This is a general question about functional programming but I'm also interested what answer it has in specific languages.
I only have beginner's knowledge about functional languages, so bear with me.
It is my understanding that functional languages put a focus on different data structures than imperative languages, as they like immutability: The persistent data structures.
For example, they all have an immutable list concept where you can form a new lists x :: l
and y :: l
from an existing list l
and two new items x
and y
without all elements of l
needing to be copied. This is likely implemented by the new list object internally pointing to the old one as the tail.
In imperative languages, such a data structure is rarely used, as they don't provide as good locality of reference as c-style arrays do.
In general, finding data structures that support the functional style is an endeavor of it's own, so it would be great if one wouldn't always have to do that.
Now here's an idea how one could use all classical data structures in functional programming if there's the right language support for it.
In general, a data structure in an imperative language has modifying operations defined on it (in pseudo-code):
data.modify(someArgument)
The functional way of writing this is
newData = modified(data, someArgument)
The general problem is that this normally requires copying the data structure - except if the language could know that data
will in fact not be used by anything else: Then, the modification could be done in the form of mutating the original and no one could tell the difference.
There is a large class of cases where the language could infer that property of "never used elsewhere": When the first argument to modified
is an unbound value, as in this example:
newData = modified(modified(data, someArgument))
Here, data
may be used elsewhere, but modified(data, someArgument)
clearly isn't.
This is what in C++ is called an "rvalue", and in the latest incarnation of C++, which ironically isn't functional at all otherwise, one can overload on such rvalues.
For example, one can write:
Data modified(Data const& data) { // returns a modified copy }
Data modified(Data && data) { // returns the modified original }
That means that in C++, one can actually take any mutable efficient data structure and convert it to having an immutable api that can be used in a purely functional way just as efficiently as the imperative version would be.
(There's the caveat that in C++ still sometimes casting is necessary to force the rvalue overload. And of course care need to be taken on implementing such data structures, ie. when using the rvalue overloads. That could probably be improved on though.)
Now my question:
Do actual functional languages have a similar mechanism? Or is this not necessary for some other reason?
(I tagged some specific languages I'm particularly interested in.)