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I'm trying to work with lambda's in C++ after having used them a great deal in C#. I currently have a boost tuple (this is the really simplified version).

typedef shared_ptr<Foo> (*StringFooCreator)(std::string, int, bool)
typedef tuple<StringFooCreator> FooTuple

I then load a function in the global namespace into my FooTuple. Ideally, I would like to replace this with a lambda.

tuplearray[i] = FooTuple([](string bar, int rc, bool eom) -> {return shared_ptr<Foo>(new Foo(bar, rc, eom));});

I can't figure out what the function signature should be for the lambda tuple. Its obviously not a function pointer, but I can't figure out what a lambda's signature should be. The resources for lambda's are all pretty thin right now. I realize C++0x is in flux at the moment, but I was curious about how to get this to work. I also realize there are simpler ways to do this, but I'm just playing around with C++0x. I am using the Intel 11.1 compiler. Thanks

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3 Answers 3

up vote 7 down vote accepted

The -> operator sets the return type of the lambda, in the case of no return type it can be omitted. Also, if it can be inferred by the compiler you can omit the return type. Like Terry said, you can't assign a lambda to a function pointer (GCC improperly allows this conversion) but you can use std::function.

This code works on GCC and VC10 (remove tr1/ from the includes for VC):

#include <tr1/tuple>
#include <tr1/functional>
#include <tr1/memory>

using namespace std;
using namespace std::tr1;

class Foo{};
typedef function<shared_ptr<Foo>(string, int, bool)> StringFooCreator;
typedef tuple<StringFooCreator> FooTuple;

int main() {
    FooTuple f(
        [](string bar, int rc, bool eom) {
            return make_shared<Foo>();

    shared_ptr<Foo> pf = get<0>(f)("blah", 3, true);
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Won't work - a lambda expression is not a function pointer. It is (conceptually) an anonymous functor class. –  Terry Mahaffey Dec 24 '09 at 19:29
from the things I've read, the compiler should be able to figure it out and will let me know if it can't. I'll take a look at it. thanks. –  Steve Dec 24 '09 at 19:30
@Terry hmm that's odd, because this code compiles and runs on GCC right now. –  joshperry Dec 24 '09 at 19:32
"The -> operator sets the return type of the lambda, in the case of no return type it can be omitted" - it can also be omitted when return type can be inferred; "In your case you need to set the return type as shared_ptr<Foo>" - he doesn't, because the body of his lambda is a single return statement, which is precisely the context in which return type can be inferred. –  Pavel Minaev Dec 25 '09 at 8:10
C++0x has conversion to function pointer for non-capturing lambdas now, see §5.1.2/6 in the FCD. –  Georg Fritzsche Jul 23 '10 at 19:41

From Visual C++ Blog

I mentioned storing lambdas in tr1::functions. But you shouldn't do that unless it's necessary, as tr1::function has some overhead. If you want to reuse a lambda, or simply want to give it a name, you can use auto.

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auto is of no help here, as it can't be used as a type parameter for a container like vector. –  Pavel Minaev Dec 25 '09 at 8:09
That's true, I just wanted to mention the overhead. –  Nikola Smiljanić Dec 25 '09 at 8:35
On the Intel compiler, the lambda with function is still faster than caching a function pointer. Approximately 3-5% faster from my tests. Thanks for the tip. –  Steve Dec 25 '09 at 14:51
@Pavel: You can use auto for naming a lambda and then decltype on that name to get the lambda object's type. The latter can be used as template type parameter. –  sellibitze Mar 31 '11 at 12:21
@sellibitze: at that point you might as well define T same_type<T>(T), and then write it as decltype(same_type([]() ... )). Arguably, for all the effort, it's easier to write a functor :) –  Pavel Minaev Apr 2 '11 at 20:07

You should be able to store a lambda in a std::function. In your example, try storing it in a


Don't forget about auto (although you won't be able to make an array of auto's, etc).

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Do you by any chance know the header for std::function? Google isn't helping me... –  Steve Dec 24 '09 at 19:31
also, what do you mean by auto? –  Steve Dec 24 '09 at 19:33
std::function is in <functional> auto is another c++0x feature –  Terry Mahaffey Dec 24 '09 at 19:38
bah, its failing on some crazy boost error about template instantiation. Thanks –  Steve Dec 24 '09 at 19:59
I don't know about everyone else, but I had to disable some of the C++0x features from Boost (there's #defines to enable/disable them). –  Eric Muyser Dec 25 '09 at 7:53

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