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The following Scala code (on 2.9.2):

var a = ( 0 until 100000 ).toStream
for ( i <- 0 until 100000 )
    val memTot = Runtime.getRuntime().totalMemory().toDouble / ( 1024.0 * 1024.0 )
    println( i, a.size, memTot )

    a = a.map(identity)

uses an ever increasing amount of memory on every iteration of the loop. If a is defined as ( 0 until 100000 ).toList, then the memory usage is stable (give or take GC).

I understand that streams evaluate lazily but retain elements once they are generated. But it appears that in my code above, each new stream (generated by the last line of code) somehow keeps a reference to previous streams. Can someone help explain?

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It still leaks memory with a = a.map(identity), are you sure it works for you? –  Tomasz Nurkiewicz Feb 15 '13 at 15:25
@TomaszNurkiewicz You are right. It does still leak with the identity line. Thanks for the spot - and I'll update the question. –  Alex Wilson Feb 15 '13 at 15:33

1 Answer 1

up vote 6 down vote accepted

Here is what happens. Stream is always evaluated lazily but already calculated elements are "cached" for later. Lazy evaluation is crucial. Look at this piece of code:

a = a.flatMap( v => Some( v ) )

Although it looks as if you were transforming one Stream to another and discarding the old one, this is not what happens. The new Stream still keeps a reference to the old one. That's because result Stream should not eagerly compute all elements of underlying stream but do that on demand. Take this as an example:

  map(_.substring(0, 10)).

You can chain as many operations as you want, but file is barely touched to read first line. Each subsequent operation just wraps the previous Stream, holding a reference to child stream. The moment you ask for size or do foreach, evaluation starts.

Back to your code. In the second iteration you create third stream, holding a reference to the second one, which in turns keeps a reference to the one you initially defined. Basically you have a stack of pretty big objects growing.

But this doesn't explain why memory leaks so fast. The crucial part is... println(), or a.size to be precise. Without printing (and thus evaluating the whole Stream) Stream remains "unevaluated". Unevaluated stream doesn't cache any values, so it's very slim. Memory would still leak due to growing chain of streams in one another, but much, much slower.

This begs a questions: why it works with toList It's quite simple. List.map() eagerly creates new List. Period. The previous one is no longer referenced and eligible for GC.

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A very nice explanation indeed. I had a feeling it was something like this. Interestingly, I've always been wary of streams for memory consumption reasons. But I had the following (simplified) code (0 until 100).sliding(10).toSeq which unexpectedly (to me at least) gave me a Stream[Vector[Int]] when I was (perhaps) expecting a Vector[Vector[Int]]. And then this gave me my initial memory issues. The code in the question is what I minimised it to. –  Alex Wilson Feb 15 '13 at 15:30

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