#ifdef HAVE_CONFIG_H # include #endif #include #include "Eo.h" #include "eo_ptr_indirection.h" #include "eo_private.h" static int event_freeze_count = 0; typedef struct _Eo_Callback_Description Eo_Callback_Description; #define CALLSIZE 62 typedef struct { Eina_List *children; Eo *parent; Eina_List *parent_list; Eina_Inlist *generic_data; Eo ***wrefs; // Eo_Callback_Description *callbacks; Eina_Inarray *callbacks; int callbacks_hash[ CALLSIZE +1][2]; Eina_Bool callbacks_hash_dirty ; unsigned short walking_list; unsigned short event_freeze_count; Eina_Bool deletions_waiting : 1; unsigned int called_counter; unsigned int callbacks_counter; unsigned int called_loop_counter; unsigned int called_inner_loop_counter; unsigned int arrays_counter; clock_t called_sum_clocks ; unsigned int events_counter; unsigned long long int have_events; } Eo_Base_Data; static unsigned int called_counter=0; static unsigned int callbacks_counter=0; static unsigned int called_loop_counter=0; static unsigned int called_inner_loop_counter=0; static unsigned int arrays_counter=0; static unsigned int objects_counter=0; static clock_t called_sum_clocks =0; static clock_t start_clock =0; static clock_t key_data_get_sum_clocks =0; static unsigned int events_counter=0; typedef struct { EINA_INLIST; Eina_Stringshare *key; void *data; eo_key_data_free_func free_func; } Eo_Generic_Data_Node; static void _eo_generic_data_node_free(Eo_Generic_Data_Node *node) { eina_stringshare_del(node->key); if (node->free_func) node->free_func(node->data); free(node); } static void _eo_generic_data_del_all(Eo_Base_Data *pd) { Eina_Inlist *nnode; Eo_Generic_Data_Node *node = NULL; EINA_INLIST_FOREACH_SAFE(pd->generic_data, nnode, node) { pd->generic_data = eina_inlist_remove(pd->generic_data, EINA_INLIST_GET(node)); _eo_generic_data_node_free(node); } } EOLIAN static void _eo_base_key_data_set(Eo *obj, Eo_Base_Data *pd, const char *key, const void *data, eo_key_data_free_func free_func) { Eo_Generic_Data_Node *node; if (!key) return; eo_do(obj, eo_key_data_del(key); ); node = malloc(sizeof(Eo_Generic_Data_Node)); if (!node) return; node->key = eina_stringshare_add(key); node->data = (void *) data; node->free_func = free_func; pd->generic_data = eina_inlist_prepend(pd->generic_data, EINA_INLIST_GET(node)); } EOLIAN static void * _eo_base_key_data_get(Eo *obj EINA_UNUSED, Eo_Base_Data *pd, const char *key) { /* We don't really change it... */ Eo_Generic_Data_Node *node; if (!key) return NULL; clock_t start_time=clock(); EINA_INLIST_FOREACH(pd->generic_data, node) { if (!strcmp(node->key, key)) { pd->generic_data = eina_inlist_promote(pd->generic_data, EINA_INLIST_GET(node)); return node->data; } } key_data_get_sum_clocks+=clock()-start_time; return NULL; } EOLIAN static void _eo_base_parent_set(Eo *obj, Eo_Base_Data *pd, Eo *parent_id) { Eina_Bool tmp; if (pd->parent == parent_id) return; if (eo_do_ret(obj, tmp, eo_composite_part_is()) && pd->parent) { eo_do(pd->parent, eo_composite_detach(obj)); } if (pd->parent) { Eo_Base_Data *old_parent_pd; old_parent_pd = eo_data_scope_get(pd->parent, EO_BASE_CLASS); if (old_parent_pd) { old_parent_pd->children = eina_list_remove_list(old_parent_pd->children, pd->parent_list); pd->parent_list = NULL; } else { ERR("CONTACT DEVS!!! SHOULD NEVER HAPPEN!!! Old parent %p for object %p is not a valid Eo object.", pd->parent, obj); } eo_xunref(obj, pd->parent); } /* Set new parent */ if (parent_id) { Eo_Base_Data *parent_pd = NULL; parent_pd = eo_data_scope_get(parent_id, EO_BASE_CLASS); if (EINA_LIKELY(parent_pd != NULL)) { pd->parent = parent_id; parent_pd->children = eina_list_append(parent_pd->children, obj); pd->parent_list = eina_list_last(parent_pd->children); eo_xref(obj, pd->parent); } else { pd->parent = NULL; ERR("New parent %p for object %p is not a valid Eo object.", parent_id, obj); } } else { pd->parent = NULL; } } EOLIAN static Eo * _eo_base_parent_get(Eo *obj EINA_UNUSED, Eo_Base_Data *pd) { return pd->parent; } EOLIAN static Eina_Bool _eo_base_finalized_get(Eo *obj_id, Eo_Base_Data *pd EINA_UNUSED) { EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, EINA_FALSE); return obj->finalized; } /* Children accessor */ typedef struct _Eo_Children_Iterator Eo_Children_Iterator; struct _Eo_Children_Iterator { Eina_Iterator iterator; Eina_List *current; _Eo_Object *obj; Eo *obj_id; }; static Eina_Bool _eo_children_iterator_next(Eo_Children_Iterator *it, void **data) { if (!it->current) return EINA_FALSE; if (data) *data = eina_list_data_get(it->current); it->current = eina_list_next(it->current); return EINA_TRUE; } static Eo * _eo_children_iterator_container(Eo_Children_Iterator *it) { return it->obj_id; } static void _eo_children_iterator_free(Eo_Children_Iterator *it) { _Eo_Class *klass; _Eo_Object *obj; klass = (_Eo_Class*) it->obj->klass; obj = it->obj; eina_spinlock_take(&klass->iterators.trash_lock); if (klass->iterators.trash_count < 8) { klass->iterators.trash_count++; eina_trash_push(&klass->iterators.trash, it); } else { free(it); } eina_spinlock_release(&klass->iterators.trash_lock); _eo_unref(obj); } EOLIAN static Eina_Iterator * _eo_base_children_iterator_new(Eo *obj_id, Eo_Base_Data *pd) { _Eo_Class *klass; Eo_Children_Iterator *it; EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, NULL); if (!pd->children) return NULL; klass = (_Eo_Class *) obj->klass; eina_spinlock_take(&klass->iterators.trash_lock); it = eina_trash_pop(&klass->iterators.trash); if (it) { klass->iterators.trash_count--; memset(it, 0, sizeof (Eo_Children_Iterator)); } else { it = calloc(1, sizeof (Eo_Children_Iterator)); } eina_spinlock_release(&klass->iterators.trash_lock); if (!it) return NULL; EINA_MAGIC_SET(&it->iterator, EINA_MAGIC_ITERATOR); it->current = pd->children; it->obj = _eo_ref(obj); it->obj_id = obj_id; it->iterator.next = FUNC_ITERATOR_NEXT(_eo_children_iterator_next); it->iterator.get_container = FUNC_ITERATOR_GET_CONTAINER(_eo_children_iterator_container); it->iterator.free = FUNC_ITERATOR_FREE(_eo_children_iterator_free); return (Eina_Iterator *)it; } EOLIAN static void _eo_base_dbg_info_get(Eo *obj EINA_UNUSED, Eo_Base_Data *pd EINA_UNUSED, Eo_Dbg_Info *root_node EINA_UNUSED) { /* No info required in the meantime */ return; } EOLIAN static void _eo_base_key_data_del(Eo *obj EINA_UNUSED, Eo_Base_Data *pd, const char *key) { Eo_Generic_Data_Node *node; if (!key) return; EINA_INLIST_FOREACH(pd->generic_data, node) { if (!strcmp(node->key, key)) { pd->generic_data = eina_inlist_remove(pd->generic_data, EINA_INLIST_GET(node)); _eo_generic_data_node_free(node); return; } } } /* Weak reference. */ static inline size_t _wref_count(Eo_Base_Data *pd) { size_t count = 0; if (!pd->wrefs) return 0; Eo ***itr; for (itr = pd->wrefs; *itr; itr++) count++; return count; } EOLIAN static void _eo_base_wref_add(Eo *obj, Eo_Base_Data *pd, Eo **wref) { size_t count; Eo ***tmp; count = _wref_count(pd); count += 1; /* New wref. */ tmp = realloc(pd->wrefs, sizeof(*pd->wrefs) * (count + 1)); if (!tmp) return; pd->wrefs = tmp; pd->wrefs[count - 1] = wref; pd->wrefs[count] = NULL; *wref = obj; } EOLIAN void _eo_base_wref_del(Eo *obj, Eo_Base_Data *pd, Eo **wref) { size_t count; if (*wref != obj) { ERR("Wref is a weak ref to %p, while this function was called on %p.", *wref, obj); return; } if (!pd->wrefs) { ERR("There are no weak refs for object %p", obj); *wref = NULL; return; } /* Move the last item in the array instead of the current wref. */ count = _wref_count(pd); { Eo ***itr; for (itr = pd->wrefs; *itr; itr++) { if (*itr == wref) { *itr = pd->wrefs[count - 1]; break; } } if (!*itr) { ERR("Wref %p is not associated with object %p", wref, obj); *wref = NULL; return; } } if (count > 1) { Eo ***tmp; // No count--; because of the NULL that is not included in the count. */ tmp = realloc(pd->wrefs, sizeof(*pd->wrefs) * count); if (!tmp) return; pd->wrefs = tmp; pd->wrefs[count - 1] = NULL; } else { free(pd->wrefs); pd->wrefs = NULL; } *wref = NULL; } static inline void _wref_destruct(Eo_Base_Data *pd) { Eo ***itr; if (!pd->wrefs) return; for (itr = pd->wrefs; *itr; itr++) { **itr = NULL; } free(pd->wrefs); } /* EOF Weak reference. */ /* Event callbacks */ /* Callbacks */ /* XXX: Legacy support, remove when legacy is dead. */ static Eina_Hash *_legacy_events_hash = NULL; static const char *_legacy_event_desc = "Dynamically generated legacy event"; EAPI const Eo_Event_Description * eo_base_legacy_only_event_description_get(const char *_event_name) { Eina_Stringshare *event_name = eina_stringshare_add(_event_name); Eo_Event_Description *event_desc = eina_hash_find(_legacy_events_hash, event_name); if (!event_desc) { event_desc = calloc(1, sizeof(Eo_Event_Description)); event_desc->name = event_name; event_desc->doc = _legacy_event_desc; eina_hash_add(_legacy_events_hash, event_name, event_desc); } else { eina_stringshare_del(event_name); } return event_desc; } static void _legacy_events_hash_free_cb(void *_desc) { Eo_Event_Description *desc = _desc; eina_stringshare_del(desc->name); free(desc); } /* EOF Legacy */ struct _Eo_Callback_Description { //Eo_Callback_Description *next; union { Eo_Callback_Array_Item item; const Eo_Callback_Array_Item *item_array; } items; void *func_data; Eo_Callback_Priority priority; Eina_Bool delete_me : 1; Eina_Bool func_array : 1; }; /* Actually remove, doesn't care about walking list, or delete_me */ static void _eo_callback_remove(Eo_Base_Data *pd, Eo_Callback_Description *cb) { Eo_Callback_Description *itr, *pitr = NULL; #if 0 itr = pd->callbacks; for ( ; itr; ) { Eo_Callback_Description *titr = itr; itr = itr->next; if (titr == cb) { if (pitr) { pitr->next = titr->next; } else { pd->callbacks = titr->next; } free(titr); } else { pitr = titr; } } #endif } /* Actually remove, doesn't care about walking list, or delete_me */ static void _eo_callback_remove_all(Eo_Base_Data *pd) { #if 0 while (pd->callbacks) { Eo_Callback_Description *next = pd->callbacks->next; free(pd->callbacks); pd->callbacks = next; } #endif } int _eo_base_get_event_index_hash( const Eo_Event_Description *a){ void * p; if (!a){ printf("not a \n"); return 0;//avi todo fo change to -1 } /* If either is legacy, fallback to string comparison. */ if ((a->doc == _legacy_event_desc)) { p = a->name; } else { p=a; } int index_hash = ((unsigned long long int )p)%CALLSIZE; return index_hash; } void _eo_base_set_event_hash( const Eo_Event_Description *a , Eo_Base_Data *pd, int i, int aIndex){ int index_hash = _eo_base_get_event_index_hash(a ); // pd->callbacks_hash[index_hash] |= 1<callbacks_hash[index_hash][0] == -1 ){ pd->callbacks_hash[index_hash][0] = i; pd->callbacks_hash[index_hash][1] = aIndex; pd->callbacks_hash[index_hash][2] = 0; // printf("first one for %d is %d\n", index_hash, i); } else{ pd->callbacks_hash[index_hash][2]++;//there is more // printf("more than one for %d\n", index_hash); } } void _eo_base_update_callbacks_hash ( Eo_Base_Data *pd){ Eo_Callback_Description *cb; for( int i=0;i< CALLSIZE ;i++){ pd->callbacks_hash[i][0] = -1; pd->callbacks_hash[i][1]= -1; pd->callbacks_hash[i][2] = 0; } int i=0; EINA_INARRAY_FOREACH(pd->callbacks, cb){ if (!cb->delete_me) { if (cb->func_array) { const Eo_Callback_Array_Item *it; int count = 0; for (it = cb->items.item_array; it->func; it++) { _eo_base_set_event_hash( it->desc , pd, i, count); count++; } } else{ _eo_base_set_event_hash( cb->items.item.desc, pd , i, -1); } } i++; } pd->callbacks_hash_dirty = EINA_FALSE; } _eo_base_callback_delete_me_check( const Eina_Inarray *iarr, void *a, void *b) { return ((struct _Eo_Callback_Description*)a)->delete_me; } static void _eo_callbacks_clear(Eo_Base_Data *pd) { Eo_Callback_Description *cb = NULL; /* If there are no deletions waiting. */ if (!pd->deletions_waiting) return; /* Abort if we are currently walking the list. */ if (pd->walking_list > 0) return; pd->deletions_waiting = EINA_FALSE; eina_inarray_foreach_remove( pd->callbacks, _eo_base_callback_delete_me_check, NULL); _eo_base_update_callbacks_hash(pd); } static void _eo_callbacks_sorted_insert(Eo_Base_Data *pd, Eo_Callback_Description *cb) { Eo_Callback_Description *itr, *itrp = NULL; for (itr = pd->callbacks; itr && (itr->priority < cb->priority); itr = itr->next) { itrp = itr; } if (itrp) { cb->next = itrp->next; itrp->next = cb; } else { cb->next = pd->callbacks; pd->callbacks = cb; } } void set_event_have( const Eo_Event_Description *a , Eo_Base_Data *pd){ void * p; if (!a) return; /* If either is legacy, fallback to string comparison. */ if ((a->doc == _legacy_event_desc)) { p = a->name; } else { p=a; } unsigned int index = ((unsigned long long int )p)%63; if( (pd->have_events & (1<events_counter++; pd->have_events |= 1<priority < (( Eo_Callback_Description*)b)->priority; } EOLIAN static void _eo_base_event_callback_priority_add(Eo *obj, Eo_Base_Data *pd, const Eo_Event_Description *desc, Eo_Callback_Priority priority, Eo_Event_Cb func, const void *user_data) { Eo_Callback_Description cb; // cb = calloc(1, sizeof(*cb)); // if (!cb) return; cb.items.item.desc = desc; cb.items.item.func = func; cb.func_data = (void *) user_data; cb.priority = priority; cb.func_array = EINA_FALSE; cb.delete_me = EINA_FALSE; // _eo_callbacks_sorted_insert(pd, cb); eina_inarray_insert_sorted(pd->callbacks, &cb , _eo_base_callback_priority_cmp); //pd->callbacks_hash_dirty = EINA_TRUE; _eo_base_update_callbacks_hash(pd); { const Eo_Callback_Array_Item arr[] = { {desc, func}, {NULL, NULL}}; eo_do(obj, eo_event_callback_call(EO_EV_CALLBACK_ADD, (void *)arr)); } pd->callbacks_counter++;//avi debug set_event_have( desc, pd); } EOLIAN static void _eo_base_event_callback_del(Eo *obj, Eo_Base_Data *pd, const Eo_Event_Description *desc, Eo_Event_Cb func, const void *user_data) { Eo_Callback_Description *cb; EINA_INARRAY_FOREACH(pd->callbacks, cb) if ((cb->items.item.desc == desc) && (cb->items.item.func == func) && (cb->func_data == user_data)) { // eina_inarray_remove(callbacks , cb ); const Eo_Callback_Array_Item arr[] = { {desc, func}, {NULL, NULL}}; cb->delete_me = EINA_TRUE; pd->deletions_waiting = EINA_TRUE; _eo_callbacks_clear(pd); eo_do(obj, eo_event_callback_call(EO_EV_CALLBACK_DEL, (void *)arr); ); return; } DBG("Callback of object %p with function %p and data %p not found.", obj, func, user_data); } EOLIAN static void _eo_base_event_callback_array_priority_add(Eo *obj, Eo_Base_Data *pd, const Eo_Callback_Array_Item *array, Eo_Callback_Priority priority, const void *user_data) { Eo_Callback_Description cb; // cb = calloc(1, sizeof(*cb)); // if (!cb) return; cb.func_data = (void *) user_data; cb.priority = priority; cb.items.item_array = array; cb.func_array = EINA_TRUE; cb.delete_me = EINA_FALSE; // _eo_callbacks_sorted_insert(pd, cb); eina_inarray_insert_sorted(pd->callbacks, &cb , _eo_base_callback_priority_cmp); //pd->callbacks_hash_dirty = EINA_TRUE; _eo_base_update_callbacks_hash(pd); { eo_do(obj, eo_event_callback_call(EO_EV_CALLBACK_ADD, (void *)array); ); } pd->arrays_counter++;//avi debug const Eo_Callback_Array_Item *it; for (it = cb.items.item_array; it->func; it++) { set_event_have( it->desc, pd); } } EOLIAN static void _eo_base_event_callback_array_del(Eo *obj, Eo_Base_Data *pd, const Eo_Callback_Array_Item *array, const void *user_data) { Eo_Callback_Description *cb; EINA_INARRAY_FOREACH(pd->callbacks, cb) if ((cb->items.item_array == array) && (cb->func_data == user_data)) { cb->delete_me = EINA_TRUE; pd->deletions_waiting = EINA_TRUE; _eo_callbacks_clear(pd); eo_do(obj, eo_event_callback_call(EO_EV_CALLBACK_DEL, (void *)array); ); return; } DBG("Callback of object %p with function array %p and data %p not found.", obj, array, user_data); } static Eina_Bool _cb_desc_match(const Eo_Event_Description *a, const Eo_Event_Description *b) { if (!a) return EINA_FALSE; /* If either is legacy, fallback to string comparison. */ if ((a->doc == _legacy_event_desc) || (b->doc == _legacy_event_desc)) { /* Take stringshare shortcut if both are legacy */ if (a->doc == b->doc) { return (a->name == b->name); } else { return !strcmp(a->name, b->name); } } else { return (a == b); } } EOLIAN static Eina_Bool _eo_base_event_callback_call(Eo *obj_id, Eo_Base_Data *pd, const Eo_Event_Description *desc, void *event_info) { Eina_Bool ret; Eo_Callback_Description *cb; EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, EINA_FALSE); ret = EINA_TRUE; _eo_ref(obj); pd->walking_list++; pd->called_counter++;//avi debug clock_t start_time = clock(); if(pd->callbacks_hash_dirty){ _eo_base_update_callbacks_hash(pd); //printf("dirty!\n"); } int index_hash = _eo_base_get_event_index_hash( desc ); if(pd->callbacks_hash[index_hash][0]==-1) goto end; if(pd->callbacks_hash[index_hash][2]==0){//the only one // printf("call the only one!\n"); cb = eina_inarray_nth(pd->callbacks, pd->callbacks_hash[index_hash][0]); if (!cb->delete_me) { if(pd->callbacks_hash[index_hash][1]>-1){//array //printf("array!\n"); const Eo_Callback_Array_Item *it= cb->items.item_array+pd->callbacks_hash[index_hash][1]; if (!_cb_desc_match(it->desc, desc)) goto end;//instead of continiue if (!it->desc->unfreezable && (event_freeze_count || pd->event_freeze_count)) goto end;//instead of continiue unsigned int before_func=clock(); /* Abort callback calling if the func says so. */ if (!it->func((void *) cb->func_data, obj_id, desc, (void *) event_info)) { start_time+=clock()-before_func; ret = EINA_FALSE; goto end; } start_time+=clock()-before_func; } else{ if (!_cb_desc_match(cb->items.item.desc, desc)) goto end;//instead of continiue if ((!cb->items.item.desc || !cb->items.item.desc->unfreezable) && (event_freeze_count || pd->event_freeze_count)) goto end;//instead of continiue unsigned int before_func=clock(); /* Abort callback calling if the func says so. */ if (!cb->items.item.func((void *) cb->func_data, obj_id, desc, (void *) event_info)) { start_time+=clock()-before_func; ret = EINA_FALSE; goto end; } start_time+=clock()-before_func; } } goto end; } // printf("cal: more than one for %d\n", index_hash); EINA_INARRAY_FOREACH(pd->callbacks, cb) { pd->called_loop_counter++;//avi debug if (!cb->delete_me) { if (cb->func_array) { const Eo_Callback_Array_Item *it; //int counter = 0; for (it = cb->items.item_array; it->func; it++) { pd->called_inner_loop_counter++;//avi debug // printf("here arrary index %d \n",counter++); if (!_cb_desc_match(it->desc, desc)) continue; if (!it->desc->unfreezable && (event_freeze_count || pd->event_freeze_count)) continue; unsigned int before_func=clock(); /* Abort callback calling if the func says so. */ if (!it->func((void *) cb->func_data, obj_id, desc, (void *) event_info)) { start_time+=clock()-before_func; ret = EINA_FALSE; goto end; } start_time+=clock()-before_func; } } else { // printf("here regular callback \n"); if (!_cb_desc_match(cb->items.item.desc, desc)) continue; if ((!cb->items.item.desc || !cb->items.item.desc->unfreezable) && (event_freeze_count || pd->event_freeze_count)) continue; unsigned int before_func=clock(); /* Abort callback calling if the func says so. */ if (!cb->items.item.func((void *) cb->func_data, obj_id, desc, (void *) event_info)) { start_time+=clock()-before_func; ret = EINA_FALSE; goto end; } start_time+=clock()-before_func; } } } end: pd->called_sum_clocks +=clock()-start_time;//avi dbg pd->walking_list--; _eo_callbacks_clear(pd); _eo_unref(obj); return ret; } static Eina_Bool _eo_event_forwarder_callback(void *data, Eo *obj, const Eo_Event_Description *desc, void *event_info) { (void) obj; Eo *new_obj = (Eo *) data; Eina_Bool ret = EINA_FALSE; eo_do(new_obj, ret = eo_event_callback_call(desc, (void *)event_info); ); return ret; } /* FIXME: Change default priority? Maybe call later? */ EOLIAN static void _eo_base_event_callback_forwarder_add(Eo *obj, Eo_Base_Data *pd EINA_UNUSED, const Eo_Event_Description *desc, Eo *new_obj) { /* FIXME: Add it EO_MAGIC_RETURN(new_obj, EO_EINA_MAGIC); */ eo_do(obj, eo_event_callback_add(desc, _eo_event_forwarder_callback, new_obj); ); } EOLIAN static void _eo_base_event_callback_forwarder_del(Eo *obj, Eo_Base_Data *pd EINA_UNUSED, const Eo_Event_Description *desc, Eo *new_obj) { /* FIXME: Add it EO_MAGIC_RETURN(new_obj, EO_EINA_MAGIC); */ eo_do(obj, eo_event_callback_del(desc, _eo_event_forwarder_callback, new_obj); ); } EOLIAN static void _eo_base_event_freeze(Eo *obj EINA_UNUSED, Eo_Base_Data *pd) { pd->event_freeze_count++; } EOLIAN static void _eo_base_event_thaw(Eo *obj, Eo_Base_Data *pd) { if (pd->event_freeze_count > 0) { pd->event_freeze_count--; } else { ERR("Events for object %p have already been thawed.", obj); } } EOLIAN static int _eo_base_event_freeze_count_get(Eo *obj EINA_UNUSED, Eo_Base_Data *pd) { return pd->event_freeze_count; } EOLIAN static void _eo_base_event_global_freeze(Eo *klass EINA_UNUSED, void *pd EINA_UNUSED) { event_freeze_count++; } EOLIAN static void _eo_base_event_global_thaw(Eo *klass EINA_UNUSED, void *pd EINA_UNUSED) { if (event_freeze_count > 0) { event_freeze_count--; } else { ERR("Global events have already been thawed."); } } EOLIAN static int _eo_base_event_global_freeze_count_get(Eo *klass EINA_UNUSED, void *pd EINA_UNUSED) { return event_freeze_count; } EOLIAN static Eina_Bool _eo_base_composite_attach(Eo *parent_id, Eo_Base_Data *pd EINA_UNUSED, Eo *comp_obj_id) { EO_OBJ_POINTER_RETURN_VAL(comp_obj_id, comp_obj, EINA_FALSE); EO_OBJ_POINTER_RETURN_VAL(parent_id, parent, EINA_FALSE); if (!eo_isa(parent_id, _eo_class_id_get(comp_obj->klass))) return EINA_FALSE; { Eina_List *itr; Eo *emb_obj_id; EINA_LIST_FOREACH(parent->composite_objects, itr, emb_obj_id) { EO_OBJ_POINTER_RETURN_VAL(emb_obj_id, emb_obj, EINA_FALSE); if(emb_obj->klass == comp_obj->klass) return EINA_FALSE; } } comp_obj->composite = EINA_TRUE; parent->composite_objects = eina_list_prepend(parent->composite_objects, comp_obj_id); eo_do(comp_obj_id, eo_parent_set(parent_id)); return EINA_TRUE; } EOLIAN static Eina_Bool _eo_base_composite_detach(Eo *parent_id, Eo_Base_Data *pd EINA_UNUSED, Eo *comp_obj_id) { EO_OBJ_POINTER_RETURN_VAL(comp_obj_id, comp_obj, EINA_FALSE); EO_OBJ_POINTER_RETURN_VAL(parent_id, parent, EINA_FALSE); if (!comp_obj->composite) return EINA_FALSE; comp_obj->composite = EINA_FALSE; parent->composite_objects = eina_list_remove(parent->composite_objects, comp_obj_id); eo_do(comp_obj_id, eo_parent_set(NULL)); return EINA_TRUE; } EOLIAN static Eina_Bool _eo_base_composite_part_is(Eo *comp_obj_id, Eo_Base_Data *pd EINA_UNUSED) { EO_OBJ_POINTER_RETURN_VAL(comp_obj_id, comp_obj, EINA_FALSE); return comp_obj->composite; } /* Eo_Dbg */ EAPI void eo_dbg_info_free(Eo_Dbg_Info *info) { eina_value_flush(&(info->value)); free(info); } static Eina_Bool _eo_dbg_info_setup(const Eina_Value_Type *type, void *mem) { memset(mem, 0, type->value_size); return EINA_TRUE; } static Eina_Bool _eo_dbg_info_flush(const Eina_Value_Type *type EINA_UNUSED, void *_mem) { Eo_Dbg_Info *mem = *(Eo_Dbg_Info **) _mem; eina_stringshare_del(mem->name); eina_value_flush(&(mem->value)); free(mem); return EINA_TRUE; } static Eina_Bool _eo_dbg_info_copy(const Eina_Value_Type *type EINA_UNUSED, const void *_src, void *_dst) { const Eo_Dbg_Info **src = (const Eo_Dbg_Info **) _src; Eo_Dbg_Info **dst = _dst; *dst = calloc(1, sizeof(Eo_Dbg_Info)); if (!*dst) return EINA_FALSE; (*dst)->name = eina_stringshare_ref((*src)->name); eina_value_copy(&((*src)->value), &((*dst)->value)); return EINA_TRUE; } static Eina_Bool _eo_dbg_info_convert_to(const Eina_Value_Type *type EINA_UNUSED, const Eina_Value_Type *convert, const void *type_mem, void *convert_mem) { /* FIXME: For the meanwhile, just use the inner type for the value. */ const Eo_Dbg_Info **src = (const Eo_Dbg_Info **) type_mem; if (convert == EINA_VALUE_TYPE_STRINGSHARE || convert == EINA_VALUE_TYPE_STRING) { Eina_Bool ret; const char *other_mem; char *inner_val = eina_value_to_string(&(*src)->value); other_mem = inner_val; ret = eina_value_type_pset(convert, convert_mem, &other_mem); free(inner_val); return ret; } eina_error_set(EINA_ERROR_VALUE_FAILED); return EINA_FALSE; } static Eina_Bool _eo_dbg_info_pset(const Eina_Value_Type *type EINA_UNUSED, void *_mem, const void *_ptr) { Eo_Dbg_Info **mem = _mem; if (*mem) free(*mem); *mem = (void *) _ptr; return EINA_TRUE; } static Eina_Bool _eo_dbg_info_pget(const Eina_Value_Type *type EINA_UNUSED, const void *_mem, void *_ptr) { Eo_Dbg_Info **ptr = _ptr; *ptr = (void *) _mem; return EINA_TRUE; } static const Eina_Value_Type _EO_DBG_INFO_TYPE = { EINA_VALUE_TYPE_VERSION, sizeof(Eo_Dbg_Info *), "Eo_Dbg_Info_Ptr", _eo_dbg_info_setup, _eo_dbg_info_flush, _eo_dbg_info_copy, NULL, _eo_dbg_info_convert_to, NULL, NULL, _eo_dbg_info_pset, _eo_dbg_info_pget }; EAPI const Eina_Value_Type *EO_DBG_INFO_TYPE = &_EO_DBG_INFO_TYPE; /* EOF event callbacks */ /* EO_BASE_CLASS stuff */ #define MY_CLASS EO_BASE_CLASS EOLIAN static void _eo_base_constructor(Eo *obj, Eo_Base_Data *pd EINA_UNUSED) { DBG("%p - %s.", obj, eo_class_name_get(MY_CLASS)); pd->called_counter=0; pd->callbacks_counter=0; pd-> called_loop_counter=0; pd-> called_loop_counter=0; pd->called_inner_loop_counter=0; pd-> arrays_counter=0; pd-> called_sum_clocks =0; pd->events_counter=0; pd->have_events = 0; pd->callbacks = eina_inarray_new(sizeof(Eo_Callback_Description), 10 );//added by avi for( int i=0;i< CALLSIZE ;i++){ pd->callbacks_hash[i][0] = pd->callbacks_hash[i][1]= -1; pd->callbacks_hash[i][2] = 0; } pd->callbacks_hash_dirty = EINA_FALSE; _eo_condtor_done(obj); } static int c = 0; static __attribute__((destructor)) void finish(void) { c=1; printf("calbacks stats-All objects!: num objects=%u total time=%f called cal times= %u called loops=%u called inner loops=%u called clocks=%f called sec=%f callbacks count=%u clabbacks arrays=%u key_data_get_sum_clocks=%f events counter=%u \n", objects_counter,(double)(clock()-start_clock)/CLOCKS_PER_SEC, called_counter, called_loop_counter, called_inner_loop_counter,(double)called_sum_clocks, (double)called_sum_clocks/CLOCKS_PER_SEC, callbacks_counter, arrays_counter, (double)key_data_get_sum_clocks /CLOCKS_PER_SEC, events_counter);//avi debug } EOLIAN static void _eo_base_destructor(Eo *obj, Eo_Base_Data *pd) { Eo *child; DBG("%p - %s.", obj, eo_class_name_get(MY_CLASS)); if( pd->callbacks_counter>0 && getenv("EO_DEBUG")) printf("calbacks stats-%s: called cal times= %u called loops=%u called inner loops=%u alled clocks=%f called sec=%f callbacks count=%u clabbacks arrays=%u events_counter = %u\n", eo_class_name_get(MY_CLASS ), pd->called_counter, pd->called_loop_counter, pd->called_inner_loop_counter, (double)pd->called_sum_clocks, (double)pd->called_sum_clocks/CLOCKS_PER_SEC, pd->callbacks_counter, pd->arrays_counter, pd->events_counter);//avi debug called_counter+=pd->called_counter; callbacks_counter+=pd->callbacks_counter; called_loop_counter+= pd->called_loop_counter; arrays_counter+=pd->arrays_counter; called_inner_loop_counter+=pd->called_inner_loop_counter; called_sum_clocks+=pd-> called_sum_clocks; events_counter+=pd->events_counter; if( pd->callbacks_counter>0 )//only with atleast one calllbacks objects_counter++; EINA_LIST_FREE(pd->children, child) eo_do(child, eo_parent_set(NULL)); _eo_generic_data_del_all(pd); _wref_destruct(pd); // _eo_callback_remove_all(pd); eina_inarray_free(pd->callbacks);//added by avi _eo_condtor_done(obj); if(c==1) printf("shit\n"); } EOLIAN static Eo * _eo_base_finalize(Eo *obj, Eo_Base_Data *pd EINA_UNUSED) { return _eo_add_internal_end(obj); } EOLIAN static void _eo_base_class_constructor(Eo_Class *klass EINA_UNUSED) { if(start_clock==0) start_clock=clock();//avi dbg event_freeze_count = 0; _legacy_events_hash = eina_hash_stringshared_new(_legacy_events_hash_free_cb); } EOLIAN static void _eo_base_class_destructor(Eo_Class *klass EINA_UNUSED) { eina_hash_free(_legacy_events_hash); } #include "eo_base.eo.c"