After sorting, you can use takeWhile to avoid iterating a second time.

```
case class Student(grade: Int)
val list = List(Student(1), Student(3), Student(2), Student(1), Student(25), Student(0), Student (25))
val sorted = list.sortWith (_.grade > _.grade)
sorted.takeWhile (_.grade == sorted(0).grade)
```

It still sorts the whole thing, even grades 1, 3, 0 and -1, which we aren't interested in, before taking the whipped cream, but it is short code.

### update:

A second approach, which can be performed in parallel, is, to split the list, and take the max of each side, and then only the higher one, if there is - else both:

```
def takeMax (l: List[Student]) : List [Student] = l.size match {
case 0 => Nil
case 1 => l
case 2 => if (l(0).grade > l(1).grade) List (l(0)) else
if (l(0).grade < l(1).grade) List (l(1)) else List (l(0), l(1))
case _ => {
val left = takeMax (l.take (l.size / 2))
val right= takeMax (l.drop (l.size / 2))
if (left (0).grade > right(0).grade) left else
if (left (0).grade < right(0).grade) right else left ::: right }
}
```

Of course we like to factor out the student, and the method to compare two of them.

```
def takeMax [A] (l: List[A], cmp: ((A, A) => Int)) : List [A] = l.size match {
case 0 | 1 => l
case 2 => cmp (l(0), l(1)) match {
case 0 => l
case x => if (x > 0) List (l(0)) else List (l(1))
}
case _ => {
val left = takeMax (l.take (l.size / 2), cmp)
val right= takeMax (l.drop (l.size / 2), cmp)
cmp (left (0), right (0)) match {
case 0 => left ::: right
case x => if (x > 0) left else right }
}
}
def cmp (s1: Student, s2: Student) = s1.grade - s2.grade
takeMax (list, cmp)
```