2

I've written some code using lambda on vc2010. The simplified structure of code is like below:

template<typename Functor>
bool f1(int a, Functor& f)
{
    return f(a+1);
}

template<typename Functor>
bool f2(Functor& f)
{
    return f(1);
}

template<typename Functor>
bool f3(Functor& f)
{
    return f2([&](int a) -> bool {
        // (1) Works
        auto test = [&](int b) -> bool { return f(a+b); };
        return f1(a, test);

        // (2) Doesn't work         
        //return f1(a, [&](int b) -> bool { return f(a+b); });
    });
};

int main()
{
    int a = 100;

    f3([&](int b) { return (a+b)%2 == 0; });
}

First I wrote a nested lambda code as (2), and vc10 gives a incomprehensible error message like below

'f1' : cannot convert parameter number from 'int' to 'int &'

However code (1) works well, which is indentical to (2) except lvalue-ness.

My question is:

  1. Is code (2) conforming C++11 standard?
  2. If not, what's the reason of this strange compilation behavior?

3 Answers 3

4
return f1(a, [&](int b) -> bool { return f(a+b); });

Here, the second argument which is a lambda, is a temporary object which cannot be bound to non-const reference. I believe, the error message is misleading; it doesn't exactly tell the problem. A good compiler will print better error message. Try GCC, or Clang.

The fix is this: make the second argument non-reference:

template<typename Functor>
bool f1(int a, Functor f)  //I removed `&` from the second parameter
{
    return f(a+1);
}

Likewise, make all the Functor parameters in other functions non-reference. Passing functor as reference doesn't make much sense, especially in C++11, in which you can pass lambda as well which you can define on the fly.

0
4

GCC 4.6 gives the following error:

a.cpp: In function 'int main()':
a.cpp:30:43: error: no matching function for call to 'f3(main()::<lambda(int)>)'
a.cpp:30:43: note: candidate is:
a.cpp:14:6: note: bool f3(Functor&) [with Functor = main()::<lambda(int)>]
a.cpp:14:6: note: no known conversion for argument 1 from 'main()::<lambda(int)>' to 'main()::<lambda(int)>&'

Which is clearer: your lambdas are temporaries and you are trying to bind them to l-value references. So just use r-value references or no references at all:

template<typename Functor>
bool f1(int a, Functor&& f)
{
    return f(a+1);
}

template<typename Functor>
bool f2(Functor&& f)
{
    return f(1);
}

template<typename Functor>
bool f3(Functor&& f)
{
    return f2([&](int a) -> bool {
        // (1) Works
        auto test = [&](int b) -> bool { return f(a+b); };
        return f1(a, test);

        // (2) Doesn't work         
        //return f1(a, [&](int b) -> bool { return f(a+b); });
    });
};

int main()
{
    int a = 100;

    f3([&](int b) { return (a+b)%2 == 0; });
}

No idea if VS can compile this, but GCC does it right.

0
0

As other have said, you can not bind a temporary to a non-const reference.

There are 3 ways to fix this :

  1. pass by value :

    template bool f1(int a, Functor f) { return f(a+1); }

  2. pass by rvalue :

    template bool f1(int a, Functor&& f) { return f(a+1); }

  3. pass by lvalue :

    template bool f1(int a, const Functor& f) { return f(a+1); }

I would go for the 3rd option (pass by the lvalue, or const reference).

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