# Does this higher order function have a name?

I see this pattern everywhere in my code, and in libraries, yet there appears to be no name or abstraction of it that I can find anywhere.

Example (pseudocode)

``````T foo( T x, void f(T&) )
{
T y = x;
f( y );
return y;
}
``````

Basically: Take a value, and a function that transforms that value. Make of a copy of the value, transform it, and return it.

Real-life examples (C++)

``````T operator+(const T& x, const T& y)
{
T z = x; // Make a copy
operator+=(z, y); // Modify in place
return z;
}

Vector3 Vector3::normalized() const
{
Vector3 x = *this; // Make a copy
x.normalize(); // Modify in place
return x;
}

T sorted(T const& x)
{
T y = x; // Make a copy (yeah, yeah, could have passed by value)
sort( y ); // Modify in place
return y;
}
``````

Basically, you have an in place function (with side-effects) and make an out-of-place function (without side-effects) out of it.

Is there a name for this pattern? Do you know of any libraries or languages that use it? Obviously functional languages won't use it because they don't have referentially opaque functions to begin with.

-
This sure sounds a lot like the K combinator – SingleNegationElimination Nov 16 '10 at 8:37
It's similar, but not the same. The key point here is that `f` is an in-situ algorithm, i.e. `f(x)` mutates `x` -- it doesn't return anything. – Peter Alexander Nov 16 '10 at 9:15
Most likely there is no name for this since theoretical functional programming does not have side effects. In other words, this transform FP unfriendly functions into REAL functions (note: REAL functions don't eat quiche) – slebetman Nov 16 '10 at 10:17
Where are the higher order functions you are talking about? – leppie Nov 16 '10 at 12:23
@slebetman: Things only have names in they are in FP? :) – Peter Alexander Nov 16 '10 at 12:47

It's actually what in mathematics and FP is called a composition, because you could express it as `mystery_function(x, fun) = fun(copy(x))` instead.