# Functional way of conditional filtering and sorting in scala

I want to sort and/or filter a sequence. Basically something like this:

``````var result = getReallyLongSeq() // returns Seq[SomeClass]

if (doFilter) {
result = result.filter( ... )
}

if (doSort) {
result = result.sortWith( ... )
}
``````

Now, this is an obviously valid approach, but is there a more functional way of doing that?

-

This is functional, pure and configurable.

``````case class BoolConf[A](run: Boolean => A) {
def apply(b: Boolean) = run(b)
def map[B](f: A => B): BoolConf[B] = BoolConf(b => f(run(b)))
def flatMap[B](f: A => BoolConf[B]): BoolConf[B] = BoolConf(b => f(run(b))(b))
}
``````

Here we made a wrapper for a `Boolean => A` that allows monadic composition, and it's probably already implemented in some library, like scalaz.

We're only interested in the `run` method, for this case, but you can get interested in other opportunities.

Configured filter & sort

Then we wrap our filter and sort check with the `Reader`

``````val mFilter: Seq[SomeClass] => BoolConf[Seq[SomeClass]] = seq => BoolConf(if(_) seq.filter(...) else seq)
val mSort: Seq[SomeClass] => BoolConf[Seq[SomeClass]] = seq => BoolConf(if(_) seq.sortWith(...) else seq)
``````

Lifting

Now, to compose these functions, since the output is no more a simple `Seq`, we need to lift one of them to work within a `BoolConf`

``````def lift2Bool[A, B]: (A => B) => (BoolConf[A] => BoolConf[B]) =
fun => cfg => BoolConf(bool => fun(cfg(bool)))
``````

Now we're able to convert any function from `A => B` to a lifted function from `BoolConf[A] => BoolConf[B]`

Composing

Now we can compose functionally:

``````val filterAndSort = lift2Bool(mSort) compose mFilter
//or the equivalent
val filterAndSort = mFilter andThen lift2Bool(mSort)
//applies as in filterAndSort(<sequence>)(<do filter>)(<do sort>)
``````

There's more

We can also create a generic "builder" for our `mFilter` and `mSort`

``````val configFilter[SomeClass]: (SomeClass => Boolean) => Seq[MyClass] => BoolConf[Seq[SomeClass]] =
filterer => seq => BoolConf(if(_) seq.filter(filterer))
``````

You can "sort" the sorting equivalent by yourself

Thanks are due to Runar for the inspiration

-

Whether it's more readable or not is open to debate. It is a bit inefficient but it's also purely functional. This approach is also easily extended and rather maintainable.

``````val f: Seq[SomeClass] => Seq[SomeClass] = if(doFilter) _.filter(...) else identity
val s: Seq[SomeClass] => Seq[SomeClass] = if(doSort) _.sortWith(...) else identity
(s compose f)(result)
``````

You can also write the following, which is more like the code in the OP. It's also slightly more efficient (but less generic).

``````val filtered = if(doFilter) result.filter(...) else result
if(doSort) filtered.sortWith(...) else filtered
``````

If for some reasons you prefer to use curried functions for the first example (as mentioned in the comments), you can write the following:

``````def fc(df: Boolean)(xs: Seq[SomeClass]) = if(df) _.filter(...) else identity
def sc(ds: Boolean)(xs: Seq[SomeClass]) = if(ds) _.sortWith(...) else identity
(sc(doSort) compose fc(doFilter))(result)
``````

But then you might further write it like this and end up in nearly the same thing as given in the first example:

``````def fc(df: Boolean)(xs: Seq[SomeClass]) = if(df) _.filter(...) else identity
def sc(ds: Boolean)(xs: Seq[SomeClass]) = if(ds) _.sortWith(...) else identity
val f = fc(doFilter)
val s = sc(doSort)
(s compose f)(result)
``````
-
actually it's not purely functional, because `f` and `s` both take external state into account, so both of them yield different results depending on the value of `doFilter` and `doSort`. If you want it to be purely functional, you have to add a curried parameter to both of them, stating whether to use the function itself, or identity. –  drexin Oct 25 '12 at 9:16
@drexin That can be purely functional. It's called a closure. If `doFilter` and `doSort` are mutable vars, then no, this isn't functional. But if they're immutable and depend only on global constants or immutable arguments to some outer scope, then this is indeed a functional approach, which you will find quite commonly used in languages such as Haskell that don't allow impure definitions. –  Ben Oct 25 '12 at 10:36
Okay, sorry. This might, or might not be pure. But from the posting itself, it is not clear, where doFilter and doSort come from. As long as this is the case, I would consider this potentially impure. –  drexin Oct 25 '12 at 11:20
@drexin Look at what I have added. Making the functions curried actually changes nothing at all about purity of code. –  ziggystar Oct 25 '12 at 11:23
Yes it does. If `doSort` for example was a `var`, `s` would not be referentially transparent, `sc` is. –  drexin Oct 25 '12 at 11:25

You can use scalaz oparator `|>` or define your own:

``````class PipedObject[T](value: T)
{
def |>[R](f: T => R) = f(value)
}

implicit def toPiped[T](value: T) =  new PipedObject[T](value)

(result |> (r => if (doFilter) r.filter(...) else r)
|> (r => if (doSort) r.sortWith(...) else r))
``````
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