As of scala's 2.12.8 current documentation, List's tail is constant and ListBuffer's tail is linear. However, looking at the source code, it looks like there is no overwrite for the tail function and in most use-cases (such as remove the head element), List's tail function is explicitly called. Since ListBuffer seems to be little more than a List wrapper with a length var and a pointer to the last element, why is it linear?
I timed both methods and indeed it seems like List's tail is constant and ListBuffer's tail is indeed linear:
import scala.collection.mutable import scala.collection.immutable val immutableList: immutable.List[Int] = (1 to 10000).toList val mutableListBuffer: mutable.ListBuffer[Int] = mutable.ListBuffer.empty[Int] ++= (1 to 10000).toList // Warm-up (1 to 100000).foreach(_ => immutableList.tail) (1 to 100000).foreach(_ => mutableListBuffer.tail) // Measure val start = System.nanoTime() (1 to 1000).foreach(_ => immutableList.tail) val middle = System.nanoTime() (1 to 1000).foreach(_ => mutableListBuffer.tail) val stop = System.nanoTime() println((middle - start) / 1000) println((stop - middle) / 1000)
The results were, as documented:
However, if you use functions such as remove(0) that use List's tail, it is constant with the following results:
I expect that the linearity complexity comes from building a whole new list to return, but since the internal structure is a List, why not return the List's tail?