/*************************************************************************** Object.c Object management routines (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 __OBJECT_C #include "gb_common.h" #include "gb_alloc.h" #include "gb_list.h" #include "gbx_class.h" #include "gbx_event.h" #include "gbx_exec.h" #include "gbx_compare.h" #include "gbx_c_gambas.h" #include "gbx_object.h" static OBJECT *EventObject = NULL; void OBJECT_new(void **ptr, CLASS *class, const char *name, OBJECT *parent) { OBJECT_alloc(ptr, class, class->size); //#if DEBUG_EVENT //printf("OBJECT_new: %s %p %d\n", class->name, *ptr, class->off_event); //#endif OBJECT_attach(*ptr, parent, name); } void OBJECT_alloc(void **ptr, CLASS *class, size_t size) { OBJECT *object; if (size < sizeof(OBJECT)) size = sizeof(OBJECT); ALLOC_ZERO(&object, size, "OBJECT_alloc"); object->class = class; object->ref = 1; class->count++; *ptr = object; } #if 0 static void dump_attach(char *title) { void *ob; fprintf(stderr, ">>>> %s: ", title); for (ob = EventObject; ob; ob = OBJECT_event(ob)->next) fprintf(stderr, "%p -> ", ob); fprintf(stderr, "(nil)\n"); } #endif void OBJECT_detach(OBJECT *ob) { CLASS *class = OBJECT_class(ob); OBJECT *parent; OBJECT_EVENT *ev; bool lock; ev = (OBJECT_EVENT *)((char *)ob + class->off_event); //if (!ev->parent) // return; if (ev->prev) OBJECT_event(ev->prev)->next = ev->next; if (ev->next) OBJECT_event(ev->next)->prev = ev->prev; if (ob == EventObject) EventObject = ev->next; ev->prev = NULL; ev->next = NULL; //dump_attach("OBJECT_detach"); // Do not free the observers there anymore /* Avoids an infinite recursion, if freeing the parent implies freeing the object */ parent = OBJECT_parent(ob); if (parent) { lock = OBJECT_is_locked(ob); ev->parent = NULL; OBJECT_lock(ob, lock); #if DEBUG_EVENT || DEBUG_REF fprintf(stderr, "OBJECT_detach : Detach (%s %p) from (%s %p)\n", ob->class->name, ob, parent->class->name, parent); #endif OBJECT_UNREF(parent, "OBJECT_detach"); } } static void remove_observers(OBJECT *ob) { CLASS *class = OBJECT_class(ob); OBJECT_EVENT *ev; COBSERVER *obs, *next; ev = (OBJECT_EVENT *)((char *)ob + class->off_event); obs = ev->observer; while (obs) { next = obs->list.next; #if DEBUG_EVENT fprintf(stderr, "Remove observer %p\n", obs); #endif OBJECT_UNREF(obs, "remove_observers"); obs = next; } ev->observer = NULL; } void OBJECT_attach(OBJECT *ob, OBJECT *parent, const char *name) { CLASS *class = OBJECT_class(ob); OBJECT_EVENT *ev; bool lock; if (EVENT_Name != name) { STRING_unref(&EVENT_Name); if (name) STRING_new(&EVENT_Name, name, 0); else EVENT_Name = NULL; } if (!name) return; lock = OBJECT_is_locked(ob); OBJECT_detach(ob); ev = (OBJECT_EVENT *)((char *)ob + class->off_event); ev->parent = parent; OBJECT_lock(ob, lock); #if DEBUG_EVENT || DEBUG_REF fprintf(stderr, "OBJECT_attach : Attach (%s %p) to (%s %p) as %s\n", ob->class->name, ob, parent->class->name, parent, name); #endif OBJECT_REF(parent, "OBJECT_attach"); EVENT_search(class, ev->event, name, parent); ev->next = EventObject; ev->prev = NULL; if (EventObject) OBJECT_event(EventObject)->prev = ob; EventObject = ob; //dump_attach("OBJECT_attach"); } void OBJECT_free(CLASS *class, OBJECT *ob) { /* Il faut emp�her EXEC_leave() de relib�er l'objet */ /*((OBJECT *)free_ptr)->ref = 1;*/ /*OBJECT_REF(ob, "OBJECT_free");*/ /* Ex�ution de la m�hode _free pour toutes les classes parentes puis pour la classe de l'objet */ /*if (CLASS_is_native(class)) EXEC_special_inheritance(SPEC_FREE, class, ob, 0, TRUE);*/ OBJECT_detach(ob); remove_observers(ob); class->count--; #if DEBUG_REF ob->class = (CLASS *)0x23232323; #endif FREE(&ob, "OBJECT_free"); } bool OBJECT_comp_value(VALUE *ob1, VALUE *ob2) { if (ob1->type == T_NULL && ob2->type == T_NULL) return FALSE; else if (ob1->type == T_NULL) return ob2->_object.object != NULL; else if (ob2->type == T_NULL) return ob1->_object.object != NULL; else return COMPARE_object(&ob1->_object.object, &ob2->_object.object); } static void release(CLASS *class, OBJECT *ob) { int i; CLASS_VAR *var; int nelt; char *data; if (class->parent != NULL && ob) release(class->parent, ob); if (CLASS_is_native(class)) return; if (ob == NULL) { var = class->load->stat; nelt = class->load->n_stat; data = class->stat; } else { var = class->load->dyn; nelt = class->load->n_dyn; data = (char *)ob; } for (i = 0; i < nelt; i++) { #if TRACE_MEMORY if (var->type.id == T_STRING || var->type.id == T_OBJECT) { printf("release: %s %p [%d] trying %p\n", class->name, ob, i, (*(void **)&data[var->pos])); fflush(NULL); } #endif if (var->type.id == T_STRING) STRING_unref((char **)&data[var->pos]); else if (var->type.id == T_OBJECT) { OBJECT_UNREF(*((void **)&data[var->pos]), "release"); } else if (var->type.id == T_VARIANT) VARIANT_free((VARIANT *)&data[var->pos]); else if (var->type.id == T_ARRAY) ARRAY_free_data((void *)&data[var->pos], (ARRAY_DESC *)class->load->array[var->type.value]); var++; } } void OBJECT_release(CLASS *class, OBJECT *ob) { #if TRACE_MEMORY printf("> OBJECT_release %s %p\n", class->name, ob); #endif release(class, ob); if (ob) OBJECT_free(class, ob); #if TRACE_MEMORY printf("< OBJECT_release %s %p\n", class->name, ob); #endif } void OBJECT_exit(void) { #if DEBUG_LOAD fprintf(stderr, "------------ OBJECT_exit - BEGIN---------\n"); #endif while (EventObject) OBJECT_detach(EventObject); #if DEBUG_LOAD fprintf(stderr, "------------ OBJECT_exit - END ----------\n"); #endif } void OBJECT_create(void **object, CLASS *class, const char *name, void *parent, int nparam) { void *ob; if (class->no_create) THROW(E_CSTATIC, class->name); TRY { OBJECT_new(&ob, class, name, parent); *object = ob; OBJECT_lock(ob, TRUE); EXEC_special_inheritance(SPEC_NEW, class, ob, nparam, TRUE); OBJECT_lock(ob, FALSE); OBJECT_UNREF_KEEP(ob, "OBJECT_create"); } CATCH { *object = NULL; OBJECT_UNREF_KEEP(ob, "OBJECT_create"); PROPAGATE(); } END_TRY } /* FIXME: The _new are methods called differently from EXEC_special_inheritance */ void OBJECT_create_native(void **object, CLASS *class, VALUE *param) { CLASS_DESC *desc; short index; OBJECT_new(object, class, NULL, NULL); for(;;) { index = class->special[SPEC_NEW]; if (index != NO_SYMBOL) { desc = CLASS_get_desc(class, index); EXEC_call_native(desc->method.exec, *object, desc->method.type, param); } class = class->parent; if (!class) break; } OBJECT_UNREF_KEEP(*object, "OBJECT_create"); } void OBJECT_lock(OBJECT *object, bool block) { CLASS *class; if (!object) return; class = object->class; if (class->n_event == 0) return; // fprintf(stderr, "OBJECT_lock: (%s %p) %s\n", class->name, object, block ? "lock" : "unlock"); if (block) OBJECT_event(object)->parent = (OBJECT *)((intptr_t)OBJECT_event(object)->parent | 1); else OBJECT_event(object)->parent = (OBJECT *)((intptr_t)OBJECT_event(object)->parent & ~1); } bool OBJECT_is_locked(OBJECT *object) { if (!OBJECT_has_events(object)) return FALSE; return (((intptr_t)OBJECT_event(object)->parent & 1) != 0); } OBJECT *OBJECT_parent(void *object) { //if (!OBJECT_has_events(object)) // return NULL; return ((OBJECT *)((intptr_t)OBJECT_event(object)->parent & ~1)); } OBJECT *OBJECT_active_parent(void *object) { OBJECT *parent = OBJECT_parent(object); if (!parent || OBJECT_is_locked((OBJECT *)object) || OBJECT_is_locked(parent)) return NULL; return parent; }