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Add Unit tests for viewport.cpp Physics 2D Picking

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This commit is contained in:
Markus Sauermann 2023-02-10 02:09:07 +01:00
parent 16a93563bf
commit 9014e9e424
2 changed files with 420 additions and 1 deletions
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407
tests/scene/test_viewport.h
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@ -31,10 +31,13 @@
#ifndef TEST_VIEWPORT_H
#define TEST_VIEWPORT_H
#include "scene/2d/node_2d.h"
#include "scene/2d/area_2d.h"
#include "scene/2d/collision_shape_2d.h"
#include "scene/gui/control.h"
#include "scene/gui/subviewport_container.h"
#include "scene/main/canvas_layer.h"
#include "scene/main/window.h"
#include "scene/resources/rectangle_shape_2d.h"
#include "tests/test_macros.h"
@ -756,6 +759,408 @@ TEST_CASE("[SceneTree][Viewport] Control mouse cursor shape") {
}
}
class TestArea2D : public Area2D {
GDCLASS(TestArea2D, Area2D);
void _on_mouse_entered() {
enter_id = ++TestArea2D::counter; // > 0, if activated.
}
void _on_mouse_exited() {
exit_id = ++TestArea2D::counter; // > 0, if activated.
}
void _on_input_event(Node *p_vp, Ref<InputEvent> p_ev, int p_shape) {
last_input_event = p_ev;
}
public:
static int counter;
int enter_id = 0;
int exit_id = 0;
Ref<InputEvent> last_input_event;
void init_signals() {
connect(SNAME("mouse_entered"), callable_mp(this, &TestArea2D::_on_mouse_entered));
connect(SNAME("mouse_exited"), callable_mp(this, &TestArea2D::_on_mouse_exited));
connect(SNAME("input_event"), callable_mp(this, &TestArea2D::_on_input_event));
}
void test_reset() {
enter_id = 0;
exit_id = 0;
last_input_event.unref();
}
};
int TestArea2D::counter = 0;
TEST_CASE("[SceneTree][Viewport] Physics Picking 2D") {
// FIXME: MOUSE_MODE_CAPTURED if-conditions are not testable, because DisplayServerMock doesn't support it.
struct PickingCollider {
TestArea2D *a;
CollisionShape2D *c;
Ref<RectangleShape2D> r;
};
SceneTree *tree = SceneTree::get_singleton();
Window *root = tree->get_root();
root->set_physics_object_picking(true);
Point2i on_background = Point2i(800, 800);
Point2i on_outside = Point2i(-1, -1);
SEND_GUI_MOUSE_MOTION_EVENT(on_background, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
Vector<PickingCollider> v;
for (int i = 0; i < 4; i++) {
PickingCollider pc;
pc.a = memnew(TestArea2D);
pc.c = memnew(CollisionShape2D);
pc.r = Ref<RectangleShape2D>(memnew(RectangleShape2D));
pc.r->set_size(Size2(150, 150));
pc.c->set_shape(pc.r);
pc.a->add_child(pc.c);
pc.a->set_name("A" + itos(i));
pc.c->set_name("C" + itos(i));
v.push_back(pc);
SIGNAL_WATCH(pc.a, SNAME("mouse_entered"));
SIGNAL_WATCH(pc.a, SNAME("mouse_exited"));
}
Node2D *node_a = memnew(Node2D);
node_a->set_position(Point2i(0, 0));
v[0].a->set_position(Point2i(0, 0));
v[1].a->set_position(Point2i(0, 100));
node_a->add_child(v[0].a);
node_a->add_child(v[1].a);
Node2D *node_b = memnew(Node2D);
node_b->set_position(Point2i(100, 0));
v[2].a->set_position(Point2i(0, 0));
v[3].a->set_position(Point2i(0, 100));
node_b->add_child(v[2].a);
node_b->add_child(v[3].a);
root->add_child(node_a);
root->add_child(node_b);
Point2i on_all = Point2i(50, 50);
Point2i on_0 = Point2i(10, 10);
Point2i on_01 = Point2i(10, 50);
Point2i on_02 = Point2i(50, 10);
Array empty_signal_args_2;
empty_signal_args_2.push_back(Array());
empty_signal_args_2.push_back(Array());
Array empty_signal_args_4;
empty_signal_args_4.push_back(Array());
empty_signal_args_4.push_back(Array());
empty_signal_args_4.push_back(Array());
empty_signal_args_4.push_back(Array());
for (PickingCollider E : v) {
E.a->init_signals();
}
SUBCASE("[Viewport][Picking2D] Mouse Motion") {
SEND_GUI_MOUSE_MOTION_EVENT(on_all, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
SIGNAL_CHECK(SNAME("mouse_entered"), empty_signal_args_4);
SIGNAL_CHECK_FALSE(SNAME("mouse_exited"));
for (PickingCollider E : v) {
CHECK(E.a->enter_id);
CHECK_FALSE(E.a->exit_id);
E.a->test_reset();
}
SEND_GUI_MOUSE_MOTION_EVENT(on_01, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
SIGNAL_CHECK_FALSE(SNAME("mouse_entered"));
SIGNAL_CHECK(SNAME("mouse_exited"), empty_signal_args_2);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
if (i < 2) {
CHECK_FALSE(v[i].a->exit_id);
} else {
CHECK(v[i].a->exit_id);
}
v[i].a->test_reset();
}
SEND_GUI_MOUSE_MOTION_EVENT(on_outside, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
SIGNAL_CHECK_FALSE(SNAME("mouse_entered"));
SIGNAL_CHECK(SNAME("mouse_exited"), empty_signal_args_2);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
if (i < 2) {
CHECK(v[i].a->exit_id);
} else {
CHECK_FALSE(v[i].a->exit_id);
}
v[i].a->test_reset();
}
}
SUBCASE("[Viewport][Picking2D] Object moved / passive hovering") {
SEND_GUI_MOUSE_MOTION_EVENT(on_all, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
CHECK(v[i].a->enter_id);
CHECK_FALSE(v[i].a->exit_id);
v[i].a->test_reset();
}
node_b->set_position(Point2i(200, 0));
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
if (i < 2) {
CHECK_FALSE(v[i].a->exit_id);
} else {
CHECK(v[i].a->exit_id);
}
v[i].a->test_reset();
}
node_b->set_position(Point2i(100, 0));
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
if (i < 2) {
CHECK_FALSE(v[i].a->enter_id);
} else {
CHECK(v[i].a->enter_id);
}
CHECK_FALSE(v[i].a->exit_id);
v[i].a->test_reset();
}
}
SUBCASE("[Viewport][Picking2D] No Processing") {
SEND_GUI_MOUSE_MOTION_EVENT(on_background, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (PickingCollider E : v) {
E.a->test_reset();
}
v[0].a->set_process_mode(Node::PROCESS_MODE_DISABLED);
v[0].c->set_process_mode(Node::PROCESS_MODE_DISABLED);
SEND_GUI_MOUSE_MOTION_EVENT(on_02, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
CHECK_FALSE(v[0].a->enter_id);
CHECK_FALSE(v[0].a->exit_id);
CHECK(v[2].a->enter_id);
CHECK_FALSE(v[2].a->exit_id);
for (PickingCollider E : v) {
E.a->test_reset();
}
SEND_GUI_MOUSE_MOTION_EVENT(on_background, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
CHECK_FALSE(v[0].a->enter_id);
CHECK_FALSE(v[0].a->exit_id);
CHECK_FALSE(v[2].a->enter_id);
CHECK(v[2].a->exit_id);
for (PickingCollider E : v) {
E.a->test_reset();
}
v[0].a->set_process_mode(Node::PROCESS_MODE_ALWAYS);
v[0].c->set_process_mode(Node::PROCESS_MODE_ALWAYS);
}
SUBCASE("[Viewport][Picking2D] Multiple events in series") {
SEND_GUI_MOUSE_MOTION_EVENT(on_0, MouseButtonMask::NONE, Key::NONE);
SEND_GUI_MOUSE_MOTION_EVENT(on_0 + Point2i(10, 0), MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
if (i < 1) {
CHECK(v[i].a->enter_id);
} else {
CHECK_FALSE(v[i].a->enter_id);
}
CHECK_FALSE(v[i].a->exit_id);
v[i].a->test_reset();
}
SEND_GUI_MOUSE_MOTION_EVENT(on_background, MouseButtonMask::NONE, Key::NONE);
SEND_GUI_MOUSE_MOTION_EVENT(on_background + Point2i(10, 10), MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
if (i < 1) {
CHECK(v[i].a->exit_id);
} else {
CHECK_FALSE(v[i].a->exit_id);
}
v[i].a->test_reset();
}
}
SUBCASE("[Viewport][Picking2D] Disable Picking") {
SEND_GUI_MOUSE_MOTION_EVENT(on_02, MouseButtonMask::NONE, Key::NONE);
root->set_physics_object_picking(false);
CHECK_FALSE(root->get_physics_object_picking());
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
v[i].a->test_reset();
}
root->set_physics_object_picking(true);
CHECK(root->get_physics_object_picking());
}
SUBCASE("[Viewport][Picking2D] CollisionObject in CanvasLayer") {
CanvasLayer *node_c = memnew(CanvasLayer);
node_c->set_rotation(Math_PI);
node_c->set_offset(Point2i(100, 100));
root->add_child(node_c);
v[2].a->reparent(node_c, false);
v[3].a->reparent(node_c, false);
SEND_GUI_MOUSE_MOTION_EVENT(on_02, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
if (i == 0 || i == 3) {
CHECK(v[i].a->enter_id);
} else {
CHECK_FALSE(v[i].a->enter_id);
}
v[i].a->test_reset();
}
v[2].a->reparent(node_b, false);
v[3].a->reparent(node_b, false);
root->remove_child(node_c);
memdelete(node_c);
}
SUBCASE("[Viewport][Picking2D] Picking Sort") {
root->set_physics_object_picking_sort(true);
CHECK(root->get_physics_object_picking_sort());
SUBCASE("[Viewport][Picking2D] Picking Sort Z-Index") {
node_a->set_z_index(10);
v[0].a->set_z_index(0);
v[1].a->set_z_index(2);
node_b->set_z_index(5);
v[2].a->set_z_index(8);
v[3].a->set_z_index(11);
v[3].a->set_z_as_relative(false);
TestArea2D::counter = 0;
SEND_GUI_MOUSE_MOTION_EVENT(on_all, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
CHECK(v[0].a->enter_id == 4);
CHECK(v[1].a->enter_id == 2);
CHECK(v[2].a->enter_id == 1);
CHECK(v[3].a->enter_id == 3);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->exit_id);
v[i].a->test_reset();
}
TestArea2D::counter = 0;
SEND_GUI_MOUSE_MOTION_EVENT(on_background, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
CHECK(v[0].a->exit_id == 4);
CHECK(v[1].a->exit_id == 2);
CHECK(v[2].a->exit_id == 1);
CHECK(v[3].a->exit_id == 3);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
v[i].a->set_z_as_relative(true);
v[i].a->set_z_index(0);
v[i].a->test_reset();
}
node_a->set_z_index(0);
node_b->set_z_index(0);
}
SUBCASE("[Viewport][Picking2D] Picking Sort Scene Tree Location") {
TestArea2D::counter = 0;
SEND_GUI_MOUSE_MOTION_EVENT(on_all, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
CHECK(v[i].a->enter_id == 4 - i);
CHECK_FALSE(v[i].a->exit_id);
v[i].a->test_reset();
}
TestArea2D::counter = 0;
SEND_GUI_MOUSE_MOTION_EVENT(on_background, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
CHECK(v[i].a->exit_id == 4 - i);
v[i].a->test_reset();
}
}
root->set_physics_object_picking_sort(false);
CHECK_FALSE(root->get_physics_object_picking_sort());
}
SUBCASE("[Viewport][Picking2D] Mouse Button") {
SEND_GUI_MOUSE_BUTTON_EVENT(on_0, MouseButton::LEFT, MouseButtonMask::LEFT, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
if (i == 0) {
CHECK(v[i].a->enter_id);
} else {
CHECK_FALSE(v[i].a->enter_id);
}
CHECK_FALSE(v[i].a->exit_id);
v[i].a->test_reset();
}
SEND_GUI_MOUSE_BUTTON_RELEASED_EVENT(on_0, MouseButton::LEFT, MouseButtonMask::NONE, Key::NONE);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
CHECK_FALSE(v[i].a->enter_id);
CHECK_FALSE(v[i].a->exit_id);
v[i].a->test_reset();
}
}
SUBCASE("[Viewport][Picking2D] Screen Touch") {
SEND_GUI_TOUCH_EVENT(on_01, true, false);
tree->physics_process(1);
for (int i = 0; i < v.size(); i++) {
if (i < 2) {
Ref<InputEventScreenTouch> st = v[i].a->last_input_event;
CHECK(st.is_valid());
} else {
CHECK(v[i].a->last_input_event.is_null());
}
v[i].a->test_reset();
}
}
for (PickingCollider E : v) {
SIGNAL_UNWATCH(E.a, SNAME("mouse_entered"));
SIGNAL_UNWATCH(E.a, SNAME("mouse_exited"));
memdelete(E.c);
memdelete(E.a);
}
}
TEST_CASE("[SceneTree][Viewport] Embedded Windows") {
Window *root = SceneTree::get_singleton()->get_root();
Window *w = memnew(Window);

14
tests/test_macros.h
View file

@ -177,6 +177,13 @@ int register_test_command(String p_command, TestFunc p_function);
_UPDATE_EVENT_MODIFERS(event, m_modifers); \
event->set_pressed(true);
#define _CREATE_GUI_TOUCH_EVENT(m_screen_pos, m_pressed, m_double) \
Ref<InputEventScreenTouch> event; \
event.instantiate(); \
event->set_position(m_screen_pos); \
event->set_pressed(m_pressed); \
event->set_double_tap(m_double);
#define SEND_GUI_MOUSE_BUTTON_EVENT(m_screen_pos, m_input, m_mask, m_modifers) \
{ \
_CREATE_GUI_MOUSE_EVENT(m_screen_pos, m_input, m_mask, m_modifers); \
@ -215,6 +222,13 @@ int register_test_command(String p_command, TestFunc p_function);
CoreGlobals::print_error_enabled = errors_enabled; \
}
#define SEND_GUI_TOUCH_EVENT(m_screen_pos, m_pressed, m_double) \
{ \
_CREATE_GUI_TOUCH_EVENT(m_screen_pos, m_pressed, m_double) \
_SEND_DISPLAYSERVER_EVENT(event); \
MessageQueue::get_singleton()->flush(); \
}
// Utility class / macros for testing signals
//
// Use SIGNAL_WATCH(*object, "signal_name") to start watching