers the return type of the lambda? That way you only say the type once.

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3  
The lambda body is not return expr;, so this doesn't work, no. –  Xeo Nov 22 '12 at 12:58
    
@Xeo - interesting that Visual C++ supports it just fine. Is it a MS-specific extension? –  Daniel Earwicker Nov 22 '12 at 12:59
1  
Well, it's planned to allow multiple statments and still infer the return type for the next standard, but currently, yes it's an extension (which is also supported by GCC and Clang IIRC). :) –  Xeo Nov 22 '12 at 13:03
2  
@Daniel: Or they follow the proposals and defect reports for the next standard. ;) –  Xeo Nov 22 '12 at 13:11
1  
The committee is very conservative about adding new features where no one knows the implications. Instead, they add it in a restricted form and lift those restrictions later on, which is easier than the other way around. –  Xeo Nov 22 '12 at 13:24

Since the functionality you want to provide works on ranges (which is a very reasonable thing), I can point you to Boost.Range. A user would be able to combine your flat_mapf with e.g. boost::irange like so:

auto vo = flat_mapf(vi, [](size_t x) {
    return boost::irange(size_t { 0 }, x);
 });

(boost::irange only works over integral types, boost::counting_range is more general.)

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Returning an actual vector may not be the right approach here. That requires all of the output from each element to be produced and cached before it is accumulated together.

A generator pattern of some kind, such as a sub map functor that returns a boost optional (empty meaning finished generating) or the like would mean you would not require the intermediate container. Turning such a generator into a std vector is easy, and writing flat map when each of the sub maps is a generator lambda is also easy.

I bring this up because it also means the double type specification goes away. In situations where a trinary operator does not work, you just have one location returning for and then other returning empty.

In short maybe you are typing std vector a lot because you are making a lot of std vectors.

share|improve this answer
    
I tried boost::optional before, looks a good idea but it's a pain in the ass to use in the debugger. I'll avoid that overengineering in the future, for me optional now is just a pointer that can be null. At least I can inspect it easily. –  piotr Nov 22 '12 at 15:32
    
That requires using the free store usually, and all the headache that implies. My point is that generators (of whatever kind -- there are many ways to do it) may be a better approach than vector-builders when emulating functional programming behavior in C++. Functional language often pull data rather than push it. –  Yakk Nov 22 '12 at 16:24
    
Could you post a concrete example of what you mean? Is not like it's so easy to express a generator in C++. In python I know how to do it with yield etc. –  piotr Nov 23 '12 at 15:49

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