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I need to compress/decompress some Data with a old, in house developed Algorithm. There i have a lot of operations like:

if the next bit is 0 take the following 6 Bits and interpret them as an Int
if the next bits are 10 take the following 9 Bits and interpret them as an Int 

Knows somebody something like a "Bitstrem" class in Scala? (I didn't found anything and hope that i didn't have to implement it by myself.)


Edit: I combined the answer with ("The Architecture of Scala Collections") If somebody needs the samething:

abstract class Bit
object Bit {
  val fromInt: Int => Bit = Array(Low, High)
  val toInt: Bit => Int = Map(Low -> 0, High -> 1)

case object High extends Bit
case object Low extends Bit

import collection.IndexedSeqLike
import collection.mutable.{Builder, ArrayBuffer}
import collection.generic.CanBuildFrom
import collection.IndexedSeq

// IndexedSeqLike implements all concrete methods of IndexedSeq
// with newBuilder. (methods like take, filter, drop)
final class BitSeq private (val bits: Array[Int], val length: Int)
         extends IndexedSeq[Bit]
         with IndexedSeqLike[Bit, BitSeq]
  import BitSeq._

  // Mandatory for IndexedSeqLike
  override protected[this] def newBuilder: Builder[Bit, BitSeq] =

  //Mandatory for IndexedSeq
  def apply(idx: Int): Bit = {
    if(idx < 0 || length <= idx)
      throw new IndexOutOfBoundsException
    Bit.fromInt(bits(idx/N) >> (idx % N) & M)


object BitSeq {

  // Bits per Int
  private val N = 32

  // Bitmask to isolate a bit
  private val M = 0x01

  def fromSeq(buf: Seq[Bit]): BitSeq = {
    val bits = new Array[Int]((buf.length + N - 1) / N)
    for(i <- 0 until buf.length) {
      bits(i/N) |= Bit.toInt(buf(i)) << (i % N)
    new BitSeq(bits, buf.length)

  def apply(bits: Bit*) = fromSeq(bits)

  def newBuilder: Builder[Bit, BitSeq] = new ArrayBuffer mapResult fromSeq

  // Needed for map etc. (BitSeq map {:Bit} should return a BitSeq)
  implicit def canBuilderFrom: CanBuildFrom[BitSeq, Bit, BitSeq] =
    new CanBuildFrom[BitSeq, Bit, BitSeq] {
      def apply(): Builder[Bit, BitSeq] = newBuilder
      def apply(from: BitSeq): Builder[Bit, BitSeq] = newBuilder
share|improve this question

1 Answer 1

up vote 4 down vote accepted

There isn't any existing class that I'm aware of, but you can leverage the existing classes to help out with almost all of the difficult operations. The trick is to turn your data into a stream of Ints (or Bytes if there wouldn't be enough memory). You then can use all the handy collections methods (e.g. take) and only are left with the problem of turning bits into memory. But that's easy if you pack the bits in MSB order.

object BitExample {
  def bitInt(ii: Iterator[Int]): Int = (0 /: ii)((i,b) => (i<<1)|b)
  def bitInt(ii: Iterable[Int]): Int = bitInt(ii.iterator)

  class ArrayBits(bytes: Array[Byte]) extends Iterator[Int] {
    private[this] var buffer = 0
    private[this] var index,shift = -1
    def hasNext = (shift > 0) || (index+1 < bytes.length)
    def next = {
      if (shift <= 0) {
        index += 1
        buffer = bytes(index) & 0xFF
        shift = 7
      else shift -= 1
      (buffer >> shift) & 0x1

And then you do things like

import BitExample._
val compressed = new ArrayBits( Array[Byte](14,29,126) ).toStream
val headless = compressed.dropWhile(_ == 0)
val (test,rest) = headless.splitAt(3)
if (bitInt(test) > 4) println(bitInt(rest.take(6)))

(You can decide whether you want to use the iterator directly or as a stream, list, or whatever.)

share|improve this answer
Thanks. But i have problems to understand: "(0 /: ii)((i,b) => (i<<1)|b)" Specialy the "(0 /: ii)". /: is the foldLeft. So that would translate to "(0.foldLeft(ii))"? (Where is my mystake?) – Fabian Jan 7 '11 at 16:02
It translates to ii.foldLeft(0), actually. An operator that ends with a colon is interpreted as a method on its right argument instead of its left! What the fold says is, given an accumulator i and a new bit b, generate the result (i<<1)|b, that is, shift i over by one bit to the left and put the new bit at the bottom. The fold applies this across the entire iterator. – Rex Kerr Jan 7 '11 at 16:33

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