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/*
* UCW Library -- Bit Array Signatures -- A Dubious Detector of Duplicates
*
* (c) 2002 Martin Mares <mj@ucw.cz>
*
* Greatly inspired by: Faloutsos, C. and Christodoulakis, S.: Signature files
* (An access method for documents and its analytical performance evaluation),
* ACM Trans. Office Inf. Syst., 2(4):267--288, Oct. 1984.
*
* This data structure provides a very compact representation
* of a set of strings with insertion and membership search,
* but with a certain low probability it cheats by incidentally
* reporting a non-member as a member. Generally the larger you
* create the structure, the lower this probability is.
*
* How does it work: the structure is just an array of M bits
* and each possible element is hashed to a set of (at most) L
* bit positions. For each element of the represented set, we
* set its L bits to ones and we report as present all elements
* whose all L bits ar set.
*
* Analysis: Let's assume N items have already been stored and let A
* denote L/M (density of the hash function). The probability that
* a fixed bit of the array is set by any of the N items is
* 1 - (1-1/M)^(NL) = 1 - ((1-1/M)^M)^NA = approx. 1 - e^-NA.
* This is minimized by setting A=(ln 2)/N (try taking derivative).
* Given a non-present item, the probability that all of the bits
* corresponding to this item are set by the other items (that is,
* the structure gives a false answer) is (1-e^-NA)^L = 2^-L.
* Hence, if we want to give false answers with probability less
* than epsilon, we take L := -log_2 epsilon, M := 1.45*N*L.
*
* Example: For a set of 10^7 items with P[error] < 10^-6, we set
* L := 20 and M := 290*10^6 bits = cca 34.5 MB (29 bits per item).
*
* We leave L and an upper bound for N as parameters set during
* creation of the structure. Currently, the structure is limited
* to 4 Gb = 512 MB.
*
* This software may be freely distributed and used according to the terms
* of the GNU Lesser General Public License.
*/
#include <ucw/lib.h>
#include <ucw/bitsig.h>
#include <ucw/md5.h>
#include <string.h>
struct bitsig {
uint l, m, n, maxn, max_m_mult;
u32 hash[4];
uint hindex;
byte array[0];
};
struct bitsig *
bitsig_init(uint perrlog, uint maxn)
{
struct bitsig *b;
u64 m;
uint mbytes;
m = ((u64) maxn * perrlog * 145 + 99) / 100;
if (m >= (u64) 1 << 32)
die("bitsig_init: bitsig array too large (maximum is 4 Gb)");
mbytes = (m + 7) >> 3U;
b = xmalloc(sizeof(struct bitsig) + mbytes);
b->l = perrlog;
b->m = m;
b->n = 0;
b->maxn = maxn;
b->max_m_mult = (0xffffffff / m) * m;
bzero(b->array, mbytes);
msg(L_DEBUG, "Initialized bitsig array with l=%d, m=%u (%u KB), expecting %d items", b->l, b->m, (mbytes+1023)/1024, maxn);
return b;
}
void
bitsig_free(struct bitsig *b)
{
xfree(b);
}
static void
bitsig_hash_init(struct bitsig *b, byte *item)
{
md5_hash_buffer((byte *) b->hash, item, strlen(item));
b->hindex = 0;
}
static inline uint
bitsig_hash_bit(struct bitsig *b)
{
u32 h;
do
{
h = b->hash[b->hindex];
b->hash[b->hindex] *= 3006477127U;
b->hindex = (b->hindex+1) % 4;
}
while (h >= b->max_m_mult);
return h % b->m;
}
int
bitsig_member(struct bitsig *b, byte *item)
{
uint i, bit;
bitsig_hash_init(b, item);
for (i=0; i<b->l; i++)
{
bit = bitsig_hash_bit(b);
if (!(b->array[bit >> 3] & (1 << (bit & 7))))
return 0;
}
return 1;
}
int
bitsig_insert(struct bitsig *b, byte *item)
{
uint i, bit, was;
bitsig_hash_init(b, item);
was = 1;
for (i=0; i<b->l; i++)
{
bit = bitsig_hash_bit(b);
if (!(b->array[bit >> 3] & (1 << (bit & 7))))
{
was = 0;
b->array[bit >> 3] |= (1 << (bit & 7));
}
}
if (!was && b->n++ == b->maxn+1)
msg(L_ERROR, "bitsig: Too many items inserted, error rate will be higher than estimated!");
return was;
}
#ifdef TEST
#include <stdio.h>
#include <stdlib.h>
int main(int argc, char **argv)
{
struct bitsig *b = bitsig_init(atol(argv[1]), atol(argv[2]));
byte buf[1024];
while (fgets(buf, 1024, stdin))
printf("%d\n", bitsig_insert(b, buf));
return 0;
}
#endif