Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm trying to extract all the unique characters from my utf-8 French dictionary file using this Ruby code. The dictionary is 3.7 MB. For some reason it takes my decent computer about half an hour to execute. Any ideas?

c =
f = open "dict"
s =

for i in 0..s.length-1
    c << s[i]
share|improve this question
Upon completion there were only 69 characters in the set. I don't see why it should take so long to execute. – David Winiecki Jun 13 '12 at 0:41
up vote 5 down vote accepted

Reading in the entire file in one go before performing any computation on it prevents IO from being interleaved with computation. Furthermore, it increases memory pressure (potentially important if you're running close to the limit of your memory) and drastically reduces cache coherency.

I wrote the following little script which executes in .3 seconds on my /usr/share/dict/words file -- less than a megabyte, but still large enough to be slightly interesting:

$ cat /tmp/set.rb 

require 'set'

c =
f = open "/usr/share/dict/words"

f.each_char do |char|
    c << char

p c
$ time /tmp/set.rb 
#<Set: {"A", "\n", "'", "s", "B", "M", "C", "T", "H", "I", "D", "S", "O", "L", "P", "W", "Z", "a", "c", "h", "e", "n", "l", "i", "y", "r", "o", "b", "d", "t", "u", "j", "g", "m", "p", "v", "x", "f", "k", "z", "w", "q", "ó", "ü", "á", "ö", "ñ", "E", "F", "R", "U", "N", "G", "K", "é", "ä", "Q", "è", "V", "J", "X", "ç", "ô", "í", "Y", "â", "û", "ê", "å", "Å"}>

real    0m0.341s
user    0m0.340s
sys 0m0.000s

Your program was still executing one minute later, and I gave up.

The main difference is that mine uses the built-in iterators to read into a buffer a smaller amount of the file (probably 4k-16k) and hand me a specific character each iteration through. This will re-use the same small amounts of memory over and over again and allow the CPU's relatively small cache lines to store the entirety of the data.


With a small test case I was able to isolate the speed difference mostly to the each_char vs string sub-scripting. Jörg points out that string subscripting is an O(N) operation -- because UTF-8 strings cannot be simply indexed by multiplication as one might expect, finding the Nth character means starting from the beginning. Thus, your approach is O(N^2) and mine was just O(N), and that goes much much further to explaining the performance difference. I'm finally content that we figured out the core cause.

share|improve this answer
Holy cow! I can't believe how much of a difference that made! I've studied some data structure and algorithm efficiency stuff, but I had no idea that considering the cache could give such an improvement. I'm glad it wasn't because Sets are slow. I'll have to study this and think on it. Thanks!!! – David Winiecki Jun 13 '12 at 0:49
I certainly wouldn't have expected your version to perform as much slower as it did -- I honestly would have guessed a factor of 10 difference at the most. This was a complete surprise to me, and I can't help thinking that there must be more to it. (Perhaps it's largely due to the array subscripts vs iterator? More testing needed.) Anyway, this was a fun find. Thanks! – sarnold Jun 13 '12 at 0:58
Actually, it does seem to be mostly due to iterator vs indexing. I'm not sure why that would matter, but there we go. :) – sarnold Jun 13 '12 at 1:02
Finding the n'th character in a string is O(n). So, your solution is O(n), the OP's solution is O(n^2). Since n == 3.7 million, the OP's solution is roughly 4 million times slower, not 10 times. – Jörg W Mittag Jun 13 '12 at 9:25
I also always forget about each_with_object, because it's so new. It's basically the "ugly" (i.e. mutable, impure) cousin of inject. Whenever you use inject just to mutate the accumulator and then return it, you can use each_with_object instead, which will ignore the block's return value and just thread through the accumulator for you. IOW: inject {|a, e| do_something_with_a; a } == each_with_object {|e, a| do_something_with_a }. In this particular case, both would work, actually, because s << c returns s, but each_with_object might be more efficient. – Jörg W Mittag Jun 13 '12 at 21:49

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.