I can't find a nice way to define generic higher-order functions taking generic functions as arguments. For example, take this attempt at one of the simplest such functions out there:

```
template<typename F, typename A>
auto apply(F f, const A& a) -> decltype(f(a)){return f(a);}
```

Of course it works as intended when used with non-template functions. But if I have, for instance

```
template<typename A>
A id(const A& a){return a;}
```

then

```
int a = 10;
int b = apply(id, a);
```

will not work, since `id`

expects a template parameter. I could just write `id<int>`

to make it work, but that sort of defeats the purpose (as I see it, it implies that if I wanted to write "filter" I'd have to write a separate definition for each generic predicate function). Using `std::function`

or function pointers did not help. Also, I tried to make a "template template" version of `apply`

, but I get various compiler errors when I try to use it:

```
template<template<typename> class F, typename A>
auto apply2(F<A> f, const A& a)-> decltype(f(a)){return f(a);}
```

The best I came up with was the following:

```
struct Id{
template<typename A>
static A func(const A& a){return a;}
};
template<typename F, typename A>
auto apply(A a)-> decltype(F::func(a)){return F::func(a);}
```

It's a bit ugly, but now at least I can actually parameterize by the function.

So, is there a better way to do generic functions taking generic functions as arguments?

`id<int>`

couldn't you instead`apply(id<decltype(a),a)>`

? (likely I'm not grasping the bigger picture, but figured I'd ask). – WhozCraig Sep 4 '13 at 15:58