/**************************************************************************/
/* test_object.h */
/**************************************************************************/
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/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
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#ifndef TEST_OBJECT_H
#define TEST_OBJECT_H
#include "core/object/class_db.h"
#include "core/object/object.h"
#include "core/object/script_language.h"
#include "tests/test_macros.h"
// Declared in global namespace because of GDCLASS macro warning (Windows):
// "Unqualified friend declaration referring to type outside of the nearest enclosing namespace
// is a Microsoft extension; add a nested name specifier".
class _TestDerivedObject : public Object {
GDCLASS(_TestDerivedObject, Object);
int property_value;
protected:
static void _bind_methods() {
ClassDB::bind_method(D_METHOD("set_property", "property"), &_TestDerivedObject::set_property);
ClassDB::bind_method(D_METHOD("get_property"), &_TestDerivedObject::get_property);
ADD_PROPERTY(PropertyInfo(Variant::INT, "property"), "set_property", "get_property");
}
public:
void set_property(int value) { property_value = value; }
int get_property() const { return property_value; }
};
namespace TestObject {
class _MockScriptInstance : public ScriptInstance {
StringName property_name = "NO_NAME";
Variant property_value;
public:
bool set(const StringName &p_name, const Variant &p_value) override {
property_name = p_name;
property_value = p_value;
return true;
}
bool get(const StringName &p_name, Variant &r_ret) const override {
if (property_name == p_name) {
r_ret = property_value;
return true;
}
return false;
}
void get_property_list(List<PropertyInfo> *p_properties) const override {
}
Variant::Type get_property_type(const StringName &p_name, bool *r_is_valid) const override {
return Variant::PACKED_FLOAT32_ARRAY;
}
virtual void validate_property(PropertyInfo &p_property) const override {
}
bool property_can_revert(const StringName &p_name) const override {
return false;
};
bool property_get_revert(const StringName &p_name, Variant &r_ret) const override {
return false;
};
void get_method_list(List<MethodInfo> *p_list) const override {
}
bool has_method(const StringName &p_method) const override {
return false;
}
int get_method_argument_count(const StringName &p_method, bool *r_is_valid = nullptr) const override {
if (r_is_valid) {
*r_is_valid = false;
}
return 0;
}
Variant callp(const StringName &p_method, const Variant **p_args, int p_argcount, Callable::CallError &r_error) override {
return Variant();
}
void notification(int p_notification, bool p_reversed = false) override {
}
Ref<Script> get_script() const override {
return Ref<Script>();
}
const Variant get_rpc_config() const override {
return Variant();
}
ScriptLanguage *get_language() override {
return nullptr;
}
};
TEST_CASE("[Object] Core getters") {
Object object;
CHECK_MESSAGE(
object.is_class("Object"),
"is_class() should return the expected value.");
CHECK_MESSAGE(
object.get_class() == "Object",
"The returned class should match the expected value.");
CHECK_MESSAGE(
object.get_class_name() == "Object",
"The returned class name should match the expected value.");
CHECK_MESSAGE(
object.get_class_static() == "Object",
"The returned static class should match the expected value.");
CHECK_MESSAGE(
object.get_save_class() == "Object",
"The returned save class should match the expected value.");
List<String> inheritance_list;
object.get_inheritance_list_static(&inheritance_list);
CHECK_MESSAGE(
inheritance_list.size() == 1,
"The inheritance list should consist of Object only");
CHECK_MESSAGE(
inheritance_list.front()->get() == "Object",
"The inheritance list should consist of Object only");
}
TEST_CASE("[Object] Metadata") {
const String meta_path = "complex_metadata_path";
Object object;
object.set_meta(meta_path, Color(0, 1, 0));
CHECK_MESSAGE(
Color(object.get_meta(meta_path)).is_equal_approx(Color(0, 1, 0)),
"The returned object metadata after setting should match the expected value.");
List<StringName> meta_list;
object.get_meta_list(&meta_list);
CHECK_MESSAGE(
meta_list.size() == 1,
"The metadata list should only contain 1 item after adding one metadata item.");
object.remove_meta(meta_path);
// Also try removing nonexistent metadata (it should do nothing, without printing an error message).
object.remove_meta("I don't exist");
ERR_PRINT_OFF;
CHECK_MESSAGE(
object.get_meta(meta_path) == Variant(),
"The returned object metadata after removing should match the expected value.");
ERR_PRINT_ON;
List<StringName> meta_list2;
object.get_meta_list(&meta_list2);
CHECK_MESSAGE(
meta_list2.size() == 0,
"The metadata list should contain 0 items after removing all metadata items.");
Object other;
object.set_meta("conflicting_meta", "string");
object.set_meta("not_conflicting_meta", 123);
other.set_meta("conflicting_meta", Color(0, 1, 0));
other.set_meta("other_meta", "other");
object.merge_meta_from(&other);
CHECK_MESSAGE(
Color(object.get_meta("conflicting_meta")).is_equal_approx(Color(0, 1, 0)),
"String meta should be overwritten with Color after merging.");
CHECK_MESSAGE(
int(object.get_meta("not_conflicting_meta")) == 123,
"Not conflicting meta on destination should be kept intact.");
CHECK_MESSAGE(
object.get_meta("other_meta", String()) == "other",
"Not conflicting meta name on source should merged.");
List<StringName> meta_list3;
object.get_meta_list(&meta_list3);
CHECK_MESSAGE(
meta_list3.size() == 3,
"The metadata list should contain 3 items after merging meta from two objects.");
}
TEST_CASE("[Object] Construction") {
Object object;
CHECK_MESSAGE(
!object.is_ref_counted(),
"Object is not a RefCounted.");
Object *p_db = ObjectDB::get_instance(object.get_instance_id());
CHECK_MESSAGE(
p_db == &object,
"The database pointer returned by the object id should reference same object.");
}
TEST_CASE("[Object] Script instance property setter") {
Object object;
_MockScriptInstance *script_instance = memnew(_MockScriptInstance);
object.set_script_instance(script_instance);
bool valid = false;
object.set("some_name", 100, &valid);
CHECK(valid);
Variant actual_value;
CHECK_MESSAGE(
script_instance->get("some_name", actual_value),
"The assigned script instance should successfully retrieve value by name.");
CHECK_MESSAGE(
actual_value == Variant(100),
"The returned value should equal the one which was set by the object.");
}
TEST_CASE("[Object] Script instance property getter") {
Object object;
_MockScriptInstance *script_instance = memnew(_MockScriptInstance);
script_instance->set("some_name", 100); // Make sure script instance has the property
object.set_script_instance(script_instance);
bool valid = false;
const Variant &actual_value = object.get("some_name", &valid);
CHECK(valid);
CHECK_MESSAGE(
actual_value == Variant(100),
"The returned value should equal the one which was set by the script instance.");
}
TEST_CASE("[Object] Built-in property setter") {
GDREGISTER_CLASS(_TestDerivedObject);
_TestDerivedObject derived_object;
bool valid = false;
derived_object.set("property", 100, &valid);
CHECK(valid);
CHECK_MESSAGE(
derived_object.get_property() == 100,
"The property value should equal the one which was set with built-in setter.");
}
TEST_CASE("[Object] Built-in property getter") {
GDREGISTER_CLASS(_TestDerivedObject);
_TestDerivedObject derived_object;
derived_object.set_property(100);
bool valid = false;
const Variant &actual_value = derived_object.get("property", &valid);
CHECK(valid);
CHECK_MESSAGE(
actual_value == Variant(100),
"The returned value should equal the one which was set with built-in setter.");
}
TEST_CASE("[Object] Script property setter") {
Object object;
Variant script;
bool valid = false;
object.set(CoreStringName(script), script, &valid);
CHECK(valid);
CHECK_MESSAGE(
object.get_script() == script,
"The object script should be equal to the assigned one.");
}
TEST_CASE("[Object] Script property getter") {
Object object;
Variant script;
object.set_script(script);
bool valid = false;
const Variant &actual_value = object.get(CoreStringName(script), &valid);
CHECK(valid);
CHECK_MESSAGE(
actual_value == script,
"The returned value should be equal to the assigned script.");
}
TEST_CASE("[Object] Absent name setter") {
Object object;
bool valid = true;
object.set("absent_name", 100, &valid);
CHECK(!valid);
}
TEST_CASE("[Object] Absent name getter") {
Object object;
bool valid = true;
const Variant &actual_value = object.get("absent_name", &valid);
CHECK(!valid);
CHECK_MESSAGE(
actual_value == Variant(),
"The returned value should equal nil variant.");
}
TEST_CASE("[Object] Signals") {
Object object;
CHECK_FALSE(object.has_signal("my_custom_signal"));
List<MethodInfo> signals_before;
object.get_signal_list(&signals_before);
object.add_user_signal(MethodInfo("my_custom_signal"));
CHECK(object.has_signal("my_custom_signal"));
List<MethodInfo> signals_after;
object.get_signal_list(&signals_after);
// Should be one more signal.
CHECK_EQ(signals_before.size() + 1, signals_after.size());
SUBCASE("Adding the same user signal again should not have any effect") {
CHECK(object.has_signal("my_custom_signal"));
ERR_PRINT_OFF;
object.add_user_signal(MethodInfo("my_custom_signal"));
ERR_PRINT_ON;
CHECK(object.has_signal("my_custom_signal"));
List<MethodInfo> signals_after_existing_added;
object.get_signal_list(&signals_after_existing_added);
CHECK_EQ(signals_after.size(), signals_after_existing_added.size());
}
SUBCASE("Trying to add a preexisting signal should not have any effect") {
CHECK(object.has_signal("script_changed"));
ERR_PRINT_OFF;
object.add_user_signal(MethodInfo("script_changed"));
ERR_PRINT_ON;
CHECK(object.has_signal("script_changed"));
List<MethodInfo> signals_after_existing_added;
object.get_signal_list(&signals_after_existing_added);
CHECK_EQ(signals_after.size(), signals_after_existing_added.size());
}
SUBCASE("Adding an empty signal should not have any effect") {
CHECK_FALSE(object.has_signal(""));
ERR_PRINT_OFF;
object.add_user_signal(MethodInfo(""));
ERR_PRINT_ON;
CHECK_FALSE(object.has_signal(""));
List<MethodInfo> signals_after_empty_added;
object.get_signal_list(&signals_after_empty_added);
CHECK_EQ(signals_after.size(), signals_after_empty_added.size());
}
SUBCASE("Deleting an object with connected signals should disconnect them") {
List<Object::Connection> signal_connections;
{
Object target;
target.add_user_signal(MethodInfo("my_custom_signal"));
ERR_PRINT_OFF;
target.connect("nonexistent_signal1", callable_mp(&object, &Object::notify_property_list_changed));
target.connect("my_custom_signal", callable_mp(&object, &Object::notify_property_list_changed));
target.connect("nonexistent_signal2", callable_mp(&object, &Object::notify_property_list_changed));
ERR_PRINT_ON;
signal_connections.clear();
object.get_all_signal_connections(&signal_connections);
CHECK(signal_connections.size() == 0);
signal_connections.clear();
object.get_signals_connected_to_this(&signal_connections);
CHECK(signal_connections.size() == 1);
ERR_PRINT_OFF;
object.connect("nonexistent_signal1", callable_mp(&target, &Object::notify_property_list_changed));
object.connect("my_custom_signal", callable_mp(&target, &Object::notify_property_list_changed));
object.connect("nonexistent_signal2", callable_mp(&target, &Object::notify_property_list_changed));
ERR_PRINT_ON;
signal_connections.clear();
object.get_all_signal_connections(&signal_connections);
CHECK(signal_connections.size() == 1);
signal_connections.clear();
object.get_signals_connected_to_this(&signal_connections);
CHECK(signal_connections.size() == 1);
}
signal_connections.clear();
object.get_all_signal_connections(&signal_connections);
CHECK(signal_connections.size() == 0);
signal_connections.clear();
object.get_signals_connected_to_this(&signal_connections);
CHECK(signal_connections.size() == 0);
}
SUBCASE("Emitting a non existing signal will return an error") {
Error err = object.emit_signal("some_signal");
CHECK(err == ERR_UNAVAILABLE);
}
SUBCASE("Emitting an existing signal should call the connected method") {
Array empty_signal_args;
empty_signal_args.push_back(Array());
SIGNAL_WATCH(&object, "my_custom_signal");
SIGNAL_CHECK_FALSE("my_custom_signal");
Error err = object.emit_signal("my_custom_signal");
CHECK(err == OK);
SIGNAL_CHECK("my_custom_signal", empty_signal_args);
SIGNAL_UNWATCH(&object, "my_custom_signal");
}
SUBCASE("Connecting and then disconnecting many signals should not leave anything behind") {
List<Object::Connection> signal_connections;
Object targets[100];
for (int i = 0; i < 10; i++) {
ERR_PRINT_OFF;
for (Object &target : targets) {
object.connect("my_custom_signal", callable_mp(&target, &Object::notify_property_list_changed));
}
ERR_PRINT_ON;
signal_connections.clear();
object.get_all_signal_connections(&signal_connections);
CHECK(signal_connections.size() == 100);
}
for (Object &target : targets) {
object.disconnect("my_custom_signal", callable_mp(&target, &Object::notify_property_list_changed));
}
signal_connections.clear();
object.get_all_signal_connections(&signal_connections);
CHECK(signal_connections.size() == 0);
}
}
class NotificationObject1 : public Object {
GDCLASS(NotificationObject1, Object);
protected:
void _notification(int p_what) {
switch (p_what) {
case 12345: {
order_internal1 = order_global++;
} break;
}
}
public:
static int order_global;
int order_internal1 = -1;
void reset_order() {
order_internal1 = -1;
order_global = 1;
}
};
int NotificationObject1::order_global = 1;
class NotificationObject2 : public NotificationObject1 {
GDCLASS(NotificationObject2, NotificationObject1);
protected:
void _notification(int p_what) {
switch (p_what) {
case 12345: {
order_internal2 = order_global++;
} break;
}
}
public:
int order_internal2 = -1;
void reset_order() {
NotificationObject1::reset_order();
order_internal2 = -1;
}
};
TEST_CASE("[Object] Notification order") { // GH-52325
NotificationObject2 *test_notification_object = memnew(NotificationObject2);
SUBCASE("regular order") {
test_notification_object->notification(12345, false);
CHECK_EQ(test_notification_object->order_internal1, 1);
CHECK_EQ(test_notification_object->order_internal2, 2);
test_notification_object->reset_order();
}
SUBCASE("reverse order") {
test_notification_object->notification(12345, true);
CHECK_EQ(test_notification_object->order_internal1, 2);
CHECK_EQ(test_notification_object->order_internal2, 1);
test_notification_object->reset_order();
}
memdelete(test_notification_object);
}
} // namespace TestObject
#endif // TEST_OBJECT_H
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