qse/ase/stx/dict.c

191 lines
5.1 KiB
C

/*
* $Id: dict.c,v 1.10 2005-08-11 10:18:35 bacon Exp $
*/
#include <xp/stx/dict.h>
#include <xp/stx/object.h>
#include <xp/stx/misc.h>
/* NOTE:
* The code here implements SystemDictionary whose key is always a symbol.
* Dictionary, on the contrary, can accept any object as a key.
*/
xp_word_t __new_association (
xp_stx_t* stx, xp_word_t key, xp_word_t value)
{
xp_word_t x;
#ifdef __GNUC__
xp_word_t data[2] = { key, value };
#else
xp_word_t data[2];
data[0] = key;
data[1] = value;
#endif
x = xp_stx_alloc_word_object (
stx, data, XP_STX_ASSOCIATION_SIZE, XP_NULL, 0);
XP_STX_CLASS(stx,x) = stx->class_association;
return x;
}
static xp_word_t __dict_find_slot (
xp_stx_t* stx, xp_word_t dict, xp_word_t key)
{
xp_word_t size, hash, index, assoc, symbol;
xp_stx_word_object_t* dict_obj;
xp_assert (!XP_STX_IS_SMALLINT(dict) &&
XP_STX_IS_WORD_OBJECT(stx, dict));
xp_assert (dict == stx->smalltalk ||
xp_stx_classof(stx,dict) == stx->class_system_dictionary);
xp_assert (xp_stx_classof(stx,key) == stx->class_symbol);
size = XP_STX_SIZE(stx,dict);
hash = xp_stx_hash_object(stx, key);
/* consider tally, the only instance variable of a system dictionary */
index = hash % (size - 1) + 1;
dict_obj = XP_STX_WORD_OBJECT(stx,dict);
while (1) {
assoc = dict_obj->data[index];
if (assoc == stx->nil) break;
symbol = XP_STX_WORD_AT(stx,assoc,XP_STX_ASSOCIATION_KEY);
xp_assert (xp_stx_classof(stx,symbol) == stx->class_symbol);
/* NOTE:
* shallow comparison is enough for identity check
* because a symbol can just be a key of a system dictionary
*/
if (xp_strxncmp(
XP_STX_DATA(stx,key), XP_STX_SIZE(stx,key),
XP_STX_DATA(stx,symbol), XP_STX_SIZE(stx,symbol)) == 0) break;
/* consider tally here too */
index = index % (size - 1) + 1;
}
return index;
}
static void __grow_dict (xp_stx_t* stx, xp_word_t dict)
{
xp_word_t new, size, index, assoc;
/* WARNING:
* if this assertion fails, adjust the initial size of the
* system dictionary. i don't want this function to be called
* during the bootstrapping.
*/
xp_assert (stx->class_system_dictionary != stx->nil);
xp_assert (xp_stx_classof(stx,dict) == stx->class_system_dictionary);
size = XP_STX_SIZE(stx,dict);
new = xp_stx_instantiate (stx,
XP_STX_CLASS(stx,dict), XP_NULL, XP_NULL, (size - 1) * 2);
XP_STX_WORD_AT(stx,new,0) = XP_STX_TO_SMALLINT(0);
for (index = 1; index < size; index++) {
assoc = XP_STX_WORD_AT(stx,dict,index);
if (assoc == stx->nil) continue;
xp_stx_dict_put (stx, new,
XP_STX_WORD_AT(stx,assoc,XP_STX_ASSOCIATION_KEY),
XP_STX_WORD_AT(stx,assoc,XP_STX_ASSOCIATION_VALUE));
}
/* TODO: explore if dict can be immediately destroyed. */
xp_assert (xp_sizeof(xp_stx_object_t*) == xp_sizeof(xp_uint_t));
XP_SWAP (XP_STX_OBJECT(stx,dict),
XP_STX_OBJECT(stx,new),
xp_stx_object_t*, xp_uint_t);
}
xp_word_t xp_stx_dict_lookup (
xp_stx_t* stx, xp_word_t dict, const xp_char_t* key)
{
xp_word_t size, hash, index, assoc, symbol;
xp_stx_word_object_t* dict_obj;
xp_assert (!XP_STX_IS_SMALLINT(dict) &&
XP_STX_IS_WORD_OBJECT(stx, dict));
xp_assert (dict == stx->smalltalk ||
xp_stx_classof(stx,dict) == stx->class_system_dictionary);
size = XP_STX_SIZE(stx,dict);
hash = xp_stx_hash(key, xp_strlen(key) * xp_sizeof(xp_char_t));
/* consider tally, the only instance variable of a system dictionary */
index = hash % (size - 1) + 1;
dict_obj = XP_STX_WORD_OBJECT(stx,dict);
while (1) {
assoc = dict_obj->data[index];
if (assoc == stx->nil) break;
symbol = XP_STX_WORD_AT(stx,assoc,XP_STX_ASSOCIATION_KEY);
xp_assert (xp_stx_classof(stx,symbol) == stx->class_symbol);
if (xp_strxcmp (XP_STX_DATA(stx,symbol),
XP_STX_SIZE(stx,symbol), key) == 0) break;
/* consider tally here too */
index = index % (size - 1) + 1;
}
return XP_STX_WORD_AT(stx,dict,index);
}
xp_word_t xp_stx_dict_get (xp_stx_t* stx, xp_word_t dict, xp_word_t key)
{
return XP_STX_WORD_AT(stx,dict,__dict_find_slot(stx, dict, key));
}
xp_word_t xp_stx_dict_put (
xp_stx_t* stx, xp_word_t dict, xp_word_t key, xp_word_t value)
{
xp_word_t slot, capa, tally, assoc;
/* the dictionary must have at least one slot excluding tally */
xp_assert (XP_STX_SIZE(stx,dict) > 1);
capa = XP_STX_SIZE(stx,dict) - 1;
tally = XP_STX_FROM_SMALLINT(XP_STX_WORD_AT(stx,dict,0));
if (capa <= tally + 1) {
__grow_dict (stx, dict);
/* refresh tally */
tally = XP_STX_FROM_SMALLINT(XP_STX_WORD_AT(stx,dict,0));
}
slot = __dict_find_slot (stx, dict, key);
assoc = XP_STX_WORD_AT(stx,dict,slot);
if (assoc == stx->nil) {
XP_STX_WORD_AT(stx,dict,slot) =
__new_association (stx, key, value);
XP_STX_WORD_AT(stx,dict,0) = XP_STX_TO_SMALLINT(tally + 1);
}
else XP_STX_WORD_AT(stx,assoc,XP_STX_ASSOCIATION_VALUE) = value;
return XP_STX_WORD_AT(stx,dict,slot);
}
void xp_stx_dict_traverse (
xp_stx_t* stx, xp_word_t dict,
void (*func) (xp_stx_t*,xp_word_t,void*), void* data)
{
xp_word_t index, assoc;
xp_word_t size = XP_STX_SIZE(stx,dict);
for (index = 1; index < size; index++) {
assoc = XP_STX_WORD_AT(stx,dict,index);
if (assoc == stx->nil) continue;
func (stx, assoc, data);
}
}