/*************************************************************************** c_subcollection.c (c) 2000-2013 BenoƮt 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 2, 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __C_SUBCOLLECTION_C #include "main.h" #include "c_subcollection.h" static void free_string_array(char ***parray) { int i; char **array = *parray; if (!*parray) return; for (i = 0; i < GB.Count(array); i++) GB.FreeString(&array[i]); GB.FreeArray(parray); } static void *get_from_key(CSUBCOLLECTION *_object, const char *key, int len) { void *data; char *tkey; if (!key || !*key) return NULL; if (len <= 0) len = strlen(key); //fprintf(stderr, "get_from_key: %.*s\n", len, key); if (GB.HashTable.Get(THIS->hash_table, key, len, &data)) { tkey = GB.TempString(key, len); data = (*THIS->desc->get)(THIS->container, tkey); if (data) { //fprintf(stderr, "get_from_key: insert %p '%.*s'\n", data, len, key); GB.HashTable.Add(THIS->hash_table, key, len, data); GB.Ref(data); } } return data; } static CSUBCOLLECTION *_current = NULL; static void clear_one(void *data) { CSUBCOLLECTION *save = _current; if (_current->desc->release) (*_current->desc->release)(_current->container, data); //fprintf(stderr, "clear: %p\n", data); GB.Unref(&data); _current = save; } static void clear_subcollection(CSUBCOLLECTION *_object) { _current = THIS; GB.HashTable.Enum(THIS->hash_table, clear_one); GB.HashTable.Free(&THIS->hash_table); } BEGIN_METHOD_VOID(CSUBCOLLECTION_free) //*THIS->store = NULL; free_string_array(&THIS->list); clear_subcollection(THIS); END_METHOD BEGIN_PROPERTY(CSUBCOLLECTION_count) /*free_string_array(&THIS->list);*/ if (!THIS->list) (*THIS->desc->list)(THIS->container, &THIS->list); if (THIS->list) GB.ReturnInteger(GB.Count(THIS->list)); else GB.ReturnInteger(0); END_PROPERTY BEGIN_METHOD(CSUBCOLLECTION_exist, GB_STRING key) char *key = GB.ToZeroString(ARG(key)); if (!key || !*key) GB.ReturnBoolean(FALSE); else GB.ReturnBoolean((*THIS->desc->exist)(THIS->container, key)); END_METHOD BEGIN_METHOD_VOID(CSUBCOLLECTION_next) int *pos = (int *)GB.GetEnum(); if (THIS->desc->list) { char *key = NULL; int n; if (*pos == 0) { free_string_array(&THIS->list); (*THIS->desc->list)(THIS->container, &THIS->list); } if (THIS->list) { if (*pos < GB.Count(THIS->list)) { n = (*pos)++; key = THIS->list[n]; } } if (!key || !*key) GB.StopEnum(); else GB.ReturnObject(get_from_key(THIS, key, 0)); } else { /*void *elt; elt = get_from_key(THIS, NULL, *pos); (*pos)++; if (elt) GB_ReturnObject(elt); else*/ GB.StopEnum(); } END_METHOD BEGIN_METHOD(CSUBCOLLECTION_get, GB_STRING key) GB.ReturnObject(get_from_key(THIS, STRING(key), LENGTH(key))); END_METHOD BEGIN_METHOD_VOID(CSUBCOLLECTION_refresh) clear_subcollection(THIS); GB.HashTable.New(&THIS->hash_table, GB_COMP_BINARY); END_METHOD GB_DESC SubCollectionDesc[] = { GB_DECLARE(".SubCollection", sizeof(CSUBCOLLECTION)), GB_METHOD("_free", NULL, CSUBCOLLECTION_free, NULL), GB_PROPERTY_READ("Count", "i", CSUBCOLLECTION_count), //GB_PROPERTY_READ("Length", "i", CSUBCOLLECTION_count), GB_METHOD("Exist", "b", CSUBCOLLECTION_exist, "(Key)s"), GB_METHOD("_next", "o", CSUBCOLLECTION_next, NULL), GB_METHOD("_get", "o", CSUBCOLLECTION_get, "(Key)s"), GB_METHOD("Refresh", NULL, CSUBCOLLECTION_refresh, NULL), GB_END_DECLARE }; void GB_SubCollectionNew(CSUBCOLLECTION **subcollection, SUBCOLLECTION_DESC *desc, void *container) { CSUBCOLLECTION *ob; if (*subcollection) return; ob = GB.New(GB.FindClass(desc->klass), NULL, NULL); ob->container = container; //ob->store = subcollection; //GB_Ref(container); ob->desc = desc; GB.HashTable.New(&ob->hash_table, GB_COMP_BINARY); *subcollection = ob; GB.Ref(ob); } void *GB_SubCollectionContainer(void *_object) { return THIS->container; } void GB_SubCollectionAdd(void *_object, const char *key, int len, void *value) { if (len <= 0) len = strlen(key); GB.Ref(value); GB_SubCollectionRemove(THIS, key, len); //fprintf(stderr, "GB_SubCollectionAdd: insert %p '%.*s'\n", value, len, key); GB.HashTable.Add(THIS->hash_table, key, len, value); } void GB_SubCollectionRemove(void *_object, const char *key, int len) { void *old_value; if (!THIS) return; if (len <= 0) len = strlen(key); if (!GB.HashTable.Get(THIS->hash_table, key, len, &old_value)) { //fprintf(stderr, "GB_SubCollectionRemove: remove %p '%.*s'\n", old_value, len, key); GB.HashTable.Remove(THIS->hash_table, key, len); GB.Unref(&old_value); } } void *GB_SubCollectionGet(void *_object, const char *key, int len) { return get_from_key(THIS, key, len); }