471 lines
14 KiB
C
471 lines
14 KiB
C
/* EFL - EFL library
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* Copyright (C) 2013 Cedric Bail
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library;
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* if not, see <http://www.gnu.org/licenses/>.
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*/
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#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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#include "efl_suite.h"
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#include <Efl.h>
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#include <Ecore.h>
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static const int child_number = 3;
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static const int base_ints[] = { 41, 42, 43 };
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static const Eina_Bool base_selections[] = { EINA_FALSE, EINA_FALSE, EINA_TRUE };
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static Eina_Value
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_children_slice_get_then(void *data EINA_UNUSED,
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const Eina_Value v,
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const Eina_Future *dead_future EINA_UNUSED)
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{
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unsigned int i, len;
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Efl_Model *child;
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fail_if(eina_value_type_get(&v) != EINA_VALUE_TYPE_ARRAY);
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EINA_VALUE_ARRAY_FOREACH(&v, len, i, child)
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{
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Eina_Value *p_int = NULL;
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Eina_Value *p_true = NULL;
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Eina_Value *p_false = NULL;
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int v_int = 0;
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Eina_Bool v_true = EINA_FALSE;
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Eina_Bool v_false = EINA_TRUE;
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p_int = efl_model_property_get(child, "test_p_int");
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p_true = efl_model_property_get(child, "test_p_true");
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p_false = efl_model_property_get(child, "test_p_false");
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eina_value_get(p_int, &v_int);
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eina_value_get(p_true, &v_true);
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eina_value_get(p_false, &v_false);
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fail_if(v_int != base_ints[i]);
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fail_if(v_true != EINA_TRUE);
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fail_if(v_false != EINA_FALSE);
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eina_value_free(p_int);
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eina_value_free(p_true);
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eina_value_free(p_false);
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}
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ecore_main_loop_quit();
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return v;
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}
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static Eina_Value
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_selection_children_slice_get_then(void *data EINA_UNUSED,
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const Eina_Value v,
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const Eina_Future *dead_future EINA_UNUSED)
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{
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unsigned int i, len;
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Efl_Model *child = NULL;
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fail_if(eina_value_type_get(&v) != EINA_VALUE_TYPE_ARRAY);
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EINA_VALUE_ARRAY_FOREACH(&v, len, i, child)
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{
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Eina_Value *p_int = NULL;
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Eina_Value *p_bool = NULL;
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Eina_Value *p_index = NULL;
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int v_int = 0;
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unsigned int index = 0;
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Eina_Bool v_bool = EINA_FALSE;
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p_bool = efl_model_property_get(child, "selected");
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p_int = efl_model_property_get(child, "test_p_int");
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p_index = efl_model_property_get(child, "child.index");
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eina_value_get(p_bool, &v_bool);
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eina_value_get(p_int, &v_int);
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fail_if(!eina_value_uint_convert(p_index, &index));
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fail_if(v_bool != base_selections[i]);
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fail_if(v_int != base_ints[i]);
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ck_assert_int_eq(i, index);
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eina_value_free(p_bool);
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eina_value_free(p_int);
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eina_value_free(p_index);
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}
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ecore_main_loop_quit();
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return v;
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}
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EFL_START_TEST(efl_test_boolean_model)
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{
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Efl_Generic_Model *base_model, *child;
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int i;
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Eina_Value v = { 0 };
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Efl_Boolean_Model *model;
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Eina_Future *future;
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eina_value_setup(&v, EINA_VALUE_TYPE_INT);
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base_model = efl_add_ref(EFL_GENERIC_MODEL_CLASS, efl_main_loop_get());
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ck_assert(!!base_model);
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for (i = 0; i < child_number; ++i)
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{
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child = efl_model_child_add(base_model);
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ck_assert(!!child);
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ck_assert(eina_value_set(&v, base_ints[i]));
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efl_model_property_set(child, "test_p_int", &v);
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}
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model = efl_add_ref(EFL_BOOLEAN_MODEL_CLASS, efl_main_loop_get(),
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efl_ui_view_model_set(efl_added, base_model),
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efl_boolean_model_boolean_add(efl_added, "test_p_true", EINA_TRUE),
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efl_boolean_model_boolean_add(efl_added, "test_p_false", EINA_FALSE));
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ck_assert(!!model);
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future = efl_model_children_slice_get(model, 0, efl_model_children_count_get(model));
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eina_future_then(future, _children_slice_get_then, NULL, NULL);
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ecore_main_loop_begin();
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}
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EFL_END_TEST
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static Eina_Value
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_wait_propagate(void *data EINA_UNUSED,
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const Eina_Value v,
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const Eina_Future *dead_future EINA_UNUSED)
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{
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ecore_main_loop_quit();
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return v;
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}
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EFL_START_TEST(efl_test_select_model)
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{
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Efl_Generic_Model *base_model, *child;
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int i;
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Eina_Value v = { 0 };
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Efl_Select_Model *model;
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Eina_Future *future;
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Eina_Iterator *it;
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uint64_t *index;
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eina_value_setup(&v, EINA_VALUE_TYPE_INT);
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base_model = efl_add_ref(EFL_GENERIC_MODEL_CLASS, efl_main_loop_get());
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ck_assert(!!base_model);
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for (i = 0; i < child_number; ++i)
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{
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child = efl_model_child_add(base_model);
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ck_assert(!!child);
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ck_assert(eina_value_set(&v, base_ints[i]));
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efl_model_property_set(child, "test_p_int", &v);
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}
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model = efl_add_ref(EFL_SELECT_MODEL_CLASS, efl_main_loop_get(),
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efl_ui_view_model_set(efl_added, base_model));
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ck_assert(!!model);
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future = efl_model_property_set(model, "child.selected", eina_value_int_new(2));
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eina_future_then(future, _wait_propagate, NULL, NULL);
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ecore_main_loop_begin();
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future = efl_model_children_slice_get(model, 0, efl_model_children_count_get(model));
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eina_future_then(future, _selection_children_slice_get_then, NULL, NULL);
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ecore_main_loop_begin();
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it = efl_select_model_selected_get(model);
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EINA_ITERATOR_FOREACH(it, index)
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fail_if(*index != 2);
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eina_iterator_free(it);
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it = efl_select_model_unselected_get(model);
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EINA_ITERATOR_FOREACH(it, index)
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fail_if(*index == 2);
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eina_iterator_free(it);
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}
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EFL_END_TEST
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typedef struct _Efl_Filter_Model_Wait Efl_Filter_Model_Wait;
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struct _Efl_Filter_Model_Wait
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{
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Efl_Model *child;
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Efl_Model *parent;
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Eina_Promise *p;
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};
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static void _wait_for_it(void *data, const Efl_Event *event);
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static void
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_wait_cleanup(Efl_Filter_Model_Wait *mw)
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{
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efl_event_callback_del(mw->child, EFL_MODEL_EVENT_PROPERTIES_CHANGED, _wait_for_it, mw);
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efl_unref(mw->child);
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efl_unref(mw->parent);
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free(mw);
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}
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static void
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_wait_for_it(void *data, const Efl_Event *event)
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{
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Efl_Model_Property_Event *ev = event->info;
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Efl_Filter_Model_Wait *mw = data;
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const char *property;
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unsigned int i;
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Eina_Array_Iterator it;
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EINA_ARRAY_ITER_NEXT(ev->changed_properties, i, property, it)
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{
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if (!strcmp(property, "ready"))
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{
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Eina_Value *value = efl_model_property_get(event->object, "ready");
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Eina_Bool r;
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Eina_Error err = 0;
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if (eina_value_type_get(value) == EINA_VALUE_TYPE_BOOL &&
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eina_value_bool_get(value, &r) &&
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r)
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{
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eina_value_free(value);
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eina_promise_resolve(mw->p, eina_value_bool_init(EINA_TRUE));
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_wait_cleanup(mw);
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return ;
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}
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if (eina_value_type_get(value) == EINA_VALUE_TYPE_ERROR &&
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eina_value_error_get(value, &err) &&
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err != EAGAIN)
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{
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eina_value_free(value);
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eina_promise_reject(mw->p, err);
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_wait_cleanup(mw);
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return ;
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}
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eina_value_free(value);
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break;
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}
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}
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}
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static void
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_wait_cancel(void *data, const Eina_Promise *dead_ptr EINA_UNUSED)
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{
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_wait_cleanup(data);
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}
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static Eina_Future *
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_wait_ready_true(Efl_Model *parent, Efl_Model *child)
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{
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Efl_Filter_Model_Wait *mw;
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Eina_Value *value = efl_model_property_get(child, "ready");
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Eina_Bool r = EINA_FALSE;
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Eina_Error err = 0;
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if (eina_value_type_get(value) == EINA_VALUE_TYPE_BOOL &&
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eina_value_bool_get(value, &r) &&
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r)
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{
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eina_value_free(value);
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return efl_loop_future_resolved(parent, eina_value_bool_init(EINA_TRUE));
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}
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if (eina_value_type_get(value) == EINA_VALUE_TYPE_ERROR &&
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eina_value_error_get(value, &err) &&
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err != EAGAIN)
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{
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eina_value_free(value);
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return efl_loop_future_rejected(parent, err);
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}
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eina_value_free(value);
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mw = calloc(1, sizeof (Efl_Filter_Model_Wait));
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if (!mw) return efl_loop_future_rejected(parent, ENOMEM);
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mw->p = eina_promise_new(efl_loop_future_scheduler_get(parent), _wait_cancel, mw);
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mw->child = efl_ref(child);
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mw->parent = efl_ref(parent);
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efl_event_callback_add(child, EFL_MODEL_EVENT_PROPERTIES_CHANGED,
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_wait_for_it, mw);
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return efl_future_then(child, eina_future_new(mw->p));
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}
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static Eina_Future *
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_filter_cb(void *data EINA_UNUSED, Efl_Filter_Model *parent, Efl_Model *child)
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{
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return _wait_ready_true(parent, child);
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}
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static Eina_Value
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_fetch_and_switch(Eo *o EINA_UNUSED, void *data EINA_UNUSED, const Eina_Value v)
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{
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unsigned int i, len;
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Eo *target = NULL;
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Eina_Future **all;
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all = calloc(1, sizeof (Eina_Future *) * (eina_value_array_count(&v) + 1));
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if (!all) return eina_value_error_init(ENOMEM);
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EINA_VALUE_ARRAY_FOREACH(&v, len, i, target)
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{
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all[i] = efl_model_property_set(target, "ready", eina_value_bool_new(EINA_TRUE));
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}
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all[i] = EINA_FUTURE_SENTINEL;
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return eina_future_as_value(eina_future_all_array(all));
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}
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static void
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_count_changed(void *data, const Efl_Event *ev)
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{
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Eina_Promise *p = data;
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if (efl_model_children_count_get(ev->object) != (unsigned int)child_number) return ;
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efl_event_callback_del(ev->object, EFL_MODEL_EVENT_CHILDREN_COUNT_CHANGED,
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_count_changed, p);
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eina_promise_resolve(p, eina_value_bool_init(EINA_TRUE));
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}
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static void
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_wait_count_cancel(void *data, const Eina_Promise *dead_ptr EINA_UNUSED)
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{
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Eo *filter = data;
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efl_unref(filter);
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}
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static Eina_Value
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_wait_count(Eo *filter, void *data EINA_UNUSED, const Eina_Value v EINA_UNUSED)
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{
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Eina_Promise *p;
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Eina_Future *racing[3];
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Eina_Future *race;
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p = eina_promise_new(efl_loop_future_scheduler_get(filter),
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_wait_count_cancel, efl_ref(filter));
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efl_event_callback_add(filter, EFL_MODEL_EVENT_CHILDREN_COUNT_CHANGED, _count_changed, p);
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racing[0] = eina_future_new(p);
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racing[1] = efl_loop_timeout(efl_loop_get(filter), 0.3);
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racing[2] = EINA_FUTURE_SENTINEL;
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race = eina_future_race_array(racing);
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return eina_future_as_value(race);
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}
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static Eina_Value
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_count_and_fetch(Eo *filter, void *data EINA_UNUSED, const Eina_Value v EINA_UNUSED)
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{
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ck_assert_int_eq(efl_model_children_count_get(filter), child_number);
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return eina_future_as_value(efl_model_children_slice_get(filter, 0, child_number));
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}
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static Eina_Value
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_check_index(Eo *o EINA_UNUSED, void *data EINA_UNUSED, const Eina_Value v)
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{
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unsigned int i, len;
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Eo *target = NULL;
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EINA_VALUE_ARRAY_FOREACH(&v, len, i, target)
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{
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Eina_Value *p_original;
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uint64_t idx, original;
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idx = efl_composite_model_index_get(target);
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p_original = efl_model_property_get(target, "original");
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fail_if(!eina_value_uint64_convert(p_original, &original));
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ck_assert(original < (uint64_t)child_number);
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ck_assert(idx < (uint64_t)child_number);
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eina_value_free(p_original);
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}
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return v;
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}
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static void
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_cleanup(Eo *o EINA_UNUSED, void *data EINA_UNUSED, const Eina_Future *dead_future EINA_UNUSED)
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{
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ecore_main_loop_quit();
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}
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EFL_START_TEST(efl_test_filter_model)
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{
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Efl_Generic_Model *base_model, *child;
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int i;
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Eina_Value v = { 0 };
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Efl_Boolean_Model *model;
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Efl_Boolean_Model *filter;
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Eina_Future *future;
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eina_value_setup(&v, EINA_VALUE_TYPE_INT);
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base_model = efl_add_ref(EFL_GENERIC_MODEL_CLASS, efl_main_loop_get());
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ck_assert(!!base_model);
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for (i = 0; i < child_number; ++i)
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{
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child = efl_model_child_add(base_model);
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ck_assert(!!child);
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ck_assert(eina_value_set(&v, base_ints[i]));
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efl_model_property_set(child, "test_p_int", &v);
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efl_model_property_set(child, "original", eina_value_int_new(i));
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}
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model = efl_add_ref(EFL_BOOLEAN_MODEL_CLASS, efl_main_loop_get(),
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efl_ui_view_model_set(efl_added, base_model),
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efl_boolean_model_boolean_add(efl_added, "test_p_true", EINA_TRUE),
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efl_boolean_model_boolean_add(efl_added, "test_p_false", EINA_FALSE),
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efl_boolean_model_boolean_add(efl_added, "ready", EINA_FALSE));
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ck_assert(!!model);
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filter = efl_add_ref(EFL_FILTER_MODEL_CLASS, efl_main_loop_get(),
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efl_ui_view_model_set(efl_added, model),
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efl_filter_model_filter_set(efl_added, NULL, _filter_cb, NULL));
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ck_assert(!!filter);
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ck_assert_int_eq(efl_model_children_count_get(filter), 0);
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future = efl_model_children_slice_get(model, 0, efl_model_children_count_get(model));
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future = efl_future_then(model, future,
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.success = _fetch_and_switch);
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future = efl_future_then(filter, future,
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.success = _wait_count);
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future = efl_future_then(filter, future,
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.success = _count_and_fetch);
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future = efl_future_then(filter, future,
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.success = _check_index,
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.free = _cleanup);
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ecore_main_loop_begin();
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efl_unref(filter);
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efl_del(filter);
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}
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EFL_END_TEST
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void
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efl_test_case_boolean_model(TCase *tc)
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{
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tcase_add_test(tc, efl_test_boolean_model);
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tcase_add_test(tc, efl_test_select_model);
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tcase_add_test(tc, efl_test_filter_model);
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}
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