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How to use lambda expression as a template parameter? E.g. as a comparison class initializing a std::set.

The following solution should work, as lambda expression merely creates an anonymous struct, which should be appropriate as a template parameter. However, a lot of errors are spawned.

Code example:

struct A {int x; int y;};
std::set <A, [](const A lhs, const A &rhs) ->bool {
    return lhs.x < rhs.x;
    } > SetOfA;

Error output (I am using g++ 4.5.1 compiler and --std=c++0x compilation flag):

error: ‘lhs’ cannot appear in a constant-expression
error: ‘.’ cannot appear in a constant-expression
error: ‘rhs’ cannot appear in a constant-expression
error: ‘.’ cannot appear in a constant-expression
At global scope:
error: template argument 2 is invalid

Is that the expected behavior or a bug in GCC?


As someone pointed out, I'm using lambda expressions incorrectly as they return an instance of the anonymous struct they are referring to.

However, fixing that error does not solve the problem. I get lambda-expression in unevaluated context error for the following code:

struct A {int x; int y;};
typedef decltype ([](const A lhs, const A &rhs) ->bool {
    return lhs.x < rhs.x;
    }) Comp;
std::set <A, Comp > SetOfA;
share|improve this question
I tagged this as c++0x. It seems more appropriate and should get better answers. – JoshD Sep 28 '10 at 7:26
@JoshD Shouldn't it still be tagged 'c++' as well? 0x is eventually going to become the new standard and I wouldn't want people in the future to miss this question because they forgot that the proper tag was c++0x not c++. (Or is SO going to migrate all c++0x tags to c++ at some point?) – KitsuneYMG Sep 28 '10 at 12:03
up vote 27 down vote accepted

The 2nd template parameter of std::set expects a type, not an expression, so it is just you are using it wrongly.

You could create the set like this:

auto comp = [](const A& lhs, const A& rhs) -> bool { return lhs.x < rhs.x; };
auto SetOfA = std::set <A, decltype(comp)> (comp);
share|improve this answer
lambda expression <i>is</i> indeed a type. It is just another way to declare an anonymous struct with defined operator (). I do not use lambda as type specifier: std::ser <<b>A</b>, ....> B – user283145 Sep 28 '10 at 7:44
@buratina: If it were a type then [](){} x; should be a valid declaration. The lambda expression is just an instance of that anonymous struct. You need a decltype to get that type. – kennytm Sep 28 '10 at 7:47
OK, now it is cleared :) but decltype also somehow does not work – user283145 Sep 28 '10 at 7:49
@buratinas: Try adding a semicolon after struct A {int x; int y;}. – kennytm Sep 28 '10 at 7:51
@KennyTM I kinda wish lambda expressions were types merely so the example abomination you posted -- [](){}x; -- would indeed be legal c++. Why should perl have all the fun? On a (slightly) more serious note, does that mean decltype([](){}) x is valid? – KitsuneYMG Sep 29 '10 at 12:00

For comparators used this way, you're still better off with a non-0x approach:

struct A { int x; int y; };

struct cmp_by_x {
  bool operator()(A const &a, A const &b) {
    return a.x < b.x;

std::set<A, cmp_by_x> set_of_a;

However, in 0x you can make cmp_by_x a local type (i.e. define it inside a function) when that is more convenient, which is forbidden by current C++.

Also, your comparison treats A(x=1, y=1) and A(x=1, y=2) as equivalent. If that's not desired, you need to include the other values that contribute to uniqueness:

struct cmp_by_x {
  bool operator()(A const &a, A const &b) {
    return a.x < b.x || (a.x == b.x && a.y < b.y);
share|improve this answer

Not sure if this is what you're asking, but the signature of a lambda which returns RetType and accepts InType will be:


(Make sure to #include <functional>)

You can shorten that by using a typedef, but I'm not sure you can use decltype to avoid figuring out the actual type (since lambdas apparently can't be used in that context.)

So your typedef should be:

typedef std::function<bool(const A &lhs, const A &rhs)> Comp
share|improve this answer
+1 because this is the solution, but std::function is just a holder type. You can convert a lambda to function and obtain an object pointing to the lambda, but that's not its original type. – Potatoswatter Oct 1 '10 at 11:05
Edit: the function doesn't point to the lambda, it contains it. But neither was it the original type anyway. – Potatoswatter Oct 1 '10 at 11:57
Ah, good to know. I take it the inline-lambda syntax produces some randomly-generated type so that no two are exactly the same? (This is how C# does it, IIRC.) – Ken Simon Oct 1 '10 at 14:52
+1 For useful method to get generic lambda function type (without putting the lambda function in a variable first). – Interarticle Oct 17 '13 at 1:57

the problem is the last template parameter is type not an object, so you might want to do the following

    std::set <A, std::fuction<bool(const A &,const A &)>> 
              SetOfA([](const A lhs, const A &rhs) ->bool {
                                                             return lhs.x < rhs.x;
                                                          } > SetOfA;

to make it simpler you can do the following:

auto func = SetOfA([](const A lhs, const A &rhs) ->bool { return lhs.x < rhs.x;}
set <A,decltype(func)> SetOfA(func);


share|improve this answer

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