Code golf: Word frequency chart
- by ChristopheD
The challenge:
Build an ASCII chart of the most commonly used words in a given text.
The rules:
Only accept a-z and A-Z (alphabetic characters) as part of a word.
Ignore casing (She == she for our purpose).
Ignore the following words (quite arbitary, I know): the, and, of, to, a, i, it, in, or, is
Clarification: considering don't: this would be taken as 2 different 'words' in the ranges a-z and A-Z: (don and t).
Optionally (it's too late to be formally changing the specifications now) you may choose to drop all single-letter 'words' (this could potentially make for a shortening of the ignore list too).
Parse a given text (read a file specified via command line arguments or piped in; presume us-ascii) and build us a word frequency chart with the following characteristics:
Display the chart (also see the example below) for the 22 most common words (ordered by descending frequency).
The bar width represents the number of occurences (frequency) of the word (proportionally). Append one space and print the word.
Make sure these bars (plus space-word-space) always fit: bar + [space] + word + [space] should be always <= 80 characters (make sure you account for possible differing bar and word lenghts: e.g.: the second most common word could be a lot longer then the first while not differing so much in frequency). Maximize bar width within these constraints and scale the bars appropriately (according to the frequencies they represent).
An example:
The text for the example can be found here (Alice's Adventures in Wonderland, by Lewis Carroll).
This specific text would yield the following chart:
_________________________________________________________________________
|_________________________________________________________________________| she
|_______________________________________________________________| you
|____________________________________________________________| said
|____________________________________________________| alice
|______________________________________________| was
|__________________________________________| that
|___________________________________| as
|_______________________________| her
|____________________________| with
|____________________________| at
|___________________________| s
|___________________________| t
|_________________________| on
|_________________________| all
|______________________| this
|______________________| for
|______________________| had
|_____________________| but
|____________________| be
|____________________| not
|___________________| they
|__________________| so
For your information: these are the frequencies the above chart is built upon:
[('she', 553), ('you', 481), ('said', 462), ('alice', 403), ('was', 358), ('that
', 330), ('as', 274), ('her', 248), ('with', 227), ('at', 227), ('s', 219), ('t'
, 218), ('on', 204), ('all', 200), ('this', 181), ('for', 179), ('had', 178), ('
but', 175), ('be', 167), ('not', 166), ('they', 155), ('so', 152)]
A second example (to check if you implemented the complete spec):
Replace every occurence of you in the linked Alice in Wonderland file with superlongstringstring:
________________________________________________________________
|________________________________________________________________| she
|_______________________________________________________| superlongstringstring
|_____________________________________________________| said
|______________________________________________| alice
|________________________________________| was
|_____________________________________| that
|______________________________| as
|___________________________| her
|_________________________| with
|_________________________| at
|________________________| s
|________________________| t
|______________________| on
|_____________________| all
|___________________| this
|___________________| for
|___________________| had
|__________________| but
|_________________| be
|_________________| not
|________________| they
|________________| so
The winner:
Shortest solution (by character count, per language). Have fun!
Edit: Table summarizing the results so far (2012-02-15) (originally added by user Nas Banov):
Language Relaxed Strict
========= ======= ======
GolfScript 130 143
Perl 185
Windows PowerShell 148 199
Mathematica 199
Ruby 185 205
Unix Toolchain 194 228
Python 183 243
Clojure 282
Scala 311
Haskell 333
Awk 336
R 298
Javascript 304 354
Groovy 321
Matlab 404
C# 422
Smalltalk 386
PHP 450
F# 452
TSQL 483 507
The numbers represent the length of the shortest solution in a specific language. "Strict" refers to a solution that implements the spec completely (draws |____| bars, closes the first bar on top with a ____ line, accounts for the possibility of long words with high frequency etc). "Relaxed" means some liberties were taken to shorten to solution.
Only solutions shorter then 500 characters are included. The list of languages is sorted by the length of the 'strict' solution. 'Unix Toolchain' is used to signify various solutions that use traditional *nix shell plus a mix of tools (like grep, tr, sort, uniq, head, perl, awk).