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git/diffcore-delta.c
Junio C Hamano fc66d213f8 diffcore-delta: tweak hashbase value.
This tweaks the maximum hashvalue we use to hash the string into
without making the maximum size of the hashtable can grow from
the current limit.  With this, the renames detected becomes a
bit more precise without incurring additional paging cost.

Signed-off-by: Junio C Hamano <junkio@cox.net>
2006-03-12 20:42:12 -08:00

215 lines
5.2 KiB
C

#include "cache.h"
#include "diff.h"
#include "diffcore.h"
/*
* Idea here is very simple.
*
* We have total of (sz-N+1) N-byte overlapping sequences in buf whose
* size is sz. If the same N-byte sequence appears in both source and
* destination, we say the byte that starts that sequence is shared
* between them (i.e. copied from source to destination).
*
* For each possible N-byte sequence, if the source buffer has more
* instances of it than the destination buffer, that means the
* difference are the number of bytes not copied from source to
* destination. If the counts are the same, everything was copied
* from source to destination. If the destination has more,
* everything was copied, and destination added more.
*
* We are doing an approximation so we do not really have to waste
* memory by actually storing the sequence. We just hash them into
* somewhere around 2^16 hashbuckets and count the occurrences.
*
* The length of the sequence is arbitrarily set to 8 for now.
*/
/* Wild guess at the initial hash size */
#define INITIAL_HASH_SIZE 9
/* We leave more room in smaller hash but do not let it
* grow to have unused hole too much.
*/
#define INITIAL_FREE(sz_log2) ((1<<(sz_log2))*(sz_log2-3)/(sz_log2))
/* A prime rather carefully chosen between 2^16..2^17, so that
* HASHBASE < INITIAL_FREE(17). We want to keep the maximum hashtable
* size under the current 2<<17 maximum, which can hold this many
* different values before overflowing to hashtable of size 2<<18.
*/
#define HASHBASE 107927
struct spanhash {
unsigned long hashval;
unsigned long cnt;
};
struct spanhash_top {
int alloc_log2;
int free;
struct spanhash data[FLEX_ARRAY];
};
static struct spanhash *spanhash_find(struct spanhash_top *top,
unsigned long hashval)
{
int sz = 1 << top->alloc_log2;
int bucket = hashval & (sz - 1);
while (1) {
struct spanhash *h = &(top->data[bucket++]);
if (!h->cnt)
return NULL;
if (h->hashval == hashval)
return h;
if (sz <= bucket)
bucket = 0;
}
}
static struct spanhash_top *spanhash_rehash(struct spanhash_top *orig)
{
struct spanhash_top *new;
int i;
int osz = 1 << orig->alloc_log2;
int sz = osz << 1;
new = xmalloc(sizeof(*orig) + sizeof(struct spanhash) * sz);
new->alloc_log2 = orig->alloc_log2 + 1;
new->free = INITIAL_FREE(new->alloc_log2);
memset(new->data, 0, sizeof(struct spanhash) * sz);
for (i = 0; i < osz; i++) {
struct spanhash *o = &(orig->data[i]);
int bucket;
if (!o->cnt)
continue;
bucket = o->hashval & (sz - 1);
while (1) {
struct spanhash *h = &(new->data[bucket++]);
if (!h->cnt) {
h->hashval = o->hashval;
h->cnt = o->cnt;
new->free--;
break;
}
if (sz <= bucket)
bucket = 0;
}
}
free(orig);
return new;
}
static struct spanhash_top *add_spanhash(struct spanhash_top *top,
unsigned long hashval)
{
int bucket, lim;
struct spanhash *h;
lim = (1 << top->alloc_log2);
bucket = hashval & (lim - 1);
while (1) {
h = &(top->data[bucket++]);
if (!h->cnt) {
h->hashval = hashval;
h->cnt = 1;
top->free--;
if (top->free < 0)
return spanhash_rehash(top);
return top;
}
if (h->hashval == hashval) {
h->cnt++;
return top;
}
if (lim <= bucket)
bucket = 0;
}
}
static struct spanhash_top *hash_chars(unsigned char *buf, unsigned long sz)
{
int i;
unsigned long accum1, accum2, hashval;
struct spanhash_top *hash;
i = INITIAL_HASH_SIZE;
hash = xmalloc(sizeof(*hash) + sizeof(struct spanhash) * (1<<i));
hash->alloc_log2 = i;
hash->free = INITIAL_FREE(i);
memset(hash->data, 0, sizeof(struct spanhash) * (1<<i));
/* an 8-byte shift register made of accum1 and accum2. New
* bytes come at LSB of accum2, and shifted up to accum1
*/
for (i = accum1 = accum2 = 0; i < 7; i++, sz--) {
accum1 = (accum1 << 8) | (accum2 >> 24);
accum2 = (accum2 << 8) | *buf++;
}
while (sz) {
accum1 = (accum1 << 8) | (accum2 >> 24);
accum2 = (accum2 << 8) | *buf++;
hashval = (accum1 + accum2 * 0x61) % HASHBASE;
hash = add_spanhash(hash, hashval);
sz--;
}
return hash;
}
int diffcore_count_changes(void *src, unsigned long src_size,
void *dst, unsigned long dst_size,
void **src_count_p,
void **dst_count_p,
unsigned long delta_limit,
unsigned long *src_copied,
unsigned long *literal_added)
{
int i, ssz;
struct spanhash_top *src_count, *dst_count;
unsigned long sc, la;
if (src_size < 8 || dst_size < 8)
return -1;
src_count = dst_count = NULL;
if (src_count_p)
src_count = *src_count_p;
if (!src_count) {
src_count = hash_chars(src, src_size);
if (src_count_p)
*src_count_p = src_count;
}
if (dst_count_p)
dst_count = *dst_count_p;
if (!dst_count) {
dst_count = hash_chars(dst, dst_size);
if (dst_count_p)
*dst_count_p = dst_count;
}
sc = la = 0;
ssz = 1 << src_count->alloc_log2;
for (i = 0; i < ssz; i++) {
struct spanhash *s = &(src_count->data[i]);
struct spanhash *d;
unsigned dst_cnt, src_cnt;
if (!s->cnt)
continue;
src_cnt = s->cnt;
d = spanhash_find(dst_count, s->hashval);
dst_cnt = d ? d->cnt : 0;
if (src_cnt < dst_cnt) {
la += dst_cnt - src_cnt;
sc += src_cnt;
}
else
sc += dst_cnt;
}
if (!src_count_p)
free(src_count);
if (!dst_count_p)
free(dst_count);
*src_copied = sc;
*literal_added = la;
return 0;
}