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#include <glib.h>
#include <stdio.h>
#include <unicode.h>
#include <ctype.h>
#include <string.h>
#include <errno.h>
#include "ibex_internal.h"
#define d(x)
static signed char utf8_trans[] = {
'A', 'A', 'A', 'A', 'A', 'A', -1, 'C', 'E', 'E', 'E', 'E', 'I', 'I',
'I', 'I', -2, 'N', 'O', 'O', 'O', 'O', 'O', '*', 'O', 'U', 'U', 'U',
'U', 'Y', -3, -4, 'a', 'a', 'a', 'a', 'a', 'a', -5, 'c', 'e', 'e',
'e', 'e', 'i', 'i', 'i', 'i', -6, 'n', 'o', 'o', 'o', 'o', 'o', '/',
'o', 'u', 'u', 'u', 'u', 'y', -7, 'y', 'A', 'a', 'A', 'a', 'A', 'a',
'C', 'c', 'C', 'c', 'C', 'c', 'C', 'c', 'D', 'd', 'D', 'd', 'E', 'e',
'E', 'e', 'E', 'e', 'E', 'e', 'E', 'e', 'G', 'g', 'G', 'g', 'G', 'g',
'G', 'g', 'H', 'h', 'H', 'h', 'I', 'i', 'I', 'i', 'I', 'i', 'I', 'i',
'I', 'i', -8, -9, 'J', 'j', 'K', 'k', 'k', 'L', 'l', 'L', 'l', 'L',
'l', 'L', 'l', 'L', 'l', 'N', 'n', 'N', 'n', 'N', 'n', 'n', -10, -11,
'O', 'o', 'O', 'o', 'O', 'o', -12, -13, 'R', 'r', 'R', 'r', 'R', 'r',
'S', 'r', 'S', 's', 'S', 's', 'S', 's', 'T', 't', 'T', 't', 'T', 't',
'U', 'u', 'U', 'u', 'U', 'u', 'U', 'u', 'U', 'u', 'U', 'u', 'W', 'w',
'Y', 'y', 'Y', 'Z', 'z', 'Z', 'z', 'Z', 'z', 's'
};
static char *utf8_long_trans[] = {
"AE", "TH", "TH", "ss", "ae", "th", "th", "IJ", "ij",
"NG", "ng", "OE", "oe"
};
/* This is a bit weird. It takes pointers to the start and end (actually
* just past the end) of a UTF-8-encoded word, and a buffer at least 1
* byte longer than the length of the word. It copies the word into the
* buffer in all lowercase without accents, and splits up ligatures.
* (Since any ligature would be a multi-byte character in UTF-8, splitting
* them into two US-ASCII characters won't overrun the buffer.)
*
* It is not safe to call this routine with bad UTF-8.
*/
static void
ibex_normalise_word(char *start, char *end, char *buf)
{
unsigned char *s, *d;
unicode_char_t uc;
s = (unsigned char *)start;
d = (unsigned char *)buf;
while (s < (unsigned char *)end) {
if (*s < 0x80) {
/* US-ASCII character: copy unless it's
* an apostrophe.
*/
if (*s != '\'')
*d++ = tolower (*s);
s++;
} else {
char *next = unicode_get_utf8 (s, &uc);
if (uc >= 0xc0 && uc < 0xc0 + sizeof (utf8_trans)) {
signed char ch = utf8_trans[uc - 0xc0];
if (ch > 0)
*d++ = tolower (ch);
else {
*d++ = tolower (utf8_long_trans[-ch - 1][0]);
*d++ = tolower (utf8_long_trans[-ch - 1][1]);
}
s = next;
} else {
while (s < (unsigned char *)next)
*d++ = *s++;
}
}
}
*d = '\0';
}
enum { IBEX_ALPHA, IBEX_NONALPHA, IBEX_INVALID, IBEX_INCOMPLETE };
/* This incorporates parts of libunicode, because there's no way to
* force libunicode to not read past a certain point.
*/
static int
utf8_category (char *sp, char **snp, char *send)
{
unsigned char *p = (unsigned char *)sp, **np = (unsigned char **)snp;
unsigned char *end = (unsigned char *)send;
if (isascii (*p)) {
*np = p + 1;
if (isalpha (*p) || *p == '\'')
return IBEX_ALPHA;
return IBEX_NONALPHA;
} else {
unicode_char_t uc;
int more;
if ((*p & 0xe0) == 0xc0) {
more = 1;
uc = *p & 0x1f;
} else if ((*p & 0xf0) == 0xe0) {
more = 2;
uc = *p & 0x0f;
} else if ((*p & 0xf8) == 0xf0) {
more = 3;
uc = *p & 0x07;
} else if ((*p & 0xfc) == 0xf8) {
more = 4;
uc = *p & 0x03;
} else if ((*p & 0xfe) == 0xfc) {
more = 5;
uc = *p & 0x01;
} else
return IBEX_INVALID;
if (p + more > end)
return IBEX_INCOMPLETE;
while (more--) {
if ((*++p & 0xc0) != 0x80)
return IBEX_INVALID;
uc <<= 6;
uc |= *p & 0x3f;
}
*np = p + 1;
if (unicode_isalpha (uc))
return IBEX_ALPHA;
else
return IBEX_NONALPHA;
}
}
/**
* ibex_index_buffer: the lowest-level ibex indexing interface
* @ib: an ibex
* @name: the name of the file being indexed
* @buffer: a buffer containing data from the file
* @len: the length of @buffer
* @unread: an output argument containing the number of unread bytes
*
* This routine indexes up to @len bytes from @buffer into @ib.
* If @unread is NULL, the indexer assumes that the buffer ends on a
* word boundary, and will index all the way to the end of the
* buffer. If @unread is not NULL, and the buffer ends with an
* alphabetic character, the indexer will assume that the buffer has
* been cut off in the middle of a word, and return the number of
* un-indexed bytes at the end of the buffer in *@unread. The caller
* should then read in more data through whatever means it has
* and pass in the unread bytes from the original buffer, followed
* by the new data, on its next call.
*
* Return value: 0 on success, -1 on failure.
**/
int
ibex_index_buffer (ibex *ib, char *name, char *buffer, size_t len, size_t *unread)
{
char *p, *q, *nq, *end, *word;
int wordsiz, cat = 0;
GHashTable *words = g_hash_table_new(g_str_hash, g_str_equal);
GPtrArray *wordlist = g_ptr_array_new();
int i, ret=-1;
if (unread)
*unread = 0;
end = buffer + len;
wordsiz = 20;
word = g_malloc (wordsiz);
p = buffer;
while (p < end) {
while (p < end) {
cat = utf8_category (p, &q, end);
if (cat != IBEX_NONALPHA)
break;
p = q;
}
if (p == end) {
goto done;
} else if (cat == IBEX_INVALID) {
goto error;
} else if (cat == IBEX_INCOMPLETE)
q = end;
while (q < end) {
cat = utf8_category (q, &nq, end);
if (cat != IBEX_ALPHA)
break;
q = nq;
}
if (cat == IBEX_INVALID ||
(cat == IBEX_INCOMPLETE && !unread)) {
goto error;
} else if (cat == IBEX_INCOMPLETE || (q == end && unread)) {
*unread = end - p;
goto done;
}
if (wordsiz < q - p + 1) {
wordsiz = q - p + 1;
word = g_realloc (word, wordsiz);
}
ibex_normalise_word (p, q, word);
if (word[0]) {
if (g_hash_table_lookup(words, word) == 0) {
char *newword = g_strdup(word);
g_ptr_array_add(wordlist, newword);
g_hash_table_insert(words, newword, name);
}
}
p = q;
}
done:
IBEX_LOCK(ib);
d(printf("name %s count %d size %d\n", name, wordlist->len, len));
if (!ib->predone) {
ib->words->klass->index_pre(ib->words);
ib->predone = TRUE;
}
ib->words->klass->add_list(ib->words, name, wordlist);
IBEX_UNLOCK(ib);
ret = 0;
error:
for (i=0;i<wordlist->len;i++)
g_free(wordlist->pdata[i]);
g_ptr_array_free(wordlist, TRUE);
g_hash_table_destroy(words);
g_free (word);
return ret;
}
ibex *ibex_open (char *file, int flags, int mode)
{
ibex *ib;
ib = g_malloc0(sizeof(*ib));
ib->blocks = ibex_block_cache_open(file, flags, mode);
if (ib->blocks == 0) {
g_warning("create: Error occured?: %s\n", strerror(errno));
g_free(ib);
return NULL;
}
/* FIXME: the blockcache or the wordindex needs to manage the other one */
ib->words = ib->blocks->words;
#ifdef ENABLE_THREADS
ib->lock = g_mutex_new();
#endif
return ib;
}
int ibex_save (ibex *ib)
{
d(printf("syncing database\n"));
IBEX_LOCK(ib);
if (ib->predone) {
ib->words->klass->index_post(ib->words);
ib->predone = FALSE;
}
ib->words->klass->sync(ib->words);
/* FIXME: some return */
ibex_block_cache_sync(ib->blocks);
IBEX_UNLOCK(ib);
return 0;
}
int ibex_close (ibex *ib)
{
int ret = 0;
d(printf("closing database\n"));
if (ib->predone) {
ib->words->klass->index_post(ib->words);
ib->predone = FALSE;
}
ib->words->klass->close(ib->words);
ibex_block_cache_close(ib->blocks);
#ifdef ENABLE_THREADS
g_mutex_free(ib->lock);
#endif
g_free(ib);
return ret;
}
void ibex_unindex (ibex *ib, char *name)
{
d(printf("trying to unindex '%s'\n", name));
IBEX_LOCK(ib);
ib->words->klass->unindex_name(ib->words, name);
IBEX_UNLOCK(ib);
}
GPtrArray *ibex_find (ibex *ib, char *word)
{
char *normal;
int len;
GPtrArray *ret;
len = strlen(word);
normal = alloca(len+1);
ibex_normalise_word(word, word+len, normal);
IBEX_LOCK(ib);
ret = ib->words->klass->find(ib->words, normal);
IBEX_UNLOCK(ib);
return ret;
}
gboolean ibex_find_name (ibex *ib, char *name, char *word)
{
char *normal;
int len;
gboolean ret;
len = strlen(word);
normal = alloca(len+1);
ibex_normalise_word(word, word+len, normal);
IBEX_LOCK(ib);
ret = ib->words->klass->find_name(ib->words, name, normal);
IBEX_UNLOCK(ib);
return ret;
}
gboolean ibex_contains_name(ibex *ib, char *name)
{
gboolean ret;
IBEX_LOCK(ib);
ret = ib->words->klass->contains_name(ib->words, name);
IBEX_UNLOCK(ib);
return ret;
}
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