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I have been working on a small Plagiarism detection engine which uses Idea from MOSS. I need a Rolling Hash function, I am inspired from Rabin-Karp Algorithm.

Code I wrote -->

#!/usr/bin/env ruby
#Designing a rolling hash function.
#Inspired from the Rabin-Karp Algorithm

module Myth
  module Hasher

    #Defining a Hash Structure
    #A hash is a integer value + line number where the word for this hash existed in the source file'Hash',:value,:line_number)

    #For hashing a piece of text we ned two sets of parameters
    #k-->For buildinf units of k grams hashes  
    #q-->Prime which lets calculations stay within range
    def calc_hash(text_to_process,k,q)



      #Individual hashes for k-grams

      #The entire k-grams hashes list for the document

      for c in 0...k do

      text_hash_string << text_hash.to_s << " "


      for c in 0..loop do        
        puts text_hash
        text_hash_string << text_hash_string << " "


I am running it with values --> calc_hash(text,5,101) where text is a String input.

The code is very slow. Where am I going wrong?

share|improve this question
Where is the bottleneck (or bottlnecks)? Which section of code accounts for the most CPU time? Please at least run a few simple tests, "too slow" is overly vague. – Ed S. Dec 30 '11 at 17:49
I have been trying to implement the algorithm based on the text "Introduction to Algorithm", the main loop which is calculating hashes based on previous calculated hash is slow. How can profile it further? – Nitish Upreti Dec 30 '11 at 17:52
Just as a coding style recommendation, use spaces between your operators and values. They won't make any difference in the run-time speed, and will make your code more easily maintained. – the Tin Man Dec 30 '11 at 18:35
up vote 5 down vote accepted

Look at Ruby-Prof, a profiler for Ruby. Use gem install ruby-prof to install it.

Once you have some ideas where the code is lagging, you can use Ruby's Benchmark to try different algorithms to find the fastest.

Nose around on StackOverflow and you'll see lots of places where we'll use Benchmark to test various methods to see which is the fastest. You'll also get an idea of different ways to set up the tests.

For instance, looking at your code, I wasn't sure whether an append, <<, was better than concatenating using + or using string interpolation. Here's the code to test that and the results:

require 'benchmark'
include Benchmark

n = 1_000_000
bm(13) do |x|"interpolate") { n.times { foo = "foo"; bar = "bar"; "#{foo}#{bar}" } }"concatenate") { n.times { foo = "foo"; bar = "bar"; foo + bar      } }"append")      { n.times { foo = "foo"; bar = "bar"; foo << bar     } }

ruby test.rb; ruby test.rb
                   user     system      total        real
interpolate    1.090000   0.000000   1.090000 (  1.093071)
concatenate    0.860000   0.010000   0.870000 (  0.865982)
append         0.750000   0.000000   0.750000 (  0.753016)
                   user     system      total        real
interpolate    1.080000   0.000000   1.080000 (  1.085537)
concatenate    0.870000   0.000000   0.870000 (  0.864697)
append         0.750000   0.000000   0.750000 (  0.750866)

I was wondering about the effects of using fixed versus variables when appending strings based on @Myth17's comment below:

require 'benchmark'
include Benchmark

n = 1_000_000
bm(13) do |x|"interpolate") { n.times { foo = "foo"; bar = "bar"; "#{foo}#{bar}" } }"concatenate") { n.times { foo = "foo"; bar = "bar"; foo + bar      } }"append")      { n.times { foo = "foo"; bar = "bar"; foo << bar     } }"append2")     { n.times { foo = "foo"; bar = "bar"; "foo" << bar   } }"append3")     { n.times { foo = "foo"; bar = "bar"; "foo" << "bar" } }

Resulting in:

ruby test.rb;ruby test.rb

                   user     system      total        real
interpolate    1.330000   0.000000   1.330000 (  1.326833)
concatenate    1.080000   0.000000   1.080000 (  1.084989)
append         0.940000   0.010000   0.950000 (  0.937635)
append2        1.160000   0.000000   1.160000 (  1.165974)
append3        1.400000   0.000000   1.400000 (  1.397616)

                   user     system      total        real
interpolate    1.320000   0.000000   1.320000 (  1.325286)
concatenate    1.100000   0.000000   1.100000 (  1.090585)
append         0.930000   0.000000   0.930000 (  0.936956)
append2        1.160000   0.000000   1.160000 (  1.157424)
append3        1.390000   0.000000   1.390000 (  1.392742)

The values are different than my previous test because the code is being run on my laptop.

Appending two variables is faster than when a fixed string is involved because there is overhead; Ruby has to create an intermediate variable and then append to it.

The big lesson here is we can make a more informed decision when we're writing code because we know what runs faster. At the same time, the differences are not very big, since most code isn't running 1,000,000 loops. Your mileage might vary.

share|improve this answer
Thanks. I was unaware of it. Will have a look. :) – Nitish Upreti Dec 30 '11 at 18:00
@Myth17, I added an example of benchmark. – the Tin Man Dec 30 '11 at 18:27
Also Append does not make new copies of string when concatenating in memory. – Nitish Upreti Dec 31 '11 at 3:20
Correct. It modifies the receiver, which can have unintended side-effects, or, in other words, create a bug, if you don't expect it. – the Tin Man Dec 31 '11 at 4:02
It was the String operating which was causing the algorithm to slow down. :| – Nitish Upreti Dec 31 '11 at 4:14

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