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428 lines
12 KiB
C
428 lines
12 KiB
C
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/* This is the Porter stemming algorithm, coded up in ANSI C by the
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author. It may be be regarded as canonical, in that it follows the
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algorithm presented in
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Porter, 1980, An algorithm for suffix stripping, Program, Vol. 14,
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no. 3, pp 130-137,
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only differing from it at the points marked --DEPARTURE-- below.
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See also http://www.tartarus.org/~martin/PorterStemmer
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The algorithm as described in the paper could be exactly replicated
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by adjusting the points of DEPARTURE, but this is barely necessary,
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because (a) the points of DEPARTURE are definitely improvements, and
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(b) no encoding of the Porter stemmer I have seen is anything like
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as exact as this version, even with the points of DEPARTURE!
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You can compile it on Unix with 'gcc -O3 -o stem stem.c' after which
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'stem' takes a list of inputs and sends the stemmed equivalent to
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stdout.
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The algorithm as encoded here is particularly fast.
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Release 1: was many years ago
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Release 2: 11 Apr 2013
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fixes a bug noted by Matt Patenaude <matt@mattpatenaude.com>,
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case 'o': if (ends("\03" "ion") && (b[j] == 's' || b[j] == 't')) break;
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==>
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case 'o': if (ends("\03" "ion") && j >= k0 && (b[j] == 's' || b[j] == 't')) break;
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to avoid accessing b[k0-1] when the word in b is "ion".
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Release 3: 25 Mar 2014
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fixes a similar bug noted by Klemens Baum <klemensbaum@gmail.com>,
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that if step1ab leaves a one letter result (ied -> i, aing -> a etc),
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step2 and step4 access the byte before the first letter. So we skip
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steps after step1ab unless k > k0.
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*/
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#include <string.h> /* for memmove */
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#include "stem.h"
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#define TRUE 1
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#define FALSE 0
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/* The main part of the stemming algorithm starts here. b is a buffer
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holding a word to be stemmed. The letters are in b[k0], b[k0+1] ...
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ending at b[k]. In fact k0 = 0 in this demo program. k is readjusted
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downwards as the stemming progresses. Zero termination is not in fact
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used in the algorithm.
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Note that only lower case sequences are stemmed. Forcing to lower case
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should be done before stem(...) is called.
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*/
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static char* b; /* buffer for word to be stemmed */
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static int k, k0, jj; /* j is a general offset into the string */
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/* cons(i) is TRUE <=> b[i] is a consonant. */
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static int cons(int i)
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{
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switch (b[i])
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{
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case 'a': case 'e': case 'i': case 'o': case 'u': return FALSE;
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case 'y': return (i == k0) ? TRUE : !cons(i - 1);
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default: return TRUE;
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}
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}
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/* m() measures the number of consonant sequences between k0 and j. if c is
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a consonant sequence and v a vowel sequence, and <..> indicates arbitrary
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presence,
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<c><v> gives 0
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<c>vc<v> gives 1
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<c>vcvc<v> gives 2
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<c>vcvcvc<v> gives 3
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....
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*/
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static int m()
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{
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int n = 0;
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int i = k0;
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while (TRUE)
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{
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if (i > jj) return n;
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if (!cons(i)) break; i++;
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}
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i++;
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while (TRUE)
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{
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while (TRUE)
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{
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if (i > jj) return n;
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if (cons(i)) break;
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i++;
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}
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i++;
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n++;
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while (TRUE)
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{
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if (i > jj) return n;
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if (!cons(i)) break;
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i++;
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}
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i++;
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}
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}
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/* vowelinstem() is TRUE <=> k0,...j contains a vowel */
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static int vowelinstem()
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{
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int i; for (i = k0; i <= jj; i++) if (!cons(i)) return TRUE;
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return FALSE;
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}
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/* doublec(j) is TRUE <=> j,(j-1) contain a double consonant. */
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static int doublec(int j)
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{
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if (j < k0 + 1) return FALSE;
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if (b[j] != b[j - 1]) return FALSE;
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return cons(j);
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}
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/* cvc(i) is TRUE <=> i-2,i-1,i has the form consonant - vowel - consonant
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and also if the second c is not w,x or y. this is used when trying to
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restore an e at the end of a short word. e.g.
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cav(e), lov(e), hop(e), crim(e), but
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snow, box, tray.
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*/
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static int cvc(int i)
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{
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if (i < k0 + 2 || !cons(i) || cons(i - 1) || !cons(i - 2)) return FALSE;
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{ int ch = b[i];
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if (ch == 'w' || ch == 'x' || ch == 'y') return FALSE;
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}
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return TRUE;
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}
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/* ends(s) is TRUE <=> k0,...k ends with the string s. */
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static int ends(char* s)
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{
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int length = s[0];
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if (s[length] != b[k]) return FALSE; /* tiny speed-up */
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if (length > k - k0 + 1) return FALSE;
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if (memcmp(b + k - length + 1, s + 1, length) != 0) return FALSE;
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jj = k - length;
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return TRUE;
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}
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/* setto(s) sets (j+1),...k to the characters in the string s, readjusting
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k. */
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static void setto(char* s)
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{
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int length = s[0];
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memmove(b + jj + 1, s + 1, length);
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k = jj + length;
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}
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/* r(s) is used further down. */
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static void r(char* s) { if (m() > 0) setto(s); }
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/* step1ab() gets rid of plurals and -ed or -ing. e.g.
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caresses -> caress
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ponies -> poni
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ties -> ti
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caress -> caress
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cats -> cat
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feed -> feed
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agreed -> agree
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disabled -> disable
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matting -> mat
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mating -> mate
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meeting -> meet
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milling -> mill
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messing -> mess
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meetings -> meet
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*/
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static void step1ab()
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{
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if (b[k] == 's')
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{
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if (ends("\04" "sses")) k -= 2; else
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if (ends("\03" "ies")) setto("\01" "i"); else
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if (b[k - 1] != 's') k--;
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}
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if (ends("\03" "eed")) { if (m() > 0) k--; }
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else
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if ((ends("\02" "ed") || ends("\03" "ing")) && vowelinstem())
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{
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k = jj;
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if (ends("\02" "at")) setto("\03" "ate"); else
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if (ends("\02" "bl")) setto("\03" "ble"); else
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if (ends("\02" "iz")) setto("\03" "ize"); else
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if (doublec(k))
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{
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k--;
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{ int ch = b[k];
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if (ch == 'l' || ch == 's' || ch == 'z') k++;
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}
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}
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else if (m() == 1 && cvc(k)) setto("\01" "e");
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}
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}
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/* step1c() turns terminal y to i when there is another vowel in the stem. */
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static void step1c() { if (ends("\01" "y") && vowelinstem()) b[k] = 'i'; }
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/* step2() maps double suffices to single ones. so -ization ( = -ize plus
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-ation) maps to -ize etc. note that the string before the suffix must give
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m() > 0. */
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static void step2() {
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switch (b[k - 1])
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{
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case 'a': if (ends("\07" "ational")) { r("\03" "ate"); break; }
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if (ends("\06" "tional")) { r("\04" "tion"); break; }
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break;
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case 'c': if (ends("\04" "enci")) { r("\04" "ence"); break; }
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if (ends("\04" "anci")) { r("\04" "ance"); break; }
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break;
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case 'e': if (ends("\04" "izer")) { r("\03" "ize"); break; }
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break;
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case 'l': if (ends("\03" "bli")) { r("\03" "ble"); break; } /*-DEPARTURE-*/
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/* To match the published algorithm, replace this line with
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case 'l': if (ends("\04" "abli")) { r("\04" "able"); break; } */
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if (ends("\04" "alli")) { r("\02" "al"); break; }
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if (ends("\05" "entli")) { r("\03" "ent"); break; }
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if (ends("\03" "eli")) { r("\01" "e"); break; }
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if (ends("\05" "ousli")) { r("\03" "ous"); break; }
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break;
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case 'o': if (ends("\07" "ization")) { r("\03" "ize"); break; }
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if (ends("\05" "ation")) { r("\03" "ate"); break; }
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if (ends("\04" "ator")) { r("\03" "ate"); break; }
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break;
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case 's': if (ends("\05" "alism")) { r("\02" "al"); break; }
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if (ends("\07" "iveness")) { r("\03" "ive"); break; }
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if (ends("\07" "fulness")) { r("\03" "ful"); break; }
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if (ends("\07" "ousness")) { r("\03" "ous"); break; }
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break;
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case 't': if (ends("\05" "aliti")) { r("\02" "al"); break; }
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if (ends("\05" "iviti")) { r("\03" "ive"); break; }
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if (ends("\06" "biliti")) { r("\03" "ble"); break; }
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break;
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case 'g': if (ends("\04" "logi")) { r("\03" "log"); break; } /*-DEPARTURE-*/
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/* To match the published algorithm, delete this line */
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}
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}
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/* step3() deals with -ic-, -full, -ness etc. similar strategy to step2. */
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static void step3() {
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switch (b[k])
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{
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case 'e': if (ends("\05" "icate")) { r("\02" "ic"); break; }
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if (ends("\05" "ative")) { r("\00" ""); break; }
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if (ends("\05" "alize")) { r("\02" "al"); break; }
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break;
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case 'i': if (ends("\05" "iciti")) { r("\02" "ic"); break; }
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break;
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case 'l': if (ends("\04" "ical")) { r("\02" "ic"); break; }
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if (ends("\03" "ful")) { r("\00" ""); break; }
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break;
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case 's': if (ends("\04" "ness")) { r("\00" ""); break; }
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break;
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}
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}
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/* step4() takes off -ant, -ence etc., in context <c>vcvc<v>. */
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static void step4()
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{
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switch (b[k - 1])
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{
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case 'a': if (ends("\02" "al")) break; return;
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case 'c': if (ends("\04" "ance")) break;
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if (ends("\04" "ence")) break; return;
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case 'e': if (ends("\02" "er")) break; return;
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case 'i': if (ends("\02" "ic")) break; return;
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case 'l': if (ends("\04" "able")) break;
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if (ends("\04" "ible")) break; return;
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case 'n': if (ends("\03" "ant")) break;
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if (ends("\05" "ement")) break;
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if (ends("\04" "ment")) break;
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if (ends("\03" "ent")) break; return;
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case 'o': if (ends("\03" "ion") && jj >= k0 && (b[jj] == 's' || b[jj] == 't')) break;
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if (ends("\02" "ou")) break; return;
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/* takes care of -ous */
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case 's': if (ends("\03" "ism")) break; return;
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case 't': if (ends("\03" "ate")) break;
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if (ends("\03" "iti")) break; return;
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case 'u': if (ends("\03" "ous")) break; return;
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case 'v': if (ends("\03" "ive")) break; return;
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case 'z': if (ends("\03" "ize")) break; return;
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default: return;
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}
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if (m() > 1) k = jj;
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}
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/* step5() removes a final -e if m() > 1, and changes -ll to -l if
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m() > 1. */
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static void step5()
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{
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jj = k;
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if (b[k] == 'e')
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{
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int a = m();
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if (a > 1 || a == 1 && !cvc(k - 1)) k--;
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}
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if (b[k] == 'l' && doublec(k) && m() > 1) k--;
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}
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/* In stem(p,i,j), p is a char pointer, and the string to be stemmed is from
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p[i] to p[j] inclusive. Typically i is zero and j is the offset to the last
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character of a string, (p[j+1] == '\0'). The stemmer adjusts the
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characters p[i] ... p[j] and returns the new end-point of the string, k.
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Stemming never increases word length, so i <= k <= j. To turn the stemmer
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into a module, declare 'stem' as extern, and delete the remainder of this
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file.
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*/
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int stem(char* p, int i, int j)
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{
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b = p; k = j; k0 = i; /* copy the parameters into statics */
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if (k <= k0 + 1) return k; /*-DEPARTURE-*/
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/* With this line, strings of length 1 or 2 don't go through the
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stemming process, although no mention is made of this in the
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published algorithm. Remove the line to match the published
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algorithm. */
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step1ab();
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if (k > k0) {
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step1c(); step2(); step3(); step4(); step5();
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}
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return k;
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}
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#if 0
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/*--------------------stemmer definition ends here------------------------*/
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#include <stdio.h>
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#include <stdlib.h> /* for malloc, free */
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#include <ctype.h> /* for isupper, islower, tolower */
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static char* s; /* a char * (=string) pointer; passed into b above */
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#define INC 50 /* size units in which s is increased */
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static int i_max = INC; /* maximum offset in s */
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void increase_s()
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{
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i_max += INC;
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{ char* new_s = (char*)malloc(i_max + 1);
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{ int i; for (i = 0; i < i_max; i++) new_s[i] = s[i]; } /* copy across */
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free(s); s = new_s;
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}
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}
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#define LETTER(ch) (isupper(ch) || islower(ch))
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static void stemfile(FILE* f)
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{
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while (TRUE)
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{
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int ch = getc(f);
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if (ch == EOF) return;
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if (LETTER(ch))
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{
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int i = 0;
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while (TRUE)
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{
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if (i == i_max) increase_s();
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ch = tolower(ch); /* forces lower case */
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s[i] = ch; i++;
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ch = getc(f);
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if (!LETTER(ch)) { ungetc(ch, f); break; }
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}
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s[stem(s, 0, i - 1) + 1] = 0;
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/* the previous line calls the stemmer and uses its result to
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zero-terminate the string in s */
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printf("%s", s);
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}
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else putchar(ch);
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}
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}
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int main(int argc, char* argv[])
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{
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int i;
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s = (char*)malloc(i_max + 1);
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for (i = 1; i < argc; i++)
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{
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FILE* f = fopen(argv[i], "r");
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if (f == 0) { fprintf(stderr, "File %s not found\n", argv[i]); exit(1); }
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stemfile(f);
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}
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free(s);
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return 0;
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}
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#endif
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