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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)
    return res;
share|improve this question
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
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
@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
@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

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.

share|improve this answer
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
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
@Daniel: Or they follow the proposals and defect reports for the next standard. ;) – Xeo Nov 22 '12 at 13:11
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.)

share|improve this answer

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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