qt6windows7/tests/manual/wasm/qwasmwindow/qwasmwindow.py

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2023-11-02 05:23:55 +08:00
# 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.actions.action_builder import ActionBuilder
from selenium.webdriver.common.actions.pointer_actions import PointerActions
from selenium.webdriver.common.actions.interaction import POINTER_TOUCH
from selenium.webdriver.common.actions.pointer_input import PointerInput
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
from enum import Enum, auto
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'))
)
self.addTypeEqualityFunc(Rect, assert_rects_equal)
def test_window_resizing(self):
defaultWindowMinSize = 100
screen = Screen(self._driver, ScreenPosition.FIXED,
x=0, y=0, width=600, height=600)
window = Window(screen, x=100, y=100, width=200, height=200)
self.assertEqual(window.rect, Rect(x=100, y=100, width=200, height=200))
window.drag(Handle.TOP_LEFT, direction=UP(10) + LEFT(10))
self.assertEqual(window.rect, Rect(x=90, y=90, width=210, height=210))
window.drag(Handle.TOP, direction=DOWN(10) + LEFT(100))
self.assertEqual(window.rect, Rect(x=90, y=100, width=210, height=200))
window.drag(Handle.TOP_RIGHT, direction=UP(5) + LEFT(5))
self.assertEqual(window.rect, Rect(x=90, y=95, width=205, height=205))
window.drag(Handle.RIGHT, direction=DOWN(100) + RIGHT(5))
self.assertEqual(window.rect, Rect(x=90, y=95, width=210, height=205))
window.drag(Handle.BOTTOM_RIGHT, direction=UP(5) + LEFT(10))
self.assertEqual(window.rect, Rect(x=90, y=95, width=200, height=200))
window.drag(Handle.BOTTOM, direction=DOWN(20) + LEFT(100))
self.assertEqual(window.rect, Rect(x=90, y=95, width=200, height=220))
window.drag(Handle.BOTTOM_LEFT, direction=DOWN(10) + LEFT(10))
self.assertEqual(window.rect, Rect(x=80, y=95, width=210, height=230))
window.drag(Handle.LEFT, direction=DOWN(343) + LEFT(5))
self.assertEqual(window.rect, Rect(x=75, y=95, width=215, height=230))
window.drag(Handle.BOTTOM_RIGHT, direction=UP(150) + LEFT(150))
self.assertEqual(window.rect, Rect(x=75, y=95, width=defaultWindowMinSize, height=defaultWindowMinSize))
def test_cannot_resize_over_screen_top_edge(self):
screen = Screen(self._driver, ScreenPosition.FIXED,
x=200, y=200, width=300, height=300)
window = Window(screen, x=300, y=300, width=100, height=100)
self.assertEqual(window.rect, Rect(x=300, y=300, width=100, height=100))
frame_rect_before_resize = window.frame_rect
window.drag(Handle.TOP, direction=UP(200))
self.assertEqual(window.rect.x, 300)
self.assertEqual(window.frame_rect.y, screen.rect.y)
self.assertEqual(window.rect.width, 100)
self.assertEqual(window.frame_rect.y + window.frame_rect.height,
frame_rect_before_resize.y + frame_rect_before_resize.height)
def test_window_move(self):
screen = Screen(self._driver, ScreenPosition.FIXED,
x=200, y=200, width=300, height=300)
window = Window(screen, x=300, y=300, width=100, height=100)
self.assertEqual(window.rect, Rect(x=300, y=300, width=100, height=100))
window.drag(Handle.TOP_WINDOW_BAR, direction=UP(30))
self.assertEqual(window.rect, Rect(x=300, y=270, width=100, height=100))
window.drag(Handle.TOP_WINDOW_BAR, direction=RIGHT(50))
self.assertEqual(window.rect, Rect(x=350, y=270, width=100, height=100))
window.drag(Handle.TOP_WINDOW_BAR, direction=DOWN(30) + LEFT(70))
self.assertEqual(window.rect, Rect(x=280, y=300, width=100, height=100))
def test_screen_limits_window_moves(self):
screen = Screen(self._driver, ScreenPosition.RELATIVE,
x=200, y=200, width=300, height=300)
window = Window(screen, x=300, y=300, width=100, height=100)
self.assertEqual(window.rect, Rect(x=300, y=300, width=100, height=100))
window.drag(Handle.TOP_WINDOW_BAR, direction=LEFT(300))
self.assertEqual(window.frame_rect.x, screen.rect.x - window.frame_rect.width / 2)
def test_screen_in_scroll_container_limits_window_moves(self):
screen = Screen(self._driver, ScreenPosition.IN_SCROLL_CONTAINER,
x=200, y=2000, width=300, height=300,
container_width=500, container_height=7000)
screen.scroll_to()
window = Window(screen, x=300, y=2100, width=100, height=100)
self.assertEqual(window.rect, Rect(x=300, y=2100, width=100, height=100))
window.drag(Handle.TOP_WINDOW_BAR, direction=LEFT(300))
self.assertEqual(window.frame_rect.x, screen.rect.x - window.frame_rect.width / 2)
def test_maximize(self):
screen = Screen(self._driver, ScreenPosition.RELATIVE,
x=200, y=200, width=300, height=300)
window = Window(screen, x=300, y=300, width=100, height=100, title='Maximize')
self.assertEqual(window.rect, Rect(x=300, y=300, width=100, height=100))
window.maximize()
self.assertEqual(window.frame_rect, Rect(x=200, y=200, width=300, height=300))
def test_multitouch_window_move(self):
screen = Screen(self._driver, ScreenPosition.FIXED,
x=0, y=0, width=800, height=800)
windows = [Window(screen, x=50, y=50, width=100, height=100, title='First'),
Window(screen, x=400, y=400, width=100, height=100, title='Second'),
Window(screen, x=50, y=400, width=100, height=100, title='Third')]
self.assertEqual(windows[0].rect, Rect(x=50, y=50, width=100, height=100))
self.assertEqual(windows[1].rect, Rect(x=400, y=400, width=100, height=100))
self.assertEqual(windows[2].rect, Rect(x=50, y=400, width=100, height=100))
actions = [TouchDragAction(origin=windows[0].at(Handle.TOP_WINDOW_BAR), direction=DOWN(20) + RIGHT(20)),
TouchDragAction(origin=windows[1].at(Handle.TOP_WINDOW_BAR), direction=DOWN(20) + LEFT(20)),
TouchDragAction(origin=windows[2].at(Handle.TOP_WINDOW_BAR), direction=UP(20) + RIGHT(20))]
perform_touch_drag_actions(actions)
self.assertEqual(windows[0].rect, Rect(x=70, y=70, width=100, height=100))
self.assertEqual(windows[1].rect, Rect(x=380, y=420, width=100, height=100))
self.assertEqual(windows[2].rect, Rect(x=70, y=380, width=100, height=100))
def test_multitouch_window_resize(self):
screen = Screen(self._driver, ScreenPosition.FIXED,
x=0, y=0, width=800, height=800)
windows = [Window(screen, x=50, y=50, width=150, height=150, title='First'),
Window(screen, x=400, y=400, width=150, height=150, title='Second'),
Window(screen, x=50, y=400, width=150, height=150, title='Third')]
self.assertEqual(windows[0].rect, Rect(x=50, y=50, width=150, height=150))
self.assertEqual(windows[1].rect, Rect(x=400, y=400, width=150, height=150))
self.assertEqual(windows[2].rect, Rect(x=50, y=400, width=150, height=150))
actions = [TouchDragAction(origin=windows[0].at(Handle.TOP_LEFT), direction=DOWN(20) + RIGHT(20)),
TouchDragAction(origin=windows[1].at(Handle.TOP), direction=DOWN(20) + LEFT(20)),
TouchDragAction(origin=windows[2].at(Handle.BOTTOM_RIGHT), direction=UP(20) + RIGHT(20))]
perform_touch_drag_actions(actions)
self.assertEqual(windows[0].rect, Rect(x=70, y=70, width=130, height=130))
self.assertEqual(windows[1].rect, Rect(x=400, y=420, width=150, height=130))
self.assertEqual(windows[2].rect, Rect(x=50, y=400, width=170, height=130))
def tearDown(self):
self._driver.quit()
class ScreenPosition(Enum):
FIXED = auto()
RELATIVE = auto()
IN_SCROLL_CONTAINER = auto()
class Screen:
def __init__(self, driver, positioning, x, y, width, height, container_width=0, container_height=0):
self.driver = driver
self.x = x
self.y = y
self.width = width
self.height = height
if positioning == ScreenPosition.FIXED:
command = f'initializeScreenWithFixedPosition({self.x}, {self.y}, {self.width}, {self.height})'
elif positioning == ScreenPosition.RELATIVE:
command = f'initializeScreenWithRelativePosition({self.x}, {self.y}, {self.width}, {self.height})'
elif positioning == ScreenPosition.IN_SCROLL_CONTAINER:
command = f'initializeScreenInScrollContainer({container_width}, {container_height}, {self.x}, {self.y}, {self.width}, {self.height})'
self.element = self.driver.execute_script(
f'''
return testSupport.{command};
'''
)
if positioning == ScreenPosition.IN_SCROLL_CONTAINER:
self.element = self.element[1]
screen_information = call_instance_function(
self.driver, 'screenInformation')
if len(screen_information) != 1:
raise AssertionError('Expecting exactly one screen_information!')
self.screen_info = screen_information[0]
@property
def rect(self):
self.screen_info = call_instance_function(
self.driver, 'screenInformation')[0]
geo = self.screen_info['geometry']
return Rect(geo['x'], geo['y'], geo['width'], geo['height'])
def scroll_to(self):
ActionChains(self.driver).scroll_to_element(self.element).perform()
class Window:
def __init__(self, screen, x, y, width, height, title='title'):
self.driver = screen.driver
self.title = title
self.driver.execute_script(
f'''
instance.createWindow({x}, {y}, {width}, {height}, '{screen.screen_info["name"]}', '{title}');
'''
)
self._window_id = self.__window_information()['id']
self.element = screen.element.shadow_root.find_element(
By.CSS_SELECTOR, f'#qt-window-{self._window_id}')
def __window_information(self):
information = call_instance_function(self.driver, 'windowInformation')
return next(filter(lambda e: e['title'] == self.title, information))
@property
def rect(self):
geo = self.__window_information()["geometry"]
return Rect(geo['x'], geo['y'], geo['width'], geo['height'])
@property
def frame_rect(self):
geo = self.__window_information()["frameGeometry"]
return Rect(geo['x'], geo['y'], geo['width'], geo['height'])
def drag(self, handle, direction):
ActionChains(self.driver) \
.move_to_element_with_offset(self.element, *self.at(handle)['offset']) \
.click_and_hold() \
.move_by_offset(*translate_direction_to_offset(direction)) \
.release().perform()
def maximize(self):
maximize_button = self.element.find_element(
By.CSS_SELECTOR, f'.title-bar :nth-child(6)')
maximize_button.click()
def at(self, handle):
""" Returns (window, offset) for given handle on window"""
width = self.frame_rect.width
height = self.frame_rect.height
if handle == Handle.TOP_LEFT:
offset = (-width/2, -height/2)
elif handle == Handle.TOP:
offset = (0, -height/2)
elif handle == Handle.TOP_RIGHT:
offset = (width/2, -height/2)
elif handle == Handle.LEFT:
offset = (-width/2, 0)
elif handle == Handle.RIGHT:
offset = (width/2, 0)
elif handle == Handle.BOTTOM_LEFT:
offset = (-width/2, height/2)
elif handle == Handle.BOTTOM:
offset = (0, height/2)
elif handle == Handle.BOTTOM_RIGHT:
offset = (width/2, height/2)
elif handle == Handle.TOP_WINDOW_BAR:
frame_top = self.frame_rect.y
client_area_top = self.rect.y
top_frame_bar_width = client_area_top - frame_top
offset = (0, -height/2 + top_frame_bar_width/2)
return {'window': self, 'offset': offset}
class TouchDragAction:
def __init__(self, origin, direction):
self.origin = origin
self.direction = direction
self.step = 2
def perform_touch_drag_actions(actions):
driver = actions[0].origin['window'].driver
touch_action_builder = ActionBuilder(driver)
pointers = [PointerActions(source=touch_action_builder.add_pointer_input(
POINTER_TOUCH, f'touch_input_{i}')) for i in range(len(actions))]
for action, pointer in zip(actions, pointers):
pointer.move_to(
action.origin['window'].element, *action.origin['offset'])
pointer.pointer_down(width=10, height=10, pressure=1)
moves = [translate_direction_to_offset(a.direction) for a in actions]
def movement_finished():
for move in moves:
if move != (0, 0):
return False
return True
def sign(num):
if num > 0:
return 1
elif num < 0:
return -1
return 0
while not movement_finished():
for i in range(len(actions)):
pointer = pointers[i]
move = moves[i]
step = actions[i].step
current_move = (
min(abs(move[0]), step) * sign(move[0]), min(abs(move[1]), step) * sign(move[1]))
moves[i] = (move[0] - current_move[0], move[1] - current_move[1])
pointer.move_by(current_move[0],
current_move[1], width=10, height=10)
for pointer in pointers:
pointer.pointer_up()
touch_action_builder.perform()
class TouchDragAction:
def __init__(self, origin, direction):
self.origin = origin
self.direction = direction
self.step = 2
def perform_touch_drag_actions(actions):
driver = actions[0].origin['window'].driver
touch_action_builder = ActionBuilder(driver)
pointers = [PointerActions(source=touch_action_builder.add_pointer_input(
POINTER_TOUCH, f'touch_input_{i}')) for i in range(len(actions))]
for action, pointer in zip(actions, pointers):
pointer.move_to(
action.origin['window'].element, *action.origin['offset'])
pointer.pointer_down(width=10, height=10, pressure=1)
moves = [translate_direction_to_offset(a.direction) for a in actions]
def movement_finished():
for move in moves:
if move != (0, 0):
return False
return True
def sign(num):
if num > 0:
return 1
elif num < 0:
return -1
return 0
while not movement_finished():
for i in range(len(actions)):
pointer = pointers[i]
move = moves[i]
step = actions[i].step
current_move = (
min(abs(move[0]), step) * sign(move[0]), min(abs(move[1]), step) * sign(move[1]))
moves[i] = (move[0] - current_move[0], move[1] - current_move[1])
pointer.move_by(current_move[0],
current_move[1], width=10, height=10)
for pointer in pointers:
pointer.pointer_up()
touch_action_builder.perform()
def translate_direction_to_offset(direction):
return (direction.val[1] - direction.val[3], direction.val[2] - direction.val[0])
def call_instance_function(driver, name):
return driver.execute_script(
f'''let result;
window.{name}Callback = data => result = data;
instance.{name}();
return eval(result);''')
class Direction:
def __init__(self):
self.val = (0, 0, 0, 0)
def __init__(self, north, east, south, west):
self.val = (north, east, south, west)
def __add__(self, other):
return Direction(self.val[0] + other.val[0],
self.val[1] + other.val[1],
self.val[2] + other.val[2],
self.val[3] + other.val[3])
class UP(Direction):
def __init__(self, step=1):
self.val = (step, 0, 0, 0)
class RIGHT(Direction):
def __init__(self, step=1):
self.val = (0, step, 0, 0)
class DOWN(Direction):
def __init__(self, step=1):
self.val = (0, 0, step, 0)
class LEFT(Direction):
def __init__(self, step=1):
self.val = (0, 0, 0, step)
class Handle(Enum):
TOP_LEFT = auto()
TOP = auto()
TOP_RIGHT = auto()
LEFT = auto()
RIGHT = auto()
BOTTOM_LEFT = auto()
BOTTOM = auto()
BOTTOM_RIGHT = auto()
TOP_WINDOW_BAR = auto()
class Rect:
def __init__(self, x, y, width, height) -> None:
self.x = x
self.y = y
self.width = width
self.height = height
def __str__(self):
return f'(x: {self.x}, y: {self.y}, width: {self.width}, height: {self.height})'
def assert_rects_equal(geo1, geo2, msg=None):
if geo1.x != geo2.x or geo1.y != geo2.y or geo1.width != geo2.width or geo1.height != geo2.height:
raise AssertionError(f'Rectangles not equal: \n{geo1} \nvs \n{geo2}')
unittest.main()