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tempest/resources/3rdparty/cudd-2.5.0/sis/st.c

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/*
* Revision Control Information
*
* /projects/hsis/CVS/utilities/st/st.c,v
* serdar
* 1.1
* 1993/07/29 01:00:13
*
*/
#include <stdio.h>
#include "util.h"
#include "st.h"
#define ST_NUMCMP(x,y) ((x) != (y))
#define ST_NUMHASH(x,size) (ABS((long)x)%(size))
#define ST_PTRHASH(x,size) ((int)((unsigned long)(x)>>2)%size)
#define EQUAL(func, x, y) \
((((func) == st_numcmp) || ((func) == st_ptrcmp)) ?\
(ST_NUMCMP((x),(y)) == 0) : ((*func)((x), (y)) == 0))
#define do_hash(key, table)\
((int)((table->hash == st_ptrhash) ? ST_PTRHASH((key),(table)->num_bins) :\
(table->hash == st_numhash) ? ST_NUMHASH((key), (table)->num_bins) :\
(*table->hash)((key), (table)->num_bins)))
static int rehash (st_table *);
st_table *
st_init_table_with_params(
ST_PFICPCP compare,
ST_PFICPI hash,
int size,
int density,
double grow_factor,
int reorder_flag)
{
int i;
st_table *newt;
newt = ALLOC(st_table, 1);
if (newt == NIL(st_table)) {
return NIL(st_table);
}
newt->compare = (int (*)(const char *, const char *)) compare;
newt->hash = (int (*)(char *, int)) hash;
newt->num_entries = 0;
newt->max_density = density;
newt->grow_factor = grow_factor;
newt->reorder_flag = reorder_flag;
if (size <= 0) {
size = 1;
}
newt->num_bins = size;
newt->bins = ALLOC(st_table_entry *, size);
if (newt->bins == NIL(st_table_entry *)) {
FREE(newt);
return NIL(st_table);
}
for(i = 0; i < size; i++) {
newt->bins[i] = 0;
}
return newt;
}
st_table *
st_init_table(ST_PFICPCP compare, ST_PFICPI hash)
{
return st_init_table_with_params(compare, hash, ST_DEFAULT_INIT_TABLE_SIZE,
ST_DEFAULT_MAX_DENSITY,
ST_DEFAULT_GROW_FACTOR,
ST_DEFAULT_REORDER_FLAG);
}
void
st_free_table(st_table *table)
{
register st_table_entry *ptr, *next;
int i;
for(i = 0; i < table->num_bins ; i++) {
ptr = table->bins[i];
while (ptr != NIL(st_table_entry)) {
next = ptr->next;
FREE(ptr);
ptr = next;
}
}
FREE(table->bins);
FREE(table);
}
#define PTR_NOT_EQUAL(table, ptr, user_key)\
(ptr != NULL && !EQUAL(table->compare, user_key, (ptr)->key))
#define FIND_ENTRY(table, hash_val, key, ptr, last) \
(last) = &(table)->bins[hash_val];\
(ptr) = *(last);\
while (PTR_NOT_EQUAL((table), (ptr), (key))) {\
(last) = &(ptr)->next; (ptr) = *(last);\
}\
if ((ptr) != NULL && (table)->reorder_flag) {\
*(last) = (ptr)->next;\
(ptr)->next = (table)->bins[hash_val];\
(table)->bins[hash_val] = (ptr);\
}
int
st_lookup(st_table *table, char *key, char **value)
{
int hash_val;
register st_table_entry *ptr, **last;
hash_val = do_hash(key, table);
FIND_ENTRY(table, hash_val, key, ptr, last);
if (ptr == NIL(st_table_entry)) {
return 0;
} else {
if (value != NIL(char *)) {
*value = ptr->record;
}
return 1;
}
}
int
st_lookup_int(st_table *table, char *key, int *value)
{
int hash_val;
register st_table_entry *ptr, **last;
hash_val = do_hash(key, table);
FIND_ENTRY(table, hash_val, key, ptr, last);
if (ptr == NIL(st_table_entry)) {
return 0;
} else {
if (value != NIL(int)) {
*value = (int) (util_ptrint) ptr->record;
}
return 1;
}
}
/* This macro does not check if memory allocation fails. Use at you own risk */
#define ADD_DIRECT(table, key, value, hash_val, newt)\
{\
if (table->num_entries/table->num_bins >= table->max_density) {\
rehash(table);\
hash_val = do_hash(key,table);\
}\
\
newt = ALLOC(st_table_entry, 1);\
\
newt->key = key;\
newt->record = value;\
newt->next = table->bins[hash_val];\
table->bins[hash_val] = newt;\
table->num_entries++;\
}
int
st_insert(st_table *table, char *key, char *value)
{
int hash_val;
st_table_entry *newt;
register st_table_entry *ptr, **last;
hash_val = do_hash(key, table);
FIND_ENTRY(table, hash_val, key, ptr, last);
if (ptr == NIL(st_table_entry)) {
if (table->num_entries/table->num_bins >= table->max_density) {
if (rehash(table) == ST_OUT_OF_MEM) {
return ST_OUT_OF_MEM;
}
hash_val = do_hash(key, table);
}
newt = ALLOC(st_table_entry, 1);
if (newt == NIL(st_table_entry)) {
return ST_OUT_OF_MEM;
}
newt->key = key;
newt->record = value;
newt->next = table->bins[hash_val];
table->bins[hash_val] = newt;
table->num_entries++;
return 0;
} else {
ptr->record = value;
return 1;
}
}
int
st_add_direct(st_table *table, char *key, char *value)
{
int hash_val;
st_table_entry *newt;
hash_val = do_hash(key, table);
if (table->num_entries / table->num_bins >= table->max_density) {
if (rehash(table) == ST_OUT_OF_MEM) {
return ST_OUT_OF_MEM;
}
}
hash_val = do_hash(key, table);
newt = ALLOC(st_table_entry, 1);
if (newt == NIL(st_table_entry)) {
return ST_OUT_OF_MEM;
}
newt->key = key;
newt->record = value;
newt->next = table->bins[hash_val];
table->bins[hash_val] = newt;
table->num_entries++;
return 1;
}
int
st_find_or_add(st_table *table, char *key, char ***slot)
{
int hash_val;
st_table_entry *newt, *ptr, **last;
hash_val = do_hash(key, table);
FIND_ENTRY(table, hash_val, key, ptr, last);
if (ptr == NIL(st_table_entry)) {
if (table->num_entries / table->num_bins >= table->max_density) {
if (rehash(table) == ST_OUT_OF_MEM) {
return ST_OUT_OF_MEM;
}
hash_val = do_hash(key, table);
}
newt = ALLOC(st_table_entry, 1);
if (newt == NIL(st_table_entry)) {
return ST_OUT_OF_MEM;
}
newt->key = key;
newt->record = (char *) 0;
newt->next = table->bins[hash_val];
table->bins[hash_val] = newt;
table->num_entries++;
if (slot != NIL(char **)) *slot = &newt->record;
return 0;
} else {
if (slot != NIL(char **)) *slot = &ptr->record;
return 1;
}
}
int
st_find(st_table *table, char *key, char ***slot)
{
int hash_val;
st_table_entry *ptr, **last;
hash_val = do_hash(key, table);
FIND_ENTRY(table, hash_val, key, ptr, last);
if (ptr == NIL(st_table_entry)) {
return 0;
} else {
if (slot != NIL(char **)) {
*slot = &ptr->record;
}
return 1;
}
}
static int
rehash(st_table *table)
{
register st_table_entry *ptr, *next, **old_bins;
int i, old_num_bins, hash_val, old_num_entries;
/* save old values */
old_bins = table->bins;
old_num_bins = table->num_bins;
old_num_entries = table->num_entries;
/* rehash */
table->num_bins = (int) (table->grow_factor * old_num_bins);
if (table->num_bins % 2 == 0) {
table->num_bins += 1;
}
table->num_entries = 0;
table->bins = ALLOC(st_table_entry *, table->num_bins);
if (table->bins == NIL(st_table_entry *)) {
table->bins = old_bins;
table->num_bins = old_num_bins;
table->num_entries = old_num_entries;
return ST_OUT_OF_MEM;
}
/* initialize */
for (i = 0; i < table->num_bins; i++) {
table->bins[i] = 0;
}
/* copy data over */
for (i = 0; i < old_num_bins; i++) {
ptr = old_bins[i];
while (ptr != NIL(st_table_entry)) {
next = ptr->next;
hash_val = do_hash(ptr->key, table);
ptr->next = table->bins[hash_val];
table->bins[hash_val] = ptr;
table->num_entries++;
ptr = next;
}
}
FREE(old_bins);
return 1;
}
st_table *
st_copy(st_table *old_table)
{
st_table *new_table;
st_table_entry *ptr, *newptr, *next, *newt;
int i, j, num_bins = old_table->num_bins;
new_table = ALLOC(st_table, 1);
if (new_table == NIL(st_table)) {
return NIL(st_table);
}
*new_table = *old_table;
new_table->bins = ALLOC(st_table_entry *, num_bins);
if (new_table->bins == NIL(st_table_entry *)) {
FREE(new_table);
return NIL(st_table);
}
for(i = 0; i < num_bins ; i++) {
new_table->bins[i] = NIL(st_table_entry);
ptr = old_table->bins[i];
while (ptr != NIL(st_table_entry)) {
newt = ALLOC(st_table_entry, 1);
if (newt == NIL(st_table_entry)) {
for (j = 0; j <= i; j++) {
newptr = new_table->bins[j];
while (newptr != NIL(st_table_entry)) {
next = newptr->next;
FREE(newptr);
newptr = next;
}
}
FREE(new_table->bins);
FREE(new_table);
return NIL(st_table);
}
*newt = *ptr;
newt->next = new_table->bins[i];
new_table->bins[i] = newt;
ptr = ptr->next;
}
}
return new_table;
}
int
st_delete(st_table *table, char **keyp, char **value)
{
int hash_val;
char *key = *keyp;
register st_table_entry *ptr, **last;
hash_val = do_hash(key, table);
FIND_ENTRY(table, hash_val, key, ptr ,last);
if (ptr == NIL(st_table_entry)) {
return 0;
}
*last = ptr->next;
if (value != NIL(char *)) *value = ptr->record;
*keyp = ptr->key;
FREE(ptr);
table->num_entries--;
return 1;
}
int
st_delete_int(st_table *table, int *keyp, char **value)
{
int hash_val;
char *key = (char *) (util_ptrint) *keyp;
register st_table_entry *ptr, **last;
hash_val = do_hash(key, table);
FIND_ENTRY(table, hash_val, key, ptr ,last);
if (ptr == NIL(st_table_entry)) {
return 0;
}
*last = ptr->next;
if (value != NIL(char *)) *value = ptr->record;
*keyp = (int) (util_ptrint) ptr->key;
FREE(ptr);
table->num_entries--;
return 1;
}
int
st_foreach(st_table *table, ST_PFSR func, char *arg)
{
st_table_entry *ptr, **last;
enum st_retval retval;
int i;
for(i = 0; i < table->num_bins; i++) {
last = &table->bins[i]; ptr = *last;
while (ptr != NIL(st_table_entry)) {
retval = (*func)(ptr->key, ptr->record, arg);
switch (retval) {
case ST_CONTINUE:
last = &ptr->next; ptr = *last;
break;
case ST_STOP:
return 0;
case ST_DELETE:
*last = ptr->next;
table->num_entries--; /* cstevens@ic */
FREE(ptr);
ptr = *last;
}
}
}
return 1;
}
int
st_strhash(char *string, int modulus)
{
register int val = 0;
register int c;
while ((c = *string++) != '\0') {
val = val*997 + c;
}
return ((val < 0) ? -val : val)%modulus;
}
int
st_numhash(char *x, int size)
{
return ST_NUMHASH(x, size);
}
int
st_ptrhash(char *x, int size)
{
return ST_PTRHASH(x, size);
}
int
st_numcmp(const char *x, const char *y)
{
return ST_NUMCMP(x, y);
}
int
st_ptrcmp(const char *x, const char *y)
{
return ST_NUMCMP(x, y);
}
st_generator *
st_init_gen(st_table *table)
{
st_generator *gen;
gen = ALLOC(st_generator, 1);
if (gen == NIL(st_generator)) {
return NIL(st_generator);
}
gen->table = table;
gen->entry = NIL(st_table_entry);
gen->index = 0;
return gen;
}
int
st_gen(st_generator *gen, char **key_p, char **value_p)
{
register int i;
if (gen->entry == NIL(st_table_entry)) {
/* try to find next entry */
for(i = gen->index; i < gen->table->num_bins; i++) {
if (gen->table->bins[i] != NIL(st_table_entry)) {
gen->index = i+1;
gen->entry = gen->table->bins[i];
break;
}
}
if (gen->entry == NIL(st_table_entry)) {
return 0; /* that's all folks ! */
}
}
*key_p = gen->entry->key;
if (value_p != 0) {
*value_p = gen->entry->record;
}
gen->entry = gen->entry->next;
return 1;
}
int
st_gen_int(st_generator *gen, char **key_p, long *value_p)
{
register int i;
if (gen->entry == NIL(st_table_entry)) {
/* try to find next entry */
for(i = gen->index; i < gen->table->num_bins; i++) {
if (gen->table->bins[i] != NIL(st_table_entry)) {
gen->index = i+1;
gen->entry = gen->table->bins[i];
break;
}
}
if (gen->entry == NIL(st_table_entry)) {
return 0; /* that's all folks ! */
}
}
*key_p = gen->entry->key;
if (value_p != NIL(long)) {
*value_p = (long) gen->entry->record;
}
gen->entry = gen->entry->next;
return 1;
}
void
st_free_gen(st_generator *gen)
{
FREE(gen);
}