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qt5base-lts/tests/manual/wasm/qwasmwindow/qwasmwindow.py
Mikolaj Boc d846ea423d Add a manual test for wasm window resizing/moving 
This tests resizing and moving in various setups. The test driver
communicates with the actual modules to assert various
postconditions.

It's semi-automated so that minimum interaction is required.

Change-Id: I745d689c6ffa6aa6d478b795dd433f5b067241f1
Reviewed-by: Lorn Potter <lorn.potter@gmail.com>
2023-02-14 17:48:09 +01:00

257 lines
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Python
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# Copyright (C) 2022 The Qt Company Ltd.
# SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
from selenium.webdriver import Chrome
from selenium.webdriver.common.by import By
from selenium.webdriver.support.expected_conditions import presence_of_element_located
from selenium.webdriver.support.ui import WebDriverWait
from selenium.webdriver.common.action_chains import ActionChains
import unittest
class WidgetTestCase(unittest.TestCase):
def setUp(self):
self._driver = Chrome()
self._driver.get(
'http://localhost:8001/qwasmwindow_harness.html')
self._test_sandbox_element = WebDriverWait(self._driver, 30).until(
presence_of_element_located((By.ID, 'test-sandbox'))
)
def _make_geometry(self, x, y, width, height):
return { 'x': x, 'y': y, 'width': width, 'height': height }
def test_window_resizing(self):
screen = self._create_screen_with_fixed_position(0, 0, 600, 600)
screen_information = self._screen_information()
self.assertEqual(len(screen_information), 1)
screen_information = screen_information[-1]
window = self._create_window(100, 100, 200, 200, screen, screen_information["name"], 'title')
window_information = self._window_information()[0]
self.assertEqual(window_information["geometry"], self._make_geometry(100, 100, 200, 200))
self._drag_window(window, window_information, [0, 0], [-10, -10])
window_information = self._window_information()[0]
self.assertEqual(window_information["geometry"], self._make_geometry(90, 90, 210, 210))
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'] / 2, 0], [-100, 10])
window_information = self._window_information()[0]
self.assertEqual(window_information["geometry"], self._make_geometry(90, 100, 210, 200))
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'], 0], [-5, -5])
window_information = self._window_information()[0]
self.assertEqual(window_information["geometry"], self._make_geometry(90, 95, 205, 205))
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'],
window_information['frameGeometry']['height'] / 2], [5, 100])
window_information = self._window_information()[0]
self.assertEqual(window_information["geometry"], self._make_geometry(90, 95, 210, 205))
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'],
window_information['frameGeometry']['height']], [-10, -5])
window_information = self._window_information()[0]
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(90, 95, 200, 200))
self._drag_window(window, window_information, [
window_information['frameGeometry']['width'] / 2,
window_information['frameGeometry']['height']], [-100, 20])
window_information = self._window_information()[0]
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(90, 95, 200, 220))
self._drag_window(window, window_information, [
0, window_information['frameGeometry']['height']], [-10, 10])
window_information = self._window_information()[0]
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(80, 95, 210, 230))
self._drag_window(window, window_information, [
0, window_information['frameGeometry']['height'] / 2], [-5, 343])
window_information = self._window_information()[0]
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(75, 95, 215, 230))
def test_cannot_resize_over_screen_top_edge(self):
screen = self._create_screen_with_fixed_position(200, 200, 300, 300)
screen_information = self._screen_information()[-1]
window = self._create_window(
300, 300, 100, 100, screen, screen_information['name'], 'title')
window_information = self._window_information()[0]
frame_geometry_before_resize = window_information["frameGeometry"]
self.assertEqual(window_information["geometry"], self._make_geometry(300, 300, 100, 100))
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'] / 2, 0], [0, -200])
geometry = self._window_information()[0]["geometry"]
frame_geometry = self._window_information()[0]["frameGeometry"]
self.assertEqual(geometry['x'], 300)
self.assertEqual(frame_geometry['y'], screen_information['geometry']['y'])
self.assertEqual(geometry['width'], 100)
self.assertEqual(frame_geometry['y'] + frame_geometry['height'],
frame_geometry_before_resize['y'] + frame_geometry_before_resize['height'])
def test_window_move(self):
screen = self._create_screen_with_fixed_position(200, 200, 300, 300)
screen_information = self._screen_information()[-1]
window = self._create_window(
300, 300, 100, 100, screen, screen_information['name'], 'title')
self.assertEqual(
self._window_information()[0]["geometry"], self._make_geometry(300, 300, 100, 100))
window_information = self._window_information()[0]
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'] / 2, 6], [0, -30])
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(300, 270, 100, 100))
window_information = self._window_information()[0]
window_frame_top = window_information['frameGeometry']['y']
window_client_area_top = window_information['geometry']['y']
top_frame_height = window_client_area_top - window_frame_top + 1
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'] / 2,
top_frame_height], [0, -30])
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(300, 270, 100, 100))
def test_screen_limits_window_moves(self):
screen = self._create_screen_with_relative_position(200, 200, 300, 300)
screen_information = self._screen_information()[-1]
window = self._create_window(
300, 300, 100, 100, screen, screen_information['name'], 'title')
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(300, 300, 100, 100))
window_information = self._window_information()[0]
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'] / 2, 6], [-300, 0])
self.assertEqual(
self._window_information()[0]["frameGeometry"]['x'],
screen_information['geometry']['x'] - window_information['frameGeometry']['width'] / 2)
def test_screen_in_scroll_container_limits_window_moves(self):
_, screen = self._create_screen_in_scroll_container(500, 7000, 200, 2000, 300, 300)
screen_information = self._screen_information()[-1]
ActionChains(self._driver).scroll_to_element(screen).perform()
window = self._create_window(
300, 2100, 100, 100, screen, screen_information['name'], 'title')
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(300, 2100, 100, 100))
window_information = self._window_information()[0]
self._drag_window(window, window_information,
[window_information['frameGeometry']['width'] / 2, 6], [-300, 0])
self.assertEqual(
self._window_information()[0]["frameGeometry"]['x'],
screen_information['geometry']['x'] - window_information['frameGeometry']['width'] / 2)
def test_maximize(self):
screen = self._create_screen_with_relative_position(200, 200, 300, 300)
screen_information = self._screen_information()[-1]
window = self._create_window(
300, 300, 100, 100, screen, screen_information['name'], 'Maximize')
self.assertEqual(self._window_information()[0]["geometry"],
self._make_geometry(300, 300, 100, 100))
maximize_button = window.find_element(
By.CSS_SELECTOR, f'.title-bar :nth-child(6)')
maximize_button.click()
self.assertEqual(
self._window_information()[0]["frameGeometry"],
self._make_geometry(200, 200, 300, 300))
def tearDown(self):
self._driver.quit()
def _drag_window(self, window_element, window_information, origin, offset):
ActionChains(self._driver).move_to_element(
window_element).move_by_offset(
-window_information['frameGeometry']['width'] / 2 + origin[0],
-window_information['frameGeometry']['height'] / 2 + origin[1]).click_and_hold(
).move_by_offset(*offset).release().perform()
def _call_instance_function(self, name):
return self._driver.execute_script(
f'''let result;
window.{name}Callback = data => result = data;
instance.{name}();
return eval(result);''')
def _window_information(self):
return self._call_instance_function('windowInformation')
def _screen_information(self):
return self._call_instance_function('screenInformation')
def _get_resize_location(self, screen, window_info, which):
frame_geometry = window_info['frameGeometry']
frame_x_in_screen = frame_geometry['x'] - screen['geometry']['x']
frame_y_in_screen = frame_geometry['y'] - screen['geometry']['y']
return [frame_x_in_screen, frame_y_in_screen]
def _get_title_bar(self, window):
return window.find_element(
By.CSS_SELECTOR, f'.window-name')
def _create_screen_with_fixed_position(self, x, y, w, h):
return self._driver.execute_script(
f'''
return testSupport.initializeScreenWithFixedPosition({x}, {y}, {w}, {h});
'''
)
def _create_screen_with_relative_position(self, x, y, w, h):
return self._driver.execute_script(
f'''
return testSupport.initializeScreenWithRelativePosition({x}, {y}, {w}, {h});
'''
)
def _create_screen_in_scroll_container(self, containerW, containerH, x, y, w, h):
return self._driver.execute_script(
f'''
return testSupport.initializeScreenInScrollContainer(
{containerW}, {containerH}, {x}, {y}, {w}, {h});
'''
)
def _create_window(self, x, y, w, h, screen, screen_id, title):
self._driver.execute_script(
f'''
instance.createWindow({x}, {y}, {w}, {h}, '{screen_id}', '{title}');
'''
)
window_id = self._window_information()[-1]["id"]
return screen.shadow_root.find_element(By.CSS_SELECTOR, f'#qt-window-{window_id}')
unittest.main()
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