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I'm curious what the differences between the type inference of Scala and C++11 are. In which situations do I have to specify the types in one language but not in the other? One difference seems to be the return type of functions which always have to be specified in C++11, although decltype and the new function syntax with a trailing return type allow to specify a inferred type.

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C++ cannot infer such anonymous functions:

// this wont work*
void somefunc(std::vector<int>& v) 
    std::for_each(v.begin(), v.end(), [](auto &x) { x++; });
//                                        /\
//                                         ------ I want this to be infered

whereas Scala can:

def somefunc(v: Vector[Int]) = => x +1)

*not sure that I've dealt correctly with C++ code syntax, I don't insult language, but it's really cryptic. If I've made a mistake, correct me, please

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You are comparing a method call on a vector with a function. An equivalent Scala method should look like map(v, x => x + 1) (with an appropriate map method). In this case, Scala’s inference fails as well. However, this will work: map(v)(x => x + 1). – Debilski Apr 21 '12 at 11:51
@Debilski also, if we talk about exact comparison: Scala version creates a new collection (and accepts vector by value), while C++ version updates vector in place. – om-nom-nom Apr 21 '12 at 12:24
But the point here is differences in type inference – not how collections work. I think it is perfectly possible to contrast type inference, it is just your example which gives a wrong impression. – Debilski Apr 21 '12 at 17:22
In the C++ example the type of x could be specified by decltype(*v.begin()), see: But that is also not type inference... – Frank S. Thomas Apr 21 '12 at 18:53
@om-nom-nom Scala neither creates new collection in that case nor accepts vector by value. Please do not misguide people. – Grozz Apr 22 '12 at 0:27

In essence, C++ inference is simplistic compared to the grown ups.

Functional languages generally something close to Hindley/Milner which is pretty close to solving an equation systems and allow to have unknowns on both sides of the fence.

On the contrary, C++ expect to be able to know the type of any inner expression and from that deduce the type of the outer expression. It's a strictly one way inference, meaning that:

auto x = foo(1, 2);

works as expected as long as there is a foo accepting integers and returning non-void. However, as demonstrated by om-nom-nom:

foo(1, [](auto x) { ++x; });

Will not work, because you cannot go backward and use the purported type of foo to deduce the type of the lambda.

The reason behind is that C++ uses overloads of functions, meaning that several definitions of foo could exist, and you actually need to know the types of the arguments to elect the right one. Since in general the above expression would be undecidable, it is forbidden even in limited cases it could have been allowed to avoid future maintenance hell and people never knowing when or not it can be used.

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For the sake of contrasting C++11 and Scala: Scala also does method overloading (and does not use Hindley–Milner either). – Debilski Apr 21 '12 at 11:28
@Debilski: Ah, interesting. I had thought Scala closer to Haskell. Guess that is what I get from cursory reading. Thanks for calling it out. – Matthieu M. Apr 21 '12 at 12:22
Is it ? I would say not. C++ type inference is the simplest inference that exist. It is useful, but is definitely simplistic compared to Hindley/Milner. – Matthieu M. Apr 21 '12 at 17:11
You say C++'s inference is simplistic compared to 'grown ups', but the syntax you use to demonstrate this: foo(1, [](auto x) { ++x; }); is already well understood and C++'s inference doesn't need any additional complexity to handle it. You can today express exactly the proposed meaning of that lambda, and C++ will handle it just fine. – bames53 Apr 22 '12 at 0:32
2 – bames53 Apr 22 '12 at 0:46

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