I have some filters expressed as a list of function List(MyClass => Boolean) . Im trying to get the logical conjunction (AND) of all the members . I have a feeling, I could use a fold here .but Im not getting the syntax especially around how to pass the MyClass argument to the functions.
5 Answers
You could use foldLeft
here, but forall
is a lot nicer:
def check[A](filters: Seq[A => Boolean])(a: A) = filters.forall(_(a))
Which works as follows:
scala> val filters = Seq[Int => Boolean]((_ > 0), (_ % 2 == 1), (_ < 1000))
filters: Seq[Int => Boolean] = List(<function1>, <function1>, <function1>)
scala> check(filters)(10)
res0: Boolean = false
scala> check(filters)(103)
res1: Boolean = true
It has the additional advantage of being lazy:
scala> check(filters :+ { i: Int => print(i); true })(10)
res2: Boolean = false
The last filter (which has a side effect) isn't applied, since the second fails.
That's pretty simple. Assuming your List(MyClass => Boolean)
of functions is named predicates and
MyClassyou are testing is named
myClass`:
val result: Boolean = predicates.foldLeft(true) {
(value, predicate) =>
value && predicate(myClass)
}
Or in a wrapping function:
def conjunction(myClass: MyClass, predicates: List[MyClass => Boolean]) =
predicates.foldLeft(true) {
(value, predicate) =>
value && predicate(myClass)
}
Explanation: if you list of predicates consists of three functions: foo(myClass: MyClass): Boolean
, bar(myClass: MyClass): Boolean
and buzz(myClass: MyClass): Boolean
the code above is roughly equivalent to:
((true && foo(myClass)) && bar(myClass) && buzz(myClass)
I wrote an article a while ago about such use cases of foldLeft
.
Well, let's consider two such predicates:
val pa: T => Boolean = ???
val pb: T => Boolean = ???
The conjunction of them would be like this:
val pab: T => Boolean = (v: T) => pa(V) && pb(v)
From there you have the formula for the fold:
list.tail.foldLeft(list.head) {
case (pa, pb) => v => pa(v) && pb(v)
}
What I've done in these cases is to use the "Pimp-My-Library" pattern to add boolean operations over predicates, which are just the boolean operations on the results lifted to the obvious boolean combinators over the predicates. Thus I can say something like
import MyRichPredicate;
val f:Int=>Boolean = (x:Int)=>x%3==0
val g:Int=>Boolean = (x:Int)=>x%5==0
val h = f && !g //equivalent to (x:Int)=> x%3 == 0 && x%5!=0
print(h(9)) // prints true
print(h(15)) // prints false
Given that sort of plumbing, the fold you want can be written as
predicates.foldLeft(x=>true)(_&&_)
or even more sexily
predicates.reduce(_&&_)