# OutOfMemoryError in a Fibonacci stream in Scala

When I define `fib` like this (1):

``````def fib(n: Int) = {
lazy val fibs: Stream[BigInt] = 0 #:: 1 #:: fibs.zip(fibs.tail).map{n => n._1 + n._2}
}
``````

I get an error:

``````scala> fib(1000000)
java.lang.OutOfMemoryError: Java heap space
``````

On the other hand, this works fine (2):

``````def fib = {
lazy val fibs: Stream[BigInt] = 0 #:: 1 #:: fibs.zip(fibs.tail).map{n => n._1 + n._2}
fibs
}

res17: BigInt = 195328212...
``````

Moreover, if I change the stream definition in the following way, I can call `drop(n).head` within the function and don't get any error either (3):

``````def fib(n: Int) = {
lazy val fibs: (BigInt, BigInt) => Stream[BigInt] = (a, b) => a #:: fibs(b, a+b)
}

scala> fib(1000000)
res18: BigInt = 195328212...
``````

Can you explain relevant differences between (1), (2) and (3)? Why does (2) work, while (1) does not? And why don't we need to move `drop(n).head` out of the function in (3)?

In the first case reference to the beginning of `fibs` stream exists while element number `n` is calculated - thus all values from 0 to 1000000 have to be kept in memory. This is the source of `OutOfMemoryError`.

In the second case reference to beginning of stream is not preserved anywhere, so items can be garbage collected (only one item at a time have to be kept in memory).

In the third case reference to beginning of stream does not exists anywhere explicitly (it can be garbage collected while next values are dropped). However if we change it into:

``````def fib(n: Int) = {
lazy val fibs: (BigInt, BigInt) => Stream[BigInt] = (a, b) => a #:: fibs(b, a+b)
val beg = fibs(0, 1)
Then `OutOfMemoryError` will occur again.
• Got it. There is no problem in the second case, because `fibs` is not visible anymore when we read from the stream. There is no problem in the third case, because `fibs` is a function returning the stream, not a reference to it. Right? – michau Sep 11 '16 at 10:27