# Creating functor from lambda expression

I would like to know if it is possible to create an actual functor object from a lambda expression. I don't think so, but if not, why?

To illustrate, given the code below, which sorts points using various policies for x and y coordinates:

``````#include <vector>
#include <functional>
#include <algorithm>
#include <iostream>

struct Point
{
Point(int x, int y) : x(x), y(y) {}
int x, y;
};

template <class XOrder, class YOrder>
struct SortXY :
std::binary_function<const Point&, const Point&, bool>
{
bool operator()(const Point& lhs, const Point& rhs) const
{
if (XOrder()(lhs.x, rhs.x))
return true;
else if (XOrder()(rhs.x, lhs.x))
return false;
else
return YOrder()(lhs.y, rhs.y);
}
};

struct Ascending  { bool operator()(int l, int r) const { return l<r; } };
struct Descending { bool operator()(int l, int r) const { return l>r; } };

int main()
{
// fill vector with data
std::vector<Point> pts;
pts.push_back(Point(10, 20));
pts.push_back(Point(20,  5));
pts.push_back(Point( 5,  0));
pts.push_back(Point(10, 30));

// sort array
std::sort(pts.begin(), pts.end(), SortXY<Descending, Ascending>());

// dump content
std::for_each(pts.begin(), pts.end(),
[](const Point& p)
{
std::cout << p.x << "," << p.y << "\n";
});
}
``````

The expression `std::sort(pts.begin(), pts.end(), SortXY<Descending, Ascending>());` sorts according to descending x values, and then to ascending y values. It's easily understandable, and I'm not sure I really want to make use of lambda expressions here.

But if I wanted to replace Ascending / Descending by lambda expressions, how would you do it? The following isn't valid:

``````std::sort(pts.begin(), pts.end(), SortXY<
[](int l, int r) { return l>r; },
[](int l, int r) { return l<r; }
>());
``````
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Possibly you need a `make_sortXY` function to deduce the template arguments? See `make_pair`. This is assuming that C++0x permits the nameless type of a lambda to be a template argument at all, I don't know. – Steve Jessop Jan 26 '11 at 10:40
Also a lambda expression results in an object with an `operator()`. In general it requires the instance, because that's where any captured variables are kept, and I'm not sure whether a no-capture lambda is defined as a special case in any way. In particular, does its type have an accessible no-args constructor, that you've used? – Steve Jessop Jan 26 '11 at 10:44
@Steve: thank's for your comments. I understand what you mean, except the last sentence in your 2nd comment. What are you referring to? – Daniel Gehriger Jan 26 '11 at 12:16
when you write `XOrder()(lhs.x, rhs.x)`, you are calling the no-args constructor of `XOrder` (well, or another constructor whose parameters are all optional), and then calling `operator()` on the resulting temporary object. I don't know, because I haven't looked it up, whether you can just instantiate a lambda like that from its type. – Steve Jessop Jan 26 '11 at 13:40
@Steve: I guess not, since you can't get the type of a lambda. – Daniel Gehriger Jan 26 '11 at 14:00

This problem arises because SortXY only takes types, whereas lambdas are objects. You need to re-write it so that it takes objects, not just types. This is basic use of functional objects- see how `std::for_each` doesn't take a type, it takes an object.

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Yes, I realize that. I would have to change `SortXY` and add a constructor, and then use it as `SortXY(Descending(), Ascending())`. This blows up the code quiet a lot (constructor, member variables in SortXY, ...). I'd rather use a `typeof(/* lambda expression */)... – Daniel Gehriger Jan 26 '11 at 10:46
You can't. Lambdas have totally undefined types- you can't even decltype a lambda expression. There's no way to get template the type of a lambda without using type deduction on that exact lambda- identical definitions not acceptable. Frankly, I admit that your current code is easier, but it's just bad practice- as soon as you want any state in there then you're screwed. You only write SortXY once, but you may call it dozens of times. – Puppy Jan 26 '11 at 11:02

I have posted a similar question w.r.t. lambda functors within classes. Check this out, perhaps it helps:

Lambda expression as member functors in a class

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