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Jakob Østergaard presented this challenge:

Write a program that reads text from standard-input, and returns (prints) the total number of distinct words found in the text.

How can we meet this challenge with parallel programming (preferably in Go, but a description in English will suffice)?

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Why do you think this problem is amenable to effective parallelization? –  peterSO Jun 22 '11 at 13:16
It seems unlikely that parallelizing this will be useful. You need a single process to split the text into tokens, which is a sizable chunk of the work, and the remaining task is to increment counts in a dictionary, which either requires locking, or keeping a separate dictionary per worker and merging them, likely eliminating any benefit you got from counting them separately. –  Nick Johnson Jun 23 '11 at 1:38
Tim Bray created a parallel benchmark for processing log files, in a number of languages, called the "Wide Finder". You might find it relevant. Processing files is something that can be done in parallel, but perhaps not the standard input. –  kristianp Jun 23 '11 at 8:04

2 Answers 2

up vote 3 down vote accepted

There are several possibilities, but I guess you mean "efficiently" ?

The general idea would be to split the text into manageable chunks, pile those chunks into a queue, and have multiple consumers handle the chunks.

This looks like a typical Map/Reduce application to me:

          _ Worker_
         /          \
        /            \
Splitter--- Worker ---Aggregator
        \            /
         \_ Worker _/

Ideally the "multiple" queues would be a single one with multiple consumers, so that if one worker slows down the whole process does not slows as much.

I would also use a signal from the Splitter to the Workers to let them know the input has been fully consumed and they can start send their results to the Aggregator.

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Here's the solution, in Go, to Jakob Østergaard's problem.

    The problem: Write a program that reads text from 
    standard-input, and returns (prints) the total 
    number of distinct words found in the text. 

    C versus C++, Jakob Østergaard, February 24th, 2004

package main

import (

func main() {
    rdr := bufio.NewReader(os.Stdin)
    words := make(map[string]bool, 1024*1024)
    word := make([]int, 0, 256)
    for {
        r, n, _ := rdr.ReadRune()
        if unicode.IsSpace(r) || n == 0 {
            if len(word) > 0 {
                words[string(word)] = true
                word = word[:0]
            if n == 0 {
        } else {
            word = append(word, r)

It's naive to add the phrase "parallel programming" to this and most other problems and expect some magical improvement. Reading input sequentially from a stream and performing trivial computation provides no significant opportunities for parallel computing.

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(-1) Reading from stdin is just a simplication, the real question is about the algoritmic work of doing count-distrinct in parallel which has real applications and real efficencies in parallel computing –  Soren Feb 24 '13 at 21:00

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