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I'm trying to code in the simplest way a program to count word occurences in file in Scala Language. So far I have these piece of code:

import scala.io.Codec.string2codec
import scala.io.Source
import scala.reflect.io.File

object WordCounter {
    val SrcDestination: String = ".." + File.separator + "file.txt"
    val Word = "\\b([A-Za-z\\-])+\\b".r

    def main(args: Array[String]): Unit = {

        val counter = Source.fromFile(SrcDestination)("UTF-8").getLines.
            map(l => Word.findAllIn(l.toLowerCase()).toSeq).
            toStream.groupBy(identity).mapValues(_.length)

        println(counter)
    }
}

Don't bother of regexp expression. I would like to know how to extract single words from sequence retrieved in this line:

map(l => Word.findAllIn(l.toLowerCase()).toSeq)

in order to get each word occurency counted. Currently I'm getting map with counted words sequences.

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4 Answers 4

up vote 10 down vote accepted

You can turn the file lines into words by splitting them with the regex "\\W+" (flatmap is lazy so it doesn't need to load the entire file into memory). To count occurrences you can fold over a Map[String, Int] updating it with each word (much more memory and time efficient than using groupBy)

scala.io.Source.fromFile("file.txt")
  .getLines
  .flatMap(_.split("\\W+"))
  .foldLeft(Map.empty[String, Int]){
     (count, word) => count + (word -> (count.getOrElse(word, 0) + 1))
  }
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I think the following is slightly easier to understand:

Source.fromFile("file.txt").
  getLines().
  flatMap(_.split("\\W+")).
  toList.
  groupBy((word: String) => word).
  mapValues(_.length)
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2  
FWIW, I think you could replace (word: String) => word with identity. –  Simeon Fitch Feb 9 '14 at 15:46
1  
This would hold the whole file content in memory, while the accepted answers would not. –  benroth May 5 '14 at 17:41

I'm not 100% sure what you're asking, but I think I see the problem. Try using flatMap instead of map:

flatMap(l => Word.findAllIn(l.toLowerCase()).toSeq)

This will concatenate all of your sequences together so that groupBy is done on individual words instead of at the line level.


A note about your Regex

I know you said not to worry about your Regex, but here are a couple changes you can make to make it a little more readable. Here's what you have right now:

val Word = "\\b([A-Za-z\\-])+\\b".r

First, you can use Scala's triple-quoted strings so you don't have to escape your backslashes:

val Word = """\b([A-Za-z\-])+\b""".r

Second, if you put the - at the beginning of your character class then you don't need to escape it:

val Word = """\b([-A-Za-z])+\b""".r
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Here is what I did. This will chop a file. Hashmap is a good bet for high performance and will outperform any sort of sort. There is a more terse sort and slice function in there too you can look at.

import java.io.FileNotFoundException

/**.
 * Cohesive static method object for file handling.
 */
object WordCountFileHandler {

  val FILE_FORMAT = "utf-8"

  /**
   * Take input from file. Split on spaces.
   * @param fileLocationAndName string location of file
   * @return option of string iterator
   */
  def apply (fileLocationAndName: String) : Option[Iterator[String]] = {
    apply (fileLocationAndName, " ")
  }

  /**
   * Split on separator parameter.
   * Speculative generality :P
   * @param fileLocationAndName string location of file
   * @param wordSeperator split on this string
   * @return
   */
  def apply (fileLocationAndName: String, wordSeperator: String): Option[Iterator[String]] = {
    try{
      val words = scala.io.Source.fromFile(fileLocationAndName).getLines() //scala io.Source is a bit hackey. No need to close file.

      //Get rid of anything funky... need the double space removal for files like the README.md...
      val wordList = words.reduceLeft(_ + wordSeperator + _).replaceAll("[^a-zA-Z\\s]", "").replaceAll("  ", "").split(wordSeperator)
      //wordList.foreach(println(_))
      wordList.length match {
        case 0 => return None
        case _ => return Some(wordList.toIterator)
      }
    } catch {
      case _:FileNotFoundException => println("file not found: " + fileLocationAndName); return None
      case e:Exception => println("Unknown exception occurred during file handling: \n\n" + e.getStackTrace); return None
    }
  }
}

import collection.mutable

/**
 * Static method object.
 * Takes a processed map and spits out the needed info
 * While a small performance hit is made in not doing this during the word list analysis,
 * this does demonstrate cohesion and open/closed much better.
 * author: jason goodwin
 */
object WordMapAnalyzer {

  /**
   * get input size
   * @param input
   * @return
   */
  def getNumberOfWords(input: mutable.Map[String, Int]): Int = {
    input.size
  }

  /**
   * Should be fairly logarithmic given merge sort performance is generally about O(6nlog2n + 6n).
   * See below for more performant method.
   * @param input
   * @return
   */

  def getTopCWordsDeclarative(input: mutable.HashMap[String, Int], c: Int): Map[String, Int] = {
    val sortedInput = input.toList.sortWith(_._2 > _._2)
    sortedInput.take(c).toMap
  }

  /**
   * Imperative style is used here for much better performance relative to the above.
   * Growth can be reasoned at linear growth on random input.
   * Probably upper bounded around O(3n + nc) in worst case (ie a sorted input from small to high).
   * @param input
   * @param c
   * @return
   */
  def getTopCWordsImperative(input: mutable.Map[String, Int], c: Int): mutable.Map[String, Int] = {
    var bottomElement: (String, Int) = ("", 0)
    val topList = mutable.HashMap[String, Int]()

    for (x <- input) {
      if (x._2 >= bottomElement._2 && topList.size == c ){
        topList -= (bottomElement._1)
        topList +=((x._1, x._2))
        bottomElement = topList.toList.minBy(_._2)
      } else if (topList.size < c ){
        topList +=((x._1, x._2))
        bottomElement = topList.toList.minBy(_._2)
      }
    }
    //println("Size: " + topList.size)

    topList.asInstanceOf[mutable.Map[String, Int]]
  }
}

object WordMapCountCalculator {

  /**
   * Take a list and return a map keyed by words with a count as the value.
   * @param wordList List[String] to be analysed
   * @return HashMap[String, Int] with word as key and count as pair.
   * */

   def apply (wordList: Iterator[String]): mutable.Map[String, Int] = {
    wordList.foldLeft(new mutable.HashMap[String, Int])((word, count) => {
      word get(count) match{
        case Some(x) => word += (count -> (x+1))   //if in map already, increment count
        case None => word += (count -> 1)          //otherwise, set to 1
      }
    }).asInstanceOf[mutable.Map[String, Int]] 
}
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