def test_wait_exists(self):
Element(self.w, ID, "timing-exists-button").click()
new_label = Element(self.w, ID, "new-label")
# test that when the element still hasn't appeared until_exists returns False
self.assertFalse(new_label.wait_until_exists(2))
# test that when the element finally appears until_exists returns True
self.assertTrue(new_label.wait_until_exists(2))
# test that when the element still hasn't dissappeared until_not_exists returns False
self.assertFalse(new_label.wait_until_not_exists(2))
# test that when the element finally dissappears until_not_exists returns True
self.assertTrue(new_label.wait_until_not_exists(2))
def setUpClass(self):
self.d = webdriver.Firefox()
self.w = WebApp(self.d, GUINEA_PIG)
self.gp2s = Element(self.w, ID, "gp2s", "gp2s_label") \
.set_link(GP2(self.w))
self.gp2n = Element(self.w, ID, "gp2n", "gp2n_label") \
.set_link(GP2(self.w))
self.gp3s = Element(self.w, ID, "gp3s", "gp3s_label") \
.set_link(GP3(self.w))
self.gp3n = Element(self.w, ID, "gp3n") \
.set_link(GP3(self.w), "key")
def test_links(self):
mock_container_a = Mock()
mock_container_a.__class__ = Container
e = Element(self.w, ID, "nadda", "nadda") \
.set_link(mock_container_a)
self.assertTrue(mock_container_a is e.link)
mock_container_b = Mock()
mock_container_b.__class__ = Container
e.set_link(mock_container_b)
self.assertTrue(mock_container_b is e.link)
e.set_link(mock_container_a, "a")
self.assertTrue(mock_container_a is e.links["a"])
self.assertTrue(mock_container_b is e.link)
with self.assertRaises(KeyError):
e.links["b"]
def setUp(self):
self.root_div_id = Element(self.w, ID, "root")
self.root_div_xpath = Element(self.w, XPATH, "//div[contains(@class, 'root-class')]")
self.text_input_id = Element(self.w, ID, "text-input")
self.button_input_id = Element(self.w, ID, "button-input")
self.change_label_id = Element(self.w, ID, "change-label")
self.label_xpath_a = Element(self.w, XPATH, "//label[@class='label-class']")
self.label_xpath_b = Element(self.w, XPATH, "//label[contains(@class, 'label-class')]")
self.label_xpath_c = Element(self.w, XPATH, "//*[@class='label-class' and not(starts-with(@id, 'bob'))]")
self.label_relative_xpath = Element(self.w, XPATH, "/label[@class='label-class']")
self.checkbox_input_1 = Element(self.w, ID, "checkbox-input-1")
self.checkbox_input_2 = Element(self.w, ID, "checkbox-input-2")
self.hidden_label_id = Element(self.w, ID, "hidden-label")
self.non_existent_id = Element(self.w, ID, "non-existent")
self.bad_xpath = Element(self.w, XPATH, "//input[type='button']")
def test_wait_displayed(self):
Element(self.w, ID, "timing-displayed-button").click()
hidden_label = Element(self.w, ID, "hidden-label")
# test that when the element still hasn't appeared until_displayed returns False
self.assertFalse(hidden_label.wait_until_displayed(2))
# test that when the element finally appears until_displayed returns True
self.assertTrue(hidden_label.wait_until_displayed(2))
# test that when the element still hasn't dissappeared until_not_displayed returns False
self.assertFalse(hidden_label.wait_until_not_displayed(2))
# test that when the element finally dissappears until_not_displayed returns True
self.assertTrue(hidden_label.wait_until_not_displayed(2))
# also test wait_displayed when element isn't in DOM
Element(self.w, ID, "timing-exists-button").click()
new_label = Element(self.w, ID, "new-label")
# test that when the element still hasn't appeared until_exists returns False
with self.assertRaises(NoSuchElementException):
new_label.wait_until_displayed(2)
# test that when the element finally appears until_exists returns True
self.assertTrue(new_label.wait_until_displayed(2))
# test that when the element still hasn't dissappeared until_not_exists returns False
self.assertFalse(new_label.wait_until_not_displayed(2))
# test that when the element finally dissappears until_not_exists returns True
with self.assertRaises(NoSuchElementException):
new_label.wait_until_not_displayed(2)
class Tests(unittest.TestCase):
@classmethod
def setUpClass(self):
self.d = webdriver.Firefox()
self.w = WebApp(self.d, GUINEA_PIG)
self.w.go_to()
def setUp(self):
self.root_div_id = Element(self.w, ID, "root")
self.root_div_xpath = Element(self.w, XPATH, "//div[contains(@class, 'root-class')]")
self.text_input_id = Element(self.w, ID, "text-input")
self.button_input_id = Element(self.w, ID, "button-input")
self.change_label_id = Element(self.w, ID, "change-label")
self.label_xpath_a = Element(self.w, XPATH, "//label[@class='label-class']")
self.label_xpath_b = Element(self.w, XPATH, "//label[contains(@class, 'label-class')]")
self.label_xpath_c = Element(self.w, XPATH, "//*[@class='label-class' and not(starts-with(@id, 'bob'))]")
self.label_relative_xpath = Element(self.w, XPATH, "/label[@class='label-class']")
self.checkbox_input_1 = Element(self.w, ID, "checkbox-input-1")
self.checkbox_input_2 = Element(self.w, ID, "checkbox-input-2")
self.hidden_label_id = Element(self.w, ID, "hidden-label")
self.non_existent_id = Element(self.w, ID, "non-existent")
self.bad_xpath = Element(self.w, XPATH, "//input[type='button']")
@classmethod
def tearDownClass(self):
self.d.quit()
def test_base_lookup(self):
self.assertTrue(self.root_div_id.exists())
self.assertTrue(self.root_div_xpath.exists())
self.assertTrue(self.text_input_id.exists())
self.assertTrue(self.label_xpath_a.exists())
self.assertTrue(self.label_xpath_b.exists())
self.assertTrue(self.label_xpath_c.exists())
self.assertFalse(self.label_relative_xpath.exists())
self.assertFalse(self.non_existent_id.exists())
self.assertFalse(self.bad_xpath.exists())
def test_parent_lookup(self):
self.text_input_id.set_parent(self.root_div_id)
self.assertTrue(self.text_input_id.exists())
self.text_input_id.set_parent(self.root_div_xpath)
self.assertTrue(self.text_input_id.exists())
self.label_xpath_a.set_parent(self.root_div_id)
self.assertTrue(self.label_xpath_a.exists())
self.label_xpath_a.set_parent(self.root_div_xpath)
self.assertTrue(self.label_xpath_a.exists())
self.label_xpath_b.set_parent(self.root_div_id)
self.assertTrue(self.label_xpath_b.exists())
self.label_xpath_b.set_parent(self.root_div_xpath)
self.assertTrue(self.label_xpath_b.exists())
self.label_xpath_c.set_parent(self.root_div_id)
self.assertTrue(self.label_xpath_c.exists())
self.label_xpath_c.set_parent(self.root_div_xpath)
self.assertTrue(self.label_xpath_c.exists())
self.label_relative_xpath.set_parent(self.root_div_id)
self.assertTrue(self.label_relative_xpath.exists())
self.label_relative_xpath.set_parent(self.root_div_xpath)
self.assertTrue(self.label_relative_xpath.exists())
self.non_existent_id.set_parent(self.root_div_id)
self.assertFalse(self.non_existent_id.exists())
self.non_existent_id.set_parent(self.root_div_xpath)
self.assertFalse(self.non_existent_id.exists())
self.bad_xpath.set_parent(self.root_div_id)
self.assertFalse(self.bad_xpath.exists())
self.bad_xpath.set_parent(self.root_div_xpath)
self.assertFalse(self.bad_xpath.exists())
def test_gets(self):
# get_value
self.assertEquals("button", self.button_input_id.get_value())
# get_text
self.assertEquals("Test Label", self.label_xpath_a.get_text())
# get_attribute
self.assertEquals("checkbox", self.checkbox_input_1.get_attribute("type"))
# get_css_value
self.assertEquals("1", self.text_input_id.get_css_value("z-index"))
# get_tag_name
self.assertEquals("label", self.label_xpath_a.get_tag_name())
# get_identifier
self.assertEquals("text-input", self.text_input_id.get_identifier())
# get_location
self.assertEquals({"x": 1, "y": 50}, self.text_input_id.get_location())
# get_size
self.assertEquals({"width": 150, "height": 25}, self.text_input_id.get_size())
def test_states(self):
# is_enabled
self.assertTrue(self.checkbox_input_1.is_enabled())
self.assertFalse(self.checkbox_input_2.is_enabled())
# is_selected
self.assertFalse(self.checkbox_input_1.is_selected())
self.assertTrue(self.checkbox_input_2.is_selected())
# is_displayed
self.assertTrue(self.label_xpath_a.is_displayed())
self.assertFalse(self.hidden_label_id.is_displayed())
with self.assertRaises(NoSuchElementException):
self.label_relative_xpath.is_displayed()
with self.assertRaises(NoSuchElementException):
self.non_existent_id.is_displayed()
def test_ignoring_states(self):
self.assertTrue(self.label_xpath_a.is_displayed(ignore=True))
self.assertFalse(self.hidden_label_id.is_displayed(ignore=True))
# now that we ignore, NoSuchElementException should not be thrown
self.assertFalse(self.label_relative_xpath.is_displayed(ignore=True))
self.assertFalse(self.non_existent_id.is_displayed(ignore=True))
def test_controls(self):
# click
self.assertEquals("0", self.change_label_id.get_text())
self.button_input_id.click()
self.assertEquals("1", self.change_label_id.get_text())
self.button_input_id.click()
self.assertEquals("2", self.change_label_id.get_text())
# send_keys
self.text_input_id.send_keys("test text")
self.assertEquals("test text", self.text_input_id.get_value())
self.text_input_id.send_keys(u"你好吗?")
self.assertEquals(u"test text你好吗?", self.text_input_id.get_value())
self.text_input_id.send_keys(Keys.BACK_SPACE)
self.text_input_id.send_keys(Keys.BACK_SPACE)
self.text_input_id.send_keys(Keys.ARROW_LEFT)
self.text_input_id.send_keys(Keys.BACK_SPACE)
self.assertEquals(u"test text好", self.text_input_id.get_value())
# clear
self.text_input_id.clear()
self.assertEquals("", self.text_input_id.get_value())
def test_wait_exists(self):
Element(self.w, ID, "timing-exists-button").click()
new_label = Element(self.w, ID, "new-label")
# test that when the element still hasn't appeared until_exists returns False
self.assertFalse(new_label.wait_until_exists(2))
# test that when the element finally appears until_exists returns True
self.assertTrue(new_label.wait_until_exists(2))
# test that when the element still hasn't dissappeared until_not_exists returns False
self.assertFalse(new_label.wait_until_not_exists(2))
# test that when the element finally dissappears until_not_exists returns True
self.assertTrue(new_label.wait_until_not_exists(2))
def test_wait_displayed(self):
Element(self.w, ID, "timing-displayed-button").click()
hidden_label = Element(self.w, ID, "hidden-label")
# test that when the element still hasn't appeared until_displayed returns False
self.assertFalse(hidden_label.wait_until_displayed(2))
# test that when the element finally appears until_displayed returns True
self.assertTrue(hidden_label.wait_until_displayed(2))
# test that when the element still hasn't dissappeared until_not_displayed returns False
self.assertFalse(hidden_label.wait_until_not_displayed(2))
# test that when the element finally dissappears until_not_displayed returns True
self.assertTrue(hidden_label.wait_until_not_displayed(2))
# also test wait_displayed when element isn't in DOM
Element(self.w, ID, "timing-exists-button").click()
new_label = Element(self.w, ID, "new-label")
# test that when the element still hasn't appeared until_exists returns False
with self.assertRaises(NoSuchElementException):
new_label.wait_until_displayed(2)
# test that when the element finally appears until_exists returns True
self.assertTrue(new_label.wait_until_displayed(2))
# test that when the element still hasn't dissappeared until_not_exists returns False
self.assertFalse(new_label.wait_until_not_displayed(2))
# test that when the element finally dissappears until_not_exists returns True
with self.assertRaises(NoSuchElementException):
new_label.wait_until_not_displayed(2)
def test_links(self):
mock_container_a = Mock()
mock_container_a.__class__ = Container
e = Element(self.w, ID, "nadda", "nadda") \
.set_link(mock_container_a)
self.assertTrue(mock_container_a is e.link)
mock_container_b = Mock()
mock_container_b.__class__ = Container
e.set_link(mock_container_b)
self.assertTrue(mock_container_b is e.link)
e.set_link(mock_container_a, "a")
self.assertTrue(mock_container_a is e.links["a"])
self.assertTrue(mock_container_b is e.link)
with self.assertRaises(KeyError):
e.links["b"]
class Tests(unittest.TestCase):
@classmethod
def setUpClass(self):
self.d = webdriver.Firefox()
self.w = WebApp(self.d, GUINEA_PIG)
self.gp2s = Element(self.w, ID, "gp2s", "gp2s_label") \
.set_link(GP2(self.w))
self.gp2n = Element(self.w, ID, "gp2n", "gp2n_label") \
.set_link(GP2(self.w))
self.gp3s = Element(self.w, ID, "gp3s", "gp3s_label") \
.set_link(GP3(self.w))
self.gp3n = Element(self.w, ID, "gp3n") \
.set_link(GP3(self.w), "key")
@classmethod
def tearDownClass(self):
self.d.quit()
def setUp(self):
self.w.go_to()
# every go_to should wipe any extra windows
self.assertTrue(1, len(self.w.get_windows()))
def test_go_to_link_key_error(self):
with self.assertRaises(KeyError):
self.gp2s.go_to_link("no_keys")
with self.assertRaises(KeyError):
self.gp3n.go_to_link("incorrect_key")
with self.assertRaises(KeyError):
self.gp2s.go_to_link("Key")
def test_go_to_link(self):
# open gp2 in the same window
for e in self.gp2s.go_to_link().get_elements(required=True):
# make sure you land at gp2
self.assertTrue(e.is_displayed())
# there should be one windows
self.assertEquals(1, len(self.w.get_windows()))
# we shouldn't see the link which brought us here
self.assertFalse(self.gp2s.exists())
# go back
self.w.driver.back()
# open gp3 in a new window
for e in self.gp3n.go_to_link("key").get_elements(required=True):
# make sure you land at gp3
self.assertTrue(e.is_displayed())
# there should be two windows
self.assertEquals(2, len(self.w.get_windows()))
# we shouldn't see the link which brought us here
self.assertFalse(self.gp2s.exists())
def test_window_labels(self):
### opening no new window should leave the get_windows unaltered
handles = self.w.get_windows()
self.gp2s.go_to_link()
self.assertEquals(handles, self.w.get_windows())
### opening a new window from a labelled element should use the label
self.w.driver.back()
self.gp2n.go_to_link()
self.assertNotEqual(handles, self.w.get_windows())
# get_windows should still contain the previous key
self.assertTrue(handles[0] in self.w.get_windows())
# get_windows should also contain a key equal of the element's label which brought it there
self.assertTrue(self.gp2n.label in self.w.get_windows())
### opening a new window from an unlabelled element should use the next_window_key
handles = self.w.get_windows()
self.w.use_window(MAIN_WINDOW)
next_key = self.w.next_window_key()
self.gp3n.go_to_link("key")
self.assertNotEqual(handles, self.w.get_windows())
# get_windows should still contain the previous keys
self.assertTrue(handles[0] in self.w.get_windows())
self.assertTrue(handles[1] in self.w.get_windows())
# get_windows should also contain a key equal which is next_window_key
self.assertTrue(next_key in self.w.get_windows())
### opening a pre-existing label/key should not alter the get_windows()
handles = self.w.get_windows()
self.w.use_window(MAIN_WINDOW)
self.gp2s.go_to_link()
self.assertEquals(handles, self.w.get_windows())
def test_switching_windows(self):
self.gp2n.go_to_link()
self.w.use_window(MAIN_WINDOW)
n_k_1 = self.w.next_window_key()
self.gp3n.go_to_link("key") # should be next key 1
self.assertTrue(n_k_1 in self.w.get_windows())
self.w.use_window(MAIN_WINDOW)
n_k_2 = self.w.next_window_key()
self.gp3n.go_to_link("key") # should be next key 2
self.assertTrue(n_k_1 in self.w.get_windows())
self.assertTrue(n_k_2 in self.w.get_windows())
self.assertEquals(4, len(self.w.get_windows()))
for k in self.w.get_windows():
self.w.use_window(k)
if k == MAIN_WINDOW:
self.assertTrue(self.gp2s.exists())
self.assertFalse(self.gp2n.link.get_elements(required=True)[0].exists())
self.assertFalse(self.gp3n.links["key"].get_elements(required=True)[0].exists())
elif k == self.gp2n.label:
self.assertFalse(self.gp2s.exists())
self.assertTrue(self.gp2n.link.get_elements(required=True)[0].exists())
self.assertFalse(self.gp3n.links["key"].get_elements(required=True)[0].exists())
else:
self.assertFalse(self.gp2s.exists())
self.assertFalse(self.gp2n.link.get_elements(required=True)[0].exists())
self.assertTrue(self.gp3n.links["key"].get_elements(required=True)[0].exists())
def test_dead_windows(self):
self.gp2n.go_to_link()
self.w.use_window(MAIN_WINDOW)
self.gp2n.go_to_link()
self.assertEquals(2, len(self.w.get_windows()))
self.assertEquals(3, len(self.w.driver.window_handles))
self.w.go_to()
self.assertEquals(1, len(self.w.get_windows()))
self.assertEquals(1, len(self.w.driver.window_handles))
self.assertTrue(MAIN_WINDOW in self.w.get_windows())
