/*************************************************************************** CCollection.c The Collection native class. (c) 2000-2007 Benoit Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 1, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. ***************************************************************************/ #define __GBX_C_COLLECTION_C #include "gbx_info.h" #ifndef GBX_INFO #include "gb_common.h" #include "gb_error.h" #include "gbx_variant.h" #include "gambas.h" #include "gbx_api.h" #include "gbx_class.h" #include "gbx_object.h" #include "gbx_c_collection.h" static void collection_free(CCOLLECTION *col) { VARIANT *value; HASH_ENUM iter; CLEAR(&iter); for(;;) { value = HASH_TABLE_next(col->hash_table, &iter); if (value == NULL) break; VARIANT_free(value); } HASH_TABLE_delete(&col->hash_table); } static void *collection_get_key(CCOLLECTION *col, const char *key, int len) { if (len == 0) return NULL; if (len <= 0) len = strlen(key); return HASH_TABLE_lookup(col->hash_table, key, len); } static void *collection_add_key(CCOLLECTION *col, const char *key, int len) { if (len == 0) { GB_Error("Void key"); return NULL; } if (len <= 0) len = strlen(key); return HASH_TABLE_insert(col->hash_table, key, len); } static void collection_remove_key(CCOLLECTION *col, const char *key, int len) { void *value; HASH_NODE *last; if (len == 0) { GB_Error("Void key"); return; } if (len < 0) len = strlen(key); value = HASH_TABLE_lookup(col->hash_table, key, len); if (value == NULL) return; last = col->hash_table->last; GB_ListEnum(col); while (!GB_NextEnum()) { HASH_ENUM *iter = (HASH_ENUM *)GB_GetEnum(); /*char *ekey; int elen; HASH_TABLE_get_key(col->hash_table, iter->node, &ekey, &elen); fprintf(stderr, "iter->node: %.*s\n", elen, ekey); HASH_TABLE_get_key(col->hash_table, iter->next, &ekey, &elen); fprintf(stderr, "iter->next: %.*s\n", elen, ekey);*/ if (iter->next == last) { iter->next = iter->next->snext; /*HASH_TABLE_get_key(col->hash_table, iter->next, &ekey, &elen); fprintf(stderr, "iter->next: => %.*s\n", elen, ekey);*/ } } //col->hash_table->last = last; VARIANT_free(value); HASH_TABLE_remove(col->hash_table, key, len); } BEGIN_METHOD(CCOLLECTION_new, GB_INTEGER mode) int mode = MISSING(mode) ? 0 : VARG(mode); HASH_TABLE_create(&THIS->hash_table, TYPE_sizeof(T_VARIANT), mode); THIS->last = NULL; END_METHOD BEGIN_METHOD_VOID(CCOLLECTION_free) collection_free(THIS); END_METHOD BEGIN_PROPERTY(collection_count) GB_ReturnInt(HASH_TABLE_size(THIS->hash_table)); END_PROPERTY BEGIN_PROPERTY(collection_key) char *key; int len; if (HASH_TABLE_get_last_key(THIS->hash_table, &key, &len)) GB_ReturnNull(); else GB_ReturnNewString(key, len); END_PROPERTY BEGIN_METHOD(collection_add, GB_VARIANT value; GB_STRING key) void *data; data = collection_add_key(THIS, STRING(key), LENGTH(key)); if (!data) return; GB_StoreVariant(ARG(value), data); END_METHOD BEGIN_METHOD(collection_exist, GB_STRING key) /*if (LENGTH(key) == 0) GB_ReturnBoolean(FALSE); else*/ GB_ReturnBoolean(collection_get_key(THIS, STRING(key), LENGTH(key)) != NULL); END_METHOD BEGIN_METHOD(collection_remove, GB_STRING key) collection_remove_key(THIS, STRING(key), LENGTH(key)); END_METHOD BEGIN_METHOD_VOID(collection_clear) int mode = THIS->hash_table->mode; /* Stops all iterators */ GB_StopAllEnum(THIS); collection_free(THIS); HASH_TABLE_create(&THIS->hash_table, TYPE_sizeof(T_VARIANT), mode); END_METHOD #if 0 BEGIN_METHOD_VOID(collection_first) HASH_ENUM *iter = (HASH_ENUM *)GB_GetEnum(); iter->index = (-1); iter->node = NULL; END_METHOD #endif BEGIN_METHOD_VOID(collection_next) void *value; HASH_TABLE *hash_table = OBJECT(CCOLLECTION)->hash_table; HASH_ENUM *iter = (HASH_ENUM *)GB_GetEnum(); value = HASH_TABLE_next(hash_table, iter); if (value == NULL) GB_StopEnum(); else GB_ReturnPtr(T_VARIANT, value); END_METHOD /* BEGIN_METHOD(collection_copy, CCOLLECTION *copy) CCOLLECTION *copy = PARAM(copy); HASH_TABLE *hash_table = THIS->hash_table; CCOL_ENUM enum_state; void *value; collection_clear(THIS, NULL); enum_state.i = -1; enum_state.node = NULL; for(;;) { value = HASH_TABLE_next(hash_table, &enum_state->i, &enum_state->node); if (value == NULL) break; GB_ReturnPtr(OBJECT(CCOLLECTION)->type, value); data = collection_add_key(THIS, PARAM(key).addr, PARAM(key).len); GB_Store(T_VARIANT, &PARAM(value), data); END_METHOD */ BEGIN_METHOD(collection_get, GB_STRING key) GB_ReturnPtr(T_VARIANT, collection_get_key(THIS, STRING(key), LENGTH(key))); END_METHOD BEGIN_METHOD(collection_put, GB_VARIANT value; GB_STRING key) void *data; if (VARIANT_is_null((VARIANT *)&VARG(value))) collection_remove_key(THIS, STRING(key), LENGTH(key)); else { data = collection_add_key(THIS, STRING(key), LENGTH(key)); if (!data) return; GB_StoreVariant(ARG(value), data); } END_METHOD #endif GB_DESC NATIVE_Collection[] = { GB_DECLARE("Collection", sizeof(CCOLLECTION)), GB_METHOD("_new", NULL, CCOLLECTION_new, "[(Mode)i]"), GB_METHOD("_free", NULL, CCOLLECTION_free, NULL), GB_PROPERTY_READ("Count", "i", collection_count), GB_PROPERTY_READ("Length", "i", collection_count), GB_PROPERTY_READ("Key", "s", collection_key), GB_METHOD("Add", NULL, collection_add, "(Value)v(Key)s"), GB_METHOD("Exist", "b", collection_exist, "(Key)s"), GB_METHOD("Remove", NULL, collection_remove, "(Key)s"), GB_METHOD("Clear", NULL, collection_clear, NULL), /*GB_METHOD("_first", NULL, collection_first, NULL),*/ GB_METHOD("_next", "v", collection_next, NULL), GB_METHOD("_get", "v", collection_get, "(Key)s"), GB_METHOD("_put", NULL, collection_put, "(Value)v(Key)s"), GB_END_DECLARE }; #ifndef GBX_INFO void GB_CollectionNew(GB_COLLECTION *col, int mode) { GB_INTEGER param; param.type = GB_T_INTEGER; param.value = mode; OBJECT_create_native((void **)col, CLASS_Collection, (VALUE *)¶m); } int GB_CollectionCount(GB_COLLECTION col) { return HASH_TABLE_size(((CCOLLECTION *)col)->hash_table); } int GB_CollectionSet(GB_COLLECTION col, const char *key, int len, GB_VARIANT *value) { VARIANT *data; if (VARIANT_is_null((VARIANT *)&value->value)) collection_remove_key((CCOLLECTION *)col, key, len); else { data = (VARIANT *)collection_add_key((CCOLLECTION *)col, key, len); if (!data) return TRUE; GB_StoreVariant(value, data); } return FALSE; } int GB_CollectionGet(GB_COLLECTION col, const char *key, int len, GB_VARIANT *value) { VARIANT *var; var = (VARIANT *)collection_get_key((CCOLLECTION *)col, key, len); if (var) { value->type = GB_T_VARIANT; value->value.type = var->type; //*((VARIANT *)&value->value) = *((VARIANT *)val); VARIANT_copy_value((VARIANT *)&value->value, var); return FALSE; } else { value->type = GB_T_NULL; return TRUE; } } int GB_CollectionEnum(GB_COLLECTION col, GB_VARIANT *value, char **key, int *len) { static HASH_ENUM iter; void *val; HASH_TABLE *hash_table = ((CCOLLECTION *)col)->hash_table; if (!value || !key) { CLEAR(&iter); return FALSE; } val = HASH_TABLE_next(hash_table, &iter); if (!val) return TRUE; value->type = GB_T_VARIANT; *((VARIANT *)&value->value) = *((VARIANT *)val); HASH_TABLE_get_last_key(hash_table, key, len); return FALSE; } #endif