/* * Revision Control Information * * /projects/hsis/CVS/utilities/st/st.c,v * serdar * 1.1 * 1993/07/29 01:00:13 * */ #include #include "extra.h" #include "stmm.h" #ifndef ABS # define ABS(a) ((a) < 0 ? -(a) : (a)) #endif #define STMM_NUMCMP(x,y) ((x) != (y)) #define STMM_NUMHASH(x,size) (ABS((long)x)%(size)) #define STMM_PTRHASH(x,size) ((int)((unsigned long)(x)>>2)%size) #define EQUAL(func, x, y) \ ((((func) == stmm_numcmp) || ((func) == stmm_ptrcmp)) ?\ (STMM_NUMCMP((x),(y)) == 0) : ((*func)((x), (y)) == 0)) #define do_hash(key, table)\ ((table->hash == stmm_ptrhash) ? STMM_PTRHASH((key),(table)->num_bins) :\ (table->hash == stmm_numhash) ? STMM_NUMHASH((key), (table)->num_bins) :\ (*table->hash)((key), (table)->num_bins)) static int rehash (); int stmm_numhash (), stmm_ptrhash (), stmm_numcmp (), stmm_ptrcmp (); stmm_table * stmm_init_table_with_params (compare, hash, size, density, grow_factor, reorder_flag) int (*compare) (); int (*hash) (); int size; int density; double grow_factor; int reorder_flag; { int i; stmm_table *new; new = ALLOC (stmm_table, 1); if (new == NULL) { return NULL; } new->compare = compare; new->hash = hash; new->num_entries = 0; new->max_density = density; new->grow_factor = grow_factor; new->reorder_flag = reorder_flag; if (size <= 0) { size = 1; } new->num_bins = size; new->bins = ALLOC (stmm_table_entry *, size); if (new->bins == NULL) { FREE (new); return NULL; } for (i = 0; i < size; i++) { new->bins[i] = 0; } // added by alanmi new->pMemMan = Extra_MmFixedStart(sizeof (stmm_table_entry)); return new; } stmm_table * stmm_init_table (compare, hash) int (*compare) (); int (*hash) (); { return stmm_init_table_with_params (compare, hash, STMM_DEFAULT_INIT_TABLE_SIZE, STMM_DEFAULT_MAX_DENSITY, STMM_DEFAULT_GROW_FACTOR, STMM_DEFAULT_REORDER_FLAG); } void stmm_free_table (table) stmm_table *table; { /* register stmm_table_entry *ptr, *next; int i; for ( i = 0; i < table->num_bins; i++ ) { ptr = table->bins[i]; while ( ptr != NULL ) { next = ptr->next; FREE( ptr ); ptr = next; } } */ // no need to deallocate entries because they are in the memory manager now // added by alanmi if ( table->pMemMan ) Extra_MmFixedStop (table->pMemMan, 0); FREE (table->bins); FREE (table); } // this function recycles all the bins void stmm_clean (table) stmm_table *table; { int i; // clean the bins for (i = 0; i < table->num_bins; i++) table->bins[i] = NULL; // reset the parameters table->num_entries = 0; // restart the memory manager Extra_MmFixedRestart (table->pMemMan); } #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 stmm_lookup (table, key, value) stmm_table *table; register char *key; char **value; { int hash_val; register stmm_table_entry *ptr, **last; hash_val = do_hash (key, table); FIND_ENTRY (table, hash_val, key, ptr, last); if (ptr == NULL) { return 0; } else { if (value != NULL) { *value = ptr->record; } return 1; } } int stmm_lookup_int (table, key, value) stmm_table *table; register char *key; int *value; { int hash_val; register stmm_table_entry *ptr, **last; hash_val = do_hash (key, table); FIND_ENTRY (table, hash_val, key, ptr, last); if (ptr == NULL) { return 0; } else { if (value != 0) { *value = (long) ptr->record; } return 1; } } // This macro contained a line // new = ALLOC(stmm_table_entry, 1); // which was modified by alanmi /* This macro does not check if memory allocation fails. Use at you own risk */ #define ADD_DIRECT(table, key, value, hash_val, new)\ {\ if (table->num_entries/table->num_bins >= table->max_density) {\ rehash(table);\ hash_val = do_hash(key,table);\ }\ \ new = (stmm_table_entry *)Extra_MmFixedEntryFetch( table->pMemMan );\ \ new->key = key;\ new->record = value;\ new->next = table->bins[hash_val];\ table->bins[hash_val] = new;\ table->num_entries++;\ } int stmm_insert (table, key, value) register stmm_table *table; register char *key; char *value; { int hash_val; stmm_table_entry *new; register stmm_table_entry *ptr, **last; hash_val = do_hash (key, table); FIND_ENTRY (table, hash_val, key, ptr, last); if (ptr == NULL) { if (table->num_entries / table->num_bins >= table->max_density) { if (rehash (table) == STMM_OUT_OF_MEM) { return STMM_OUT_OF_MEM; } hash_val = do_hash (key, table); } // new = ALLOC( stmm_table_entry, 1 ); new = (stmm_table_entry *) Extra_MmFixedEntryFetch (table->pMemMan); if (new == NULL) { return STMM_OUT_OF_MEM; } new->key = key; new->record = value; new->next = table->bins[hash_val]; table->bins[hash_val] = new; table->num_entries++; return 0; } else { ptr->record = value; return 1; } } int stmm_add_direct (table, key, value) stmm_table *table; char *key; char *value; { int hash_val; stmm_table_entry *new; hash_val = do_hash (key, table); if (table->num_entries / table->num_bins >= table->max_density) { if (rehash (table) == STMM_OUT_OF_MEM) { return STMM_OUT_OF_MEM; } } hash_val = do_hash (key, table); // new = ALLOC( stmm_table_entry, 1 ); new = (stmm_table_entry *) Extra_MmFixedEntryFetch (table->pMemMan); if (new == NULL) { return STMM_OUT_OF_MEM; } new->key = key; new->record = value; new->next = table->bins[hash_val]; table->bins[hash_val] = new; table->num_entries++; return 1; } int stmm_find_or_add (table, key, slot) stmm_table *table; char *key; char ***slot; { int hash_val; stmm_table_entry *new, *ptr, **last; hash_val = do_hash (key, table); FIND_ENTRY (table, hash_val, key, ptr, last); if (ptr == NULL) { if (table->num_entries / table->num_bins >= table->max_density) { if (rehash (table) == STMM_OUT_OF_MEM) { return STMM_OUT_OF_MEM; } hash_val = do_hash (key, table); } // new = ALLOC( stmm_table_entry, 1 ); new = (stmm_table_entry *) Extra_MmFixedEntryFetch (table->pMemMan); if (new == NULL) { return STMM_OUT_OF_MEM; } new->key = key; new->record = (char *) 0; new->next = table->bins[hash_val]; table->bins[hash_val] = new; table->num_entries++; if (slot != NULL) *slot = &new->record; return 0; } else { if (slot != NULL) *slot = &ptr->record; return 1; } } int stmm_find (table, key, slot) stmm_table *table; char *key; char ***slot; { int hash_val; stmm_table_entry *ptr, **last; hash_val = do_hash (key, table); FIND_ENTRY (table, hash_val, key, ptr, last); if (ptr == NULL) { return 0; } else { if (slot != NULL) { *slot = &ptr->record; } return 1; } } static int rehash (table) register stmm_table *table; { register stmm_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 (stmm_table_entry *, table->num_bins); if (table->bins == NULL) { table->bins = old_bins; table->num_bins = old_num_bins; table->num_entries = old_num_entries; return STMM_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 != NULL) { 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; } stmm_table * stmm_copy (old_table) stmm_table *old_table; { stmm_table *new_table; stmm_table_entry *ptr, /* *newptr, *next, */ *new; int i, /*j, */ num_bins = old_table->num_bins; new_table = ALLOC (stmm_table, 1); if (new_table == NULL) { return NULL; } *new_table = *old_table; new_table->bins = ALLOC (stmm_table_entry *, num_bins); if (new_table->bins == NULL) { FREE (new_table); return NULL; } // allocate the memory manager for the new table new_table->pMemMan = Extra_MmFixedStart (sizeof (stmm_table_entry)); for (i = 0; i < num_bins; i++) { new_table->bins[i] = NULL; ptr = old_table->bins[i]; while (ptr != NULL) { // new = ALLOC( stmm_table_entry, 1 ); new = (stmm_table_entry *) Extra_MmFixedEntryFetch (new_table-> pMemMan); if (new == NULL) { /* for ( j = 0; j <= i; j++ ) { newptr = new_table->bins[j]; while ( newptr != NULL ) { next = newptr->next; FREE( newptr ); newptr = next; } } */ Extra_MmFixedStop (new_table->pMemMan, 0); FREE (new_table->bins); FREE (new_table); return NULL; } *new = *ptr; new->next = new_table->bins[i]; new_table->bins[i] = new; ptr = ptr->next; } } return new_table; } int stmm_delete (table, keyp, value) register stmm_table *table; register char **keyp; char **value; { int hash_val; char *key = *keyp; register stmm_table_entry *ptr, **last; hash_val = do_hash (key, table); FIND_ENTRY (table, hash_val, key, ptr, last); if (ptr == NULL) { return 0; } *last = ptr->next; if (value != NULL) *value = ptr->record; *keyp = ptr->key; // FREE( ptr ); Extra_MmFixedEntryRecycle (table->pMemMan, (char *) ptr); table->num_entries--; return 1; } int stmm_delete_int (table, keyp, value) register stmm_table *table; register long *keyp; char **value; { int hash_val; char *key = (char *) *keyp; register stmm_table_entry *ptr, **last; hash_val = do_hash (key, table); FIND_ENTRY (table, hash_val, key, ptr, last); if (ptr == NULL) { return 0; } *last = ptr->next; if (value != NULL) *value = ptr->record; *keyp = (long) ptr->key; // FREE( ptr ); Extra_MmFixedEntryRecycle (table->pMemMan, (char *) ptr); table->num_entries--; return 1; } int stmm_foreach (table, func, arg) stmm_table *table; enum stmm_retval (*func) (); char *arg; { stmm_table_entry *ptr, **last; enum stmm_retval retval; int i; for (i = 0; i < table->num_bins; i++) { last = &table->bins[i]; ptr = *last; while (ptr != NULL) { retval = (*func) (ptr->key, ptr->record, arg); switch (retval) { case STMM_CONTINUE: last = &ptr->next; ptr = *last; break; case STMM_STOP: return 0; case STMM_DELETE: *last = ptr->next; table->num_entries--; /* cstevens@ic */ // FREE( ptr ); Extra_MmFixedEntryRecycle (table->pMemMan, (char *) ptr); ptr = *last; } } } return 1; } int stmm_strhash (string, modulus) register 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 stmm_numhash (x, size) char *x; int size; { return STMM_NUMHASH (x, size); } int stmm_ptrhash (x, size) char *x; int size; { return STMM_PTRHASH (x, size); } int stmm_numcmp (x, y) char *x; char *y; { return STMM_NUMCMP (x, y); } int stmm_ptrcmp (x, y) char *x; char *y; { return STMM_NUMCMP (x, y); } stmm_generator * stmm_init_gen (table) stmm_table *table; { stmm_generator *gen; gen = ALLOC (stmm_generator, 1); if (gen == NULL) { return NULL; } gen->table = table; gen->entry = NULL; gen->index = 0; return gen; } int stmm_gen (gen, key_p, value_p) stmm_generator *gen; char **key_p; char **value_p; { register int i; if (gen->entry == NULL) { /* try to find next entry */ for (i = gen->index; i < gen->table->num_bins; i++) { if (gen->table->bins[i] != NULL) { gen->index = i + 1; gen->entry = gen->table->bins[i]; break; } } if (gen->entry == NULL) { 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 stmm_gen_int (gen, key_p, value_p) stmm_generator *gen; char **key_p; long *value_p; { register int i; if (gen->entry == NULL) { /* try to find next entry */ for (i = gen->index; i < gen->table->num_bins; i++) { if (gen->table->bins[i] != NULL) { gen->index = i + 1; gen->entry = gen->table->bins[i]; break; } } if (gen->entry == NULL) { return 0; /* that's all folks ! */ } } *key_p = gen->entry->key; if (value_p != 0) { *value_p = (long) gen->entry->record; } gen->entry = gen->entry->next; return 1; } void stmm_free_gen (gen) stmm_generator *gen; { FREE (gen); }