I am just wondering what the advantages are to languages that allow functions to be passed through parameters? And hopefully an couple examples to go with this.
What popular programming languages allow this?
Suppose I have a collection of objects, and I want to sort them based on some criteria.
If I can pass a function to a function, it's easy:
If I can't, then in order to do something like this I basically have to reimplement the sorting algorithm each time I want to sort based on different criteria.
The advantage is that you can parametrize functions over things that aren't easily expressed as plain values.
For example if you want to find an item which satisfies a certain predicate in a collection, or you want to find out whether all items in a collection satisfy a predicate, the predicate is most naturally expressed as a function from the element type to bool.
Another really common example is a sorting function which takes a comparison function as its argument, so the elements of a collection can be sorted by a custom sort key.
Of course in languages that don't allow functions as arguments, but which do have an object system (read: in java), you can work around this by using an object which implements a certain interface to the sorting function.
It should be noted that C and C++ (before C++0x), unlike the other languages in the list, don't have closures.
The advantage of being able to pass functions to other functions is that it allows you to write cleaner, more general code. For instance, consider a reasonably realistic function which sums all the numbers in a list:
This is in Haskell syntax, which may be unfamiliar to you; the two lines define two different cases, depending on whether the input is an empty list, in which case the sum is zero, or it's
Now, suppose we want to find the product of the numbers in a list, instead:
In a traditional language, it'd look more like
Interestingly, these two functions look pretty much the same. The only difference is that
This means that we can simplify
But here's where things can get more interesting. Suppose you have a list of numbers, and you want to compute the square of every number in the list:
But this is clearly abstractable: almost exactly the same code would work if you wanted to negate every element of your list, or if you had a list of emails and wanted to get the senders, or whatever. So, we abstract:
But interestingly enough, we can also implement
This says the composition of
This definition of
And then use that to write
You gain a lot of power by being able to treat functions as values. You can write generic procedures like