Letter frequency
Open a text file and compute letter frequency.
The first 7 solutions (Aikido, C, J, OCaml, Pascal, Python, SIMPOL) moved here from the Array page. They might not all accomplish the same task.
Aikido
<lang aikido>import ctype
var letters = new int [26]
var s = openin (args[0]) while (!s.eof()) {
var ch = s.getchar() if (s.eof()) { break } if (ctype.isalpha (ch)) { var n = cast<int>(ctype.tolower(ch) - 'a') ++letters[n] }
}
foreach i letters.size() {
println (cast<char>('a' + i) + " " + letters[i])
}</lang>
C
<lang c>/* declare array */ int frequency[26]; int ch; FILE* txt_file = fopen ("a_text_file.txt", "rt");
/* init the freq table: */ for (ch = 0; ch < 26; ch++)
frequency[ch] = 0;
while (1) {
ch = fgetc(txt_file); if (ch == EOF) break; /* end of file or read error. EOF is typically -1 */
/* assuming ASCII; "letters" means "a to z" */ if ('a' <= ch && ch <= 'z') /* lower case */ frequency[ch-'a']++; else if ('A' <= ch && ch <= 'Z') /* upper case */ frequency[ch-'A']++;
}</lang>
J
The example task is the same: open a text file and compute letter frequency.
Written in this array programming language, no loops are specified.
Input is a directory-path with filename. Output is a 26-element single-axis integer array.
<lang j> load 'files' NB. fread is among these standard file utilities
ltrfreq=: 3 : 0 letters=. (65+(i.26)) { a. NB. We'll work with minimal alphabet. reduced=. (#~ e.&letters) toupper fread y NB. Omit non-letters. (y is the input.) sums =. +/"_1 = reduced NB. Count how often each letter occurs. sums (letters I. (~. reduced))} 26 # 0 NB. Alphabetize the sums, then return. )</lang>
OCaml
same task, open a text file and compute letter frequency <lang ocaml>let () =
let ic = open_in Sys.argv.(1) in let base = int_of_char 'a' in let arr = Array.make 26 0 in try while true do let c = Char.lowercase(input_char ic) in let ndx = int_of_char c - base in if ndx < 26 && ndx >= 0 then arr.(ndx) <- succ arr.(ndx) done with End_of_file -> close_in ic; for i=0 to 25 do Printf.printf "%c -> %d\n" (char_of_int(i + base)) arr.(i) done</lang>
Here is the documentation of the module Array. (there is also a Bigarray module)
Pascal
This defines an array suitable to hold a 64x64 truecolor image (i.e. red, green and blue RGB values all can go from 0 to 255) and then sets the color of a single pixel <lang pascal>type
color = red, green, blue; rgbvalue = 0 .. 255;
var
picture: array[0 .. 63, 0 .. 63, color] of rgbvalue
begin
{ set pixel (4,7) to yellow } picture[4, 7, red] := 255; picture[4, 7, green] := 255; picture[4, 7, blue] := 0
end.</lang>
Python
Using collections.Counter
<lang python>import collections, sys
def filecharcount(openfile):
c = collections.Counter() for line in openfile: c.update(line) return sorted(c.items())
f = open(sys.argv[1]) print(filecharcount(f))</lang>
Not using collections.Counter
<lang python>import string if hasattr(string, ascii_lowercase):
letters = string.ascii_lowercase # Python 2.2 and later
else:
letters = string.lowercase # Earlier versions
offset = ord('a')
def countletters(file_handle):
"""Traverse a file and compute the number of occurences of each letter """return results as a simple 26 element list of integers. results = [0] * len(letters) for line in file_handle: for char in line: char = char.lower() if char in letters: results[offset - ord(char)] += 1 # Ordinal of 'a' minus ordinal of any lowercase ASCII letter -> 0..25 return results
if __name__ == "__main__":
sourcedata = open(sys.argv[1]) lettercounts = countletters(sourcedata) for i in xrange(len(lettercounts)): print "%s=%d" % (chr(i + ord('a')), lettercounts[i]),</lang>
This example defines the function and provides a sample usage. The if ... __main__... line allows it to be cleanly imported into any other Python code while also allowing it to function as a standalone script. (A very common Python idiom).
Using a numerically indexed array (list) for this is artificial and clutters the code somewhat. The more Pythonic approach would be:
<lang python>... from collections import defaultdict def countletters(file_handle):
"""Count occurences of letters and return a dictionary of them """ results = defaultdict(int) for line in file_handle: for char in line: if char.lower() in letters: c = char.lower() results[c] += 1 return results</lang>
Which eliminates the ungainly fiddling with ordinal values and offsets. More importantly it allows the results to be more simply printed using:
<lang python>lettercounts = countletters(sourcedata) for letter,count in lettercounts.iteritems():
print "%s=%s" % (letter, count),</lang>
Again eliminating all fussing with the details of converting letters into list indices.
SIMPOL
Example: open a text file and compute letter frequency. <lang simpol>constant iBUFSIZE 500
function main(string filename)
fsfileinputstream fpi integer e, i, aval, zval, cval string s, buf, c array chars
e = 0 fpi =@ fsfileinputstream.new(filename, error=e) if fpi =@= .nul s = "Error, file """ + filename + """ not found{d}{a}" else chars =@ array.new() aval = .charval("a") zval = .charval("z") i = 1 while i <= 26 chars[i] = 0 i = i + 1 end while buf = .lcase(fpi.getstring(iBUFSIZE, 1)) while not fpi.endofdata and buf > "" i = 1 while i <= .len(buf) c = .substr(buf, i, 1) cval = .charval(c) if cval >= aval and cval <= zval chars[cval - aval + 1] = chars[cval - aval + 1] + 1 end if i = i + 1 end while buf = .lcase(fpi.getstring(iBUFSIZE, 1)) end while
s = "Character counts for """ + filename + """{d}{a}" i = 1 while i <= chars.count() s = s + .char(aval + i - 1) + ": " + .tostr(chars[i], 10) + "{d}{a}" i = i + 1 end while end if
end function s</lang>
As this was being created I realized that in [SIMPOL] I wouldn't have done it this way (in fact, I wrote it differently the first time and had to go back and change it to use an array afterward). In [SIMPOL] we would have used the set object. It acts similarly to a single-dimensional array, but can also use various set operations, such as difference, unite, intersect, etc. One of th einteresting things is that each unique value is stored only once, and the number of duplicates is stored with it. The sample then looks a little cleaner:
<lang simpol>constant iBUFSIZE 500
function main(string filename)
fsfileinputstream fpi integer e, i, aval, zval string s, buf, c set chars
e = 0 fpi =@ fsfileinputstream.new(filename, error=e) if fpi =@= .nul s = "Error, file """ + filename + """ not found{d}{a}" else chars =@ set.new() aval = .charval("a") zval = .charval("z") buf = .lcase(fpi.getstring(iBUFSIZE, 1)) while not fpi.endofdata and buf > "" i = 1 while i <= .len(buf) c = .substr(buf, i, 1) if .charval(c) >= aval and .charval(c) <= zval chars.addvalue(c) end if i = i + 1 end while buf = .lcase(fpi.getstring(iBUFSIZE, 1)) end while
s = "Character counts for """ + filename + """{d}{a}" i = 1 while i <= chars.count() s = s + chars[i] + ": " + .tostr(chars.valuecount(chars[i]), 10) + "{d}{a}" i = i + 1 end while end if
end function s</lang>
The final stage simply reads the totals for each character. One caveat, if a character is unrepresented, then it will not show up at all in this second implementation.
Tcl
<lang tcl>proc letterHistogram {filename} {
# Initialize table (in case of short texts without every letter) for {set i 97} {$i<=122} {incr i} { set frequency([format %c $i]) 0 } # Iterate over characters in file set f [open $filename] foreach c [split [read $f] ""] { # Count them if they're alphabetic if {[string is alpha $c]} { incr frequency([string tolower $c]) } } close $f # Print the histogram parray frequency
}
letterHistogram the/sample.txt</lang>