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Given two strings of equal length such that

s1 = "ACCT"
s2 = "ATCT"

I would like to find out the positions where there strings differ. So i have done this. (please suggest a better way of doing it. I bet there should be)

z= seq1.chars.zip(seq2.chars).each_with_index.map{|(s1,s2),index| index+1 if s1!=s2}.compact

z is an array of positions where the two strings are different. In this case z returns 2

Imagine that I add a new string

s3 = "AGCT"

and I wish to compare it with the the others and see where the 3 strings differ. We could do the same approach as above but this time


returns an array of arrays. Given two strings I was relaying on just comparing two chars for equality, but as I add more strings it starts to become overwhelming and as the strings become longer.

#=> [["A", "A", "A"], ["C", "T", "G"], ["C", "C", "C"], ["T", "T", "T"]]


s1.chars.zip(s2.chars,s3.chars).each_with_index.map{|item| item.uniq}

 #=> [["A"], ["C", "T", "G"], ["C"], ["T"]] 

can help reduce redundancy and return positions that are exactly the same(non empty subarray of size 1). I could then print out the indices and contents of the subarrays that are of size > 1.

s1.chars.zip(s2.chars,s3.chars,s4.chars).each_with_index.map{|item| item.uniq}.each_with_index.map{|a,index| [index+1,a] unless a.size== 1}.compact.map{|h| Hash[*h]}
#=> [{2=>["C", "T", "G"]}]

I feel that this will glide to a halt or get slow as I increase the number of strings and as the string lengths get longer. What are some alternative ways of optimally doing this? Thank you.

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You may want to have a look at the generic diff algorithm: en.wikipedia.org/wiki/Diff#Algorithm –  Laurent Pireyn Apr 29 '11 at 7:43
possible duplicate of diff a ruby string or array –  sawa May 23 '11 at 8:23

3 Answers 3

up vote 2 down vote accepted

Here's where I'd start. I'm purposely using different strings to make it easier to see the differences:

str1 = 'jackdaws love my giant sphinx of quartz'
str2 = 'jackdaws l0ve my gi4nt sphinx 0f qu4rtz'

To get the first string's characters:

str1.chars.with_index.to_a - str2.chars.with_index.to_a
=> [["o", 10], ["a", 19], ["o", 30], ["a", 35]]

To get the second string's characters:

str2.chars.with_index.to_a - str1.chars.with_index.to_a
=> [["0", 10], ["4", 19], ["0", 30], ["4", 35]]

There will be a little slow down as the strings get bigger, but it won't be bad.

EDIT: Added more info.

If you have an arbitrary number of strings, and need to compare them all, use Array#combination:

str1 = 'ACCT'
str2 = 'ATCT'
str3 = 'AGCT'

require 'pp'

pp [str1, str2, str3].combination(2).to_a
>> [["ACCT", "ATCT"], ["ACCT", "AGCT"], ["ATCT", "AGCT"]]

In the above output you can see that combination cycles through the array, returning the various n sized combinations of the array elements.

pp [str1, str2, str3].combination(2).map{ |a,b| a.chars.with_index.to_a - b.chars.with_index.to_a }
>> [[["C", 1]], [["C", 1]], [["T", 1]]]

Using combination's output you could cycle through the array, comparing all the elements against each other. So, in the above returned array, in the "ACCT" and "ATCT" pair, 'C' was the difference between the two, located at position 1 in the string. Similarly, in "ACCT" and "AGCT" the difference is "C" again, in position 1. Finally for 'ATCT' and 'AGCT' it's 'T' at position 1.

Because we already saw in the longer string samples that the code will return multiple changed characters, this should get you pretty close.

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would you suggest then doing a pairwise comparison when given more than 2 strings? Assume you have 3 or four strings. –  eastafri Apr 29 '11 at 8:03
Thanks! pretty close. I appreciate! –  eastafri Apr 29 '11 at 8:30
In ruby 2.1.x use there's no with_index method. You can use each_with_index method to accomplish the same. –  atmosx Nov 9 '14 at 16:34
@atmosx: Since when isn't there a with_index method in 2.1+? In 2.1.4 with_index exists in ruby-doc.org/core-2.1.4/Enumerator.html#method-i-with_index. How do you think each_with_index is implemented? –  the Tin Man Nov 9 '14 at 19:20
@theTinMan: Hm, you're right. Yesterday I needed to implement something similar so I used the above code with_index came up as unknown method while each_with_index worked fine, so I figured I should share the info, but now I'm not sure why this happened. I'm using ruby-2.1.2p195 (rvm). –  atmosx Nov 10 '14 at 17:21

Solution 1

strings = %w[ACCT ATCT AGCT]

First, join the strings, and make a hash of all the positions for each character.

joined = strings.join
positions = (0...joined.length).group_by{|i| joined[i]}
# => {"A"=>[0, 4, 8], "C"=>[1, 2, 6, 10], "T"=>[3, 5, 7, 11], "G"=>[9]}

Then, group the indices by their corresponding position within each string, remove those that are repeated as many times as the number of strings. This part is a variant of an algorithm that Jorg suggests.

length = strings.first.length
n = strings.length
diff = Hash[*positions.map{|k, v| 
  [k, v.group_by{|i| i % length}.reject{|i, is| is.length == n}.keys]

This will give something like:

# => {"A"=>[], "C"=>[1], "T"=>[1], "G"=>[1]}

which means that, "A" appears in the same positions in all strings, and "C", "T", and "G" differ at position 1 (count starts from 0) of the strings.

If you simply want to know the positions where the strings differ, do

diff["G"] + diff["A"] + diff["C"] + diff["T"]
# or diff["G"] + diff["A"] + diff["C"]
# => [1]

Solution 2

Note that, by maintaining an array of indices where a pairwise comparison fails, and keep adding to indices to it, comparison of s1 against the rest (s2, s3, ...) will suffice.

length = s1.length
diff = []
[s2, s3, ...].each{|s| diff += (0...length).reject{|i| s1[i] == s[i]}}

Explanation in a bit more detail



Afters1 and s2 are compared, we have the set of indices [3, 6] that represents where they differ. Now, when we add s3 into consideration, it does not matter whether we compare it with s1 or with s2 because, if s1[i] and s2[i] are different, then i is already included in the set [3, 6], so it does not make difference whether or not either of them are different from s3[i] and i is to be added to the set. On the other hand, if s1[i] and s2[i] are the same, it also does not make difference which one of them we compare with s3[i]. Therefore, pairwise comparison of s1 with s2, s3, ... is enough.

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You almost certainly don't want to be doing this analysis with your own code. Rather, you want to be handing it off to an existing multiple sequence alignment tool, like Clustal.

I realise this is not an answer to your question, but i hope it's a solution to your problem!

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Sorry this might not be the answer to my question. For one, multiple alignment assume some substitution function and a gap penalty and assume an evolutionary history.this would be wrong in cases where the strings have no such relationships and i wish not to make substitution assummations. :) –  eastafri Apr 29 '11 at 7:57
You could always use a substitution matrix that weighted all substitutions equally. You would still have a gap penalty; if you wanted to not use gaps, you could make it incredibly large, so no gap would ever be opened. –  Tom Anderson Apr 29 '11 at 22:31

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