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/* dict.c -- hash-table based dictionaries ($Revision: 1.1.1.1 $) */
#include "es.h"
#include "gc.h"
#define INIT_DICT_SIZE 2
#define REMAIN(n) (((n) * 2) / 3)
#define GROW(n) ((n) * 2)
/*
* hashing
*/
/* strhash2 -- the (probably too slow) haahr hash function */
static unsigned long strhash2(const char *str1, const char *str2) {
#define ADVANCE() { \
if ((c = *s++) == '\0') \
if (str2 == NULL) \
break; \
else { \
s = (unsigned char *) str2; \
str2 = NULL; \
if ((c = *s++) == '\0') \
break; \
} \
}
int c;
unsigned long n = 0;
unsigned char *s = (unsigned char *) str1;
assert(str1 != NULL);
while (1) {
ADVANCE();
n += (c << 17) ^ (c << 11) ^ (c << 5) ^ (c >> 1);
ADVANCE();
n ^= (c << 14) + (c << 7) + (c << 4) + c;
ADVANCE();
n ^= (~c << 11) | ((c << 3) ^ (c >> 1));
ADVANCE();
n -= (c << 16) | (c << 9) | (c << 2) | (c & 3);
}
return n;
}
/* strhash -- hash a single string */
static unsigned long strhash(const char *str) {
return strhash2(str, NULL);
}
/*
* data structures and garbage collection
*/
DefineTag(Dict, static);
typedef struct {
char *name;
void *value;
} Assoc;
struct Dict {
int size, remain;
Assoc table[1]; /* variable length */
};
static Dict *mkdict0(int size) {
size_t len = offsetof(Dict, table[size]);
Dict *dict = gcalloc(len, &DictTag);
memzero(dict, len);
dict->size = size;
dict->remain = REMAIN(size);
return dict;
}
static void *DictCopy(void *op) {
Dict *dict = op;
size_t len = offsetof(Dict, table[dict->size]);
void *np = gcalloc(len, &DictTag);
memcpy(np, op, len);
return np;
}
static size_t DictScan(void *p) {
Dict *dict = p;
int i;
for (i = 0; i < dict->size; i++) {
Assoc *ap = &dict->table[i];
ap->name = forward(ap->name);
ap->value = forward(ap->value);
}
return offsetof(Dict, table[dict->size]);
}
/*
* private operations
*/
static char DEAD[] = "DEAD";
static Assoc *get(Dict *dict, const char *name) {
Assoc *ap;
unsigned long n = strhash(name), mask = dict->size - 1;
for (; (ap = &dict->table[n & mask])->name != NULL; n++)
if (ap->name != DEAD && streq(name, ap->name))
return ap;
return NULL;
}
static Dict *put(Dict *dict, char *name, void *value) {
unsigned long n, mask;
Assoc *ap;
assert(get(dict, name) == NULL);
assert(value != NULL);
if (dict->remain <= 1) {
Dict *new;
Ref(Dict *, old, dict);
Ref(char *, np, name);
Ref(void *, vp, value);
new = mkdict0(GROW(old->size));
dictforall(old, (void (*)(void *, char *, void *)) put, new);
dict = new;
name = np;
value = vp;
RefEnd3(vp, np, old);
}
n = strhash(name);
mask = dict->size - 1;
for (; (ap = &dict->table[n & mask])->name != DEAD; n++)
if (ap->name == NULL) {
--dict->remain;
break;
}
ap->name = name;
ap->value = value;
return dict;
}
static void rm(Dict *dict, Assoc *ap) {
unsigned long n, mask;
assert(dict->table <= ap && ap < &dict->table[dict->size]);
ap->name = DEAD;
ap->value = NULL;
n = ap - dict->table;
mask = dict->size - 1;
for (n++; (ap = &dict->table[n & mask])->name == DEAD; n++)
;
if (ap->name != NULL)
return;
for (n--; (ap = &dict->table[n & mask])->name == DEAD; n--) {
ap->name = NULL;
++dict->remain;
}
}
/*
* exported functions
*/
extern Dict *mkdict(void) {
return mkdict0(INIT_DICT_SIZE);
}
extern void *dictget(Dict *dict, const char *name) {
Assoc *ap = get(dict, name);
if (ap == NULL)
return NULL;
return ap->value;
}
extern Dict *dictput(Dict *dict, char *name, void *value) {
Assoc *ap = get(dict, name);
if (value != NULL)
if (ap == NULL)
dict = put(dict, name, value);
else
ap->value = value;
else if (ap != NULL)
rm(dict, ap);
return dict;
}
extern void dictforall(Dict *dp, void (*proc)(void *, char *, void *), void *arg) {
int i;
Ref(Dict *, dict, dp);
Ref(void *, argp, arg);
for (i = 0; i < dict->size; i++) {
Assoc *ap = &dict->table[i];
if (ap->name != NULL && ap->name != DEAD)
(*proc)(argp, ap->name, ap->value);
}
RefEnd2(argp, dict);
}
/* dictget2 -- look up the catenation of two names (such a hack!) */
extern void *dictget2(Dict *dict, const char *name1, const char *name2) {
Assoc *ap;
unsigned long n = strhash2(name1, name2), mask = dict->size - 1;
for (; (ap = &dict->table[n & mask])->name != NULL; n++)
if (ap->name != DEAD && streq2(ap->name, name1, name2))
return ap->value;
return NULL;
}
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