Esempio n. 1
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    def setup_class(cls):

        dr = Driver()

        cls.driver = dr.init_driver(device_name)

        cls.GDL = gdl.Get_device_log()
    def setUp(self) -> None:

        with allure.step("Instantiate Driver"):
            self.driver = Driver()

        with allure.step("Set desired capabilities"):
            self.driver.set_capability("platformName",
                                       self.args["platformName"])

            self.driver.set_capability("deviceName", self.args["deviceName"])

            self.driver.set_capability("automationName",
                                       self.args["automationName"])

            self.driver.set_capability("browserName", "Chrome")

            self.driver.set_capability(
                'chromedriverExecutable',
                'C:\\Users\\superadmin\\Documents\\GitHub\\'
                'TEST_AUTOMATION_FRAMEWORK_USING_APPIUM_WITH_PYTHON\\'
                'drivers\\chromedriver\\v2_44\\chromedriver.exe')

            # Set Implicit Wait Timeout - the amount of time
            # the driver should wait when searching for element
            self.driver.driver_instance.implicitly_wait(5000)

        # NOTE: In addCleanup, the first in, is executed last.
        with allure.step("Add clean up methods"):
            self.addCleanup(self.driver.driver_instance.quit)
            self.addCleanup(self.snap_shot)

        with allure.step("Get driver/page instance"):
            self.driver.driver_instance.implicitly_wait(3)
            self.driver = self.driver.driver_instance
Esempio n. 3
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File: ib.py Progetto: zwocram/TFS
 def __init__(self):
     self.logger = logging.getLogger(__name__ + ".wrapper")
     self.driver = Driver()
     self._my_contract_details = {}
     self._my_market_data_dict = {}
     self._my_open_orders = queue.Queue()
     self._my_executions_stream = queue.Queue()
     self._my_commission_stream = queue.Queue()
Esempio n. 4
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 def save_cookie(self):
     driver = Driver()
     driver.login()
     cookie = driver.get_cookie()
     with open(COOKIE_PATH, 'w', encoding='utf-8') as f:
         f.write(str(cookie))
         f.close()
     return cookie
Esempio n. 5
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 def __init__(self, init_speed=10):
     self.cam = Cam()
     self.ultrasonic = UltraSonic()
     self.driver = Driver()
     self.driver.SetSpeed(init_speed)
     self.servo_s = Servo(23)
     self.moved_distance = 0
     self.micro_move_cnt = 0
Esempio n. 6
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class Car():
    def __init__(self, init_speed=10):
        self.cam = Cam()
        self.ultrasonic = UltraSonic()
        self.driver = Driver()
        self.driver.SetSpeed(init_speed)
        self.servo_s = Servo(23)
        self.moved_distance = 0
        self.micro_move_cnt = 0

    def StartToGo(self):
        self.driver.GoForward()

    def ComingOutFromJam(self):
        self.driver.DoShortFastBackward()
        if (random.randint(-2, 1) > 0):
            self.driver.DoSpinRight90Turn()
        else:
            self.driver.DoSpinLeft90Turn()

    def GoToCorrectDirection(self):
        ori_speed = self.driver.GetSpeed()
        self.driver.SetSpeed(ori_speed / 3)
        if self.GetNextDirection():
            self.driver.DoSpinRight90Turn()
        else:
            self.driver.DoSpinLeft90Turn()
        self.driver.SetSpeed(ori_speed)

    def GetNextDirection(self):
        self.servo_s.TurnToLeft()
        l_distance = self.ultrasonic.GetDistance()
        self.servo_s.TurnToRight()
        r_distance = self.ultrasonic.GetDistance()
        self.servo_s.TurnToCenter()
        time.sleep(0.1)
        return r_distance > l_distance

    def RandomStep(self, blocked_distance=50):
        self.StartToGo()
        last_distance = self.ultrasonic.last_distance
        distance = self.ultrasonic.GetDistance()
        print("*******************cur_distance is %.5s     " % distance,
              end="")
        if distance < blocked_distance:
            print("################# wall")
            self.GoToCorrectDirection()
            self.micro_move_cnt = 0
        else:
            print("................  go")
            self.StartToGo()
            time.sleep(0.1)
            if abs(last_distance - distance) < 1:
                self.micro_move_cnt = self.micro_move_cnt + 1
            else:
                self.micro_move_cnt = 0
        if self.micro_move_cnt > 5:
            self.ComingOutFromJam()
Esempio n. 7
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def elements(xpath_selection):
    """
    Return list of elements that match xpath selection

    Args:
        selection (str): xpath selection string

    Returns:
        WebElement
    """
    driver = Driver().connect()
    return driver.find_elements_by_xpath(xpath_selection)
Esempio n. 8
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def driver(request):
    browser = request.config.getoption('--browser')
    desired_capabilities = capabilities_for_browser_name(browser)

    test_name = f'{request.node.location[0]}::{request.node.location[2].replace(".", "::")}'
    desired_capabilities['name'] = test_name
    desired_capabilities['enableVNC'] = True

    remote_driver = Driver(command_executor=settings.REMOTE_URL,
                           desired_capabilities=desired_capabilities)
    remote_driver.set_window_size(1920, 1080)

    yield remote_driver
Esempio n. 9
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class Installer(RPCServer):
    def __init__(self, addr, port):
        RPCServer.__init__(self, addr, port)
        self._app = App()
        self._driver = Driver()

    def install(self, uid, package, version, typ, content):
        if typ == APP:
            return self._app.install(uid, package, version, content)
        elif typ == DRIVER:
            return self._driver.install(uid, package, version)
        else:
            show_error(self,
                       'failed to install, invalid type, typ=%s' % str(typ))

    def uninstall(self, uid, package, typ):
        if typ == APP:
            return self._app.uninstall(uid, package)
        else:
            show_error(self,
                       'failed to uninstall, invalid type, typ=%s' % str(typ))

    def get_packages(self, uid, typ):
        if typ == APP:
            return self._app.get_packages(uid)

    def has_package(self, uid, package, typ):
        if typ == APP:
            return self._app.has_package(uid, package)

    def start(self):
        t = Thread(target=self.run)
        t.start()
        t.join()
def open_web_browser(config: Config, page_model, page_content):
    """
	Take care of following procedure:
		1. Instantiate Selenium webdriver
		2. Instantiate Page Model Object
		3. Checks HTTP status code
		4. Open web browser > open test web page
		5. Refresh web browser in case test web site is not loaded
		6. Returns page instance (Page Model Object)
	:param config:
	:param page_model:
	:param page_content:
	:return:
	"""

    # Open web page
    with allure.step("Open following web page: {}.".format(page_content.URL)):

        driver = Driver(config=config, is_debug=True)

        print('\nbase_url: {}\n'.format(config.base_url))

        page = page_model(config=config,
                          driver=driver,
                          implicit_wait_time=1,
                          explicit_wait_time=10)

        page.go()
        get_http_status_code(page.url)
        refresh_page(page_content.TITLE, page)
        return page
Esempio n. 11
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def run_singlethread():
    dl_client = Client(g_dl_server_addr)
    pc_client = Client(g_pc_server_addr)

    with Driver(signal_period=0, camera_resolution=(320, 240)) as driver_h:
        for state in driver_h:
            speed = config.BASE_SPEED
            angle = 45
            ## car stat
            if state.power is None:  # connect car failed
                logging.info("[RUN] car stat is None...")
                continue

            ## request DLServer
            pc_client.send(state.image_str)

            response = dl_client.send(state.image_str)
            if response is None:  # connect DLServer failed
                logging.info("[RUN] dl_client rpc failed...")
                continue

            ## drive
            if state.sonar <= 20:
                speed = 0
            angle = response.angle

            driver_h.drive(angle=angle, speed=5)
Esempio n. 12
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def main():
    image_list = get_file_path_list(image_dir, ["png", "jpg", "jpeg"])
    message_tmp = read_txt(messge_path)
    values = read_excel(customer_info_path, sheet_index=0, start_row=1, cols=2)
    names = values[0]
    mails = values[1]
    fail_list = list()
    url = "https://web.whatsapp.com/"
    wait_locator = (By.ID, "side")
    with Driver(url,
                executable_path=chromedriver_path,
                options=options,
                wait_locator=wait_locator) as driver:
        wap = WhatsAppPlug(driver)
        for i, mail in enumerate(mails):
            try:
                message = message_tmp.format(name=names[i].title())
                messages = message.strip().split('\n')
                wap.search_customer(mail.strip())
                wap.send_message(messages, image_list)
            except Exception as e:
                LOG.error(e)
                fail_list.append((names[i], mail))
        if fail_list:
            LOG.error("fail_list: %s " % fail_list)
            write_exist_excel(customer_info_path,
                              fail_list,
                              sheet_index=1,
                              start_row=0)
        time.sleep(60 * 3)
Esempio n. 13
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 def test_success_auth(self, login, password, lang_btn_loc):
     Driver().get_url_with_basic_auth(LoginPage.BASE_URL)
     lang_btn_loc().click()
     LoginPage.login_input().wait_for_displayed().fill(login)
     LoginPage.password_input().fill(password)
     LoginPage.submit_btn().click()
     PaymentPage.status_selector().wait_for_displayed().assert_displayed()
     active_status = PaymentPage.gold_item().text
     with allure.step("Проверяем что активен статус Gold"):
         assert_that(active_status, contains_string('GOLD\n$1000 +100%'))
    def setUp(self) -> None:

        with allure.step("Set up driver object"):
            self._driver = Driver()

            # Add desired capabilities:

            for key in self.args:
                if self.args[key] is not None:
                    print("key: {}, value: {}".format(key, self.args[key]))
                    self._driver.set_capability(key, self.args[key])

            self._driver.set_capability('chromedriverExecutable',
                                        'C:\\Users\\superadmin\\Documents\\GitHub\\'
                                        'TEST_AUTOMATION_FRAMEWORK_USING_APPIUM_WITH_PYTHON\\'
                                        'drivers\\chromedriver\\v2_44\\chromedriver.exe')

            '''
            self._driver.set_capability("platformName",
                                        "android_native")

            self._driver.set_capability("deviceName",
                                        "Android Tablet")

            self._driver.set_capability("automationName",
                                        "Appium")

            self._driver.set_capability("appPackage",
                                        "com.android_native.calculator2")

            self._driver.set_capability("appActivity",
                                        "com.android_native.calculator2.Calculator")
            '''

        with allure.step("Set up Page Model object"):
            self._driver.driver_instance.implicitly_wait(3)
            self.app = CalculatorPageModel(self._driver.driver_instance)

        # NOTE: In addCleanup, the first in, is executed last.
        with allure.step("Set up Cleanup methods"):
            self.addCleanup(self._driver.driver_instance.quit)
            self.addCleanup(self.snap_shot)
Esempio n. 15
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class Login(object):
    def __init__(self):
        self.driver = Driver().connect()

    def log_in(self):
        logger.info('Logging in.')
        # first open div containing fields for logging in
        self.driver.find_element_by_id('btn-login').click()

        logserver_select = Select(
            self.driver.find_element_by_id(conf.logserver_field_id))
        username_input = self.driver.find_element_by_id(conf.username_field_id)
        password_input = self.driver.find_element_by_id(conf.password_field_id)
        submit_button = self.driver.find_element_by_id(conf.login_button_id)

        logserver_select.select_by_visible_text(credentials.server)
        username_input.send_keys(credentials.username)
        password_input.send_keys(credentials.password)

        submit_button.click()
        return self.wait_until_logged()

    def wait_until_logged(self):
        try:
            WebDriverWait(self.driver, 10).until(
                EC.presence_of_element_located(
                    (By.XPATH, conf.logged_in_check_element)))
            return True
        except:
            print("[ERROR] Timeout occurred while waiting for log in.")
            self.driver.save_screenshot('logging-in-err.png')
            return False

    @staticmethod
    def is_logged():
        username_selector = '#GF_toolbar > ul > li.avatarName'
        if is_element_present(username_selector, 'css'):
            return element_text(username_selector,
                                'css') == credentials.username
        else:
            return False

    def ensure_logged(self):
        if not self.is_logged():
            self.driver.get(conf.site_url)
            self.log_in()
Esempio n. 16
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def get_selector_method(sel_type):
    driver = Driver().connect()
    selector = None

    if sel_type == 'id':
        selector = driver.find_element_by_id
    elif sel_type == 'xpath':
        selector = driver.find_element_by_xpath
    elif sel_type == 'text':
        selector = driver.find_element_by_visible_text
    elif sel_type == 'css':
        selector = driver.find_element_by_css_selector
    return selector
Esempio n. 17
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        def _driver_tag(gene_name, driver, suffix=None):
            if driver is None or driver.mutation_effect == 'unknown':
                return gene_name

            # number of supporting sources
            if Driver.MaxSourceSupport > 0:
                r, g, b, _ = Driver.colors()[len(driver.sources)]
            else:
                r, g, b = (0.8, 0.2, 0.2)
            c = 'color:#{0:02x}{1:02x}{2:02x};'.format(_clamp(r*255), _clamp(g*255), _clamp(b*255))
            tag = '<font style="{}">{}{}</font>'.format(c, gene_name, '' if suffix is None else suffix)
            if driver.cgc_driver:   # is driver in CGC list
                tag = '<strong>'+tag+'</strong>'

            return tag
Esempio n. 18
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 def wait_for_displayed(self, wait_time=5, poll_frequency=0.3):
     with allure.step(
             f'Ожидаем что элемент {self.allure_name} появится в DOM дереве в течении {wait_time} секунд'
     ):
         try:
             WebDriverWait(
                 Driver(), timeout=wait_time,
                 poll_frequency=poll_frequency).until(
                     expected_conditions.presence_of_element_located(
                         (self.by, self.value)))
         except TimeoutException:
             raise NoSuchElementException(
                 f'Элемент {self.allure_name} не появился в DOM дереве за {wait_time} секунд'
             )
         return self()
Esempio n. 19
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def is_element_present(selection, sel_type='id'):
    driver = Driver().connect()
    driver.implicitly_wait(0)
    exists = True
    try:
        element(selection, sel_type)
    except NoSuchElementException:
        exists = False
    finally:
        driver.implicitly_wait(10)
    return exists
Esempio n. 20
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 def test_forgot_password(self, lang_btn_loc, popup_text, btn_text):
     Driver().get_url_with_basic_auth(LoginPage.BASE_URL)
     lang_btn_loc().click()
     LoginPage.forgot_pass_btn().click()
     LoginPage.forgot_pass_input().wait_for_displayed().fill('test@test')
     LoginPage.forgot_pass_send_btn().click()
     LoginPage.FailAuthPopUp.notification_popup().wait_for_displayed()
     '''
     Логически правильно было бы вынести это в отдельные тесты на локализацию, 
     но т.к. посути это эмуляция отправки пароля я использовал это и тут
     '''
     popup_existed_text = LoginPage.FailAuthPopUp.notification_popup_text().text
     popup_existed_btn = LoginPage.FailAuthPopUp.notification_popup_btn().text
     with allure.step("Проверяем что текст попапа совпадает с ожидаемым"):
         assert_that(popup_existed_text, equal_to(popup_text))
     with allure.step("Проверяем что текст на кнопке попапа совпадает с ожидаемым"):
         assert_that(popup_existed_btn, equal_to(btn_text))
Esempio n. 21
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def run_multithread():
    join_timeout_s = 3  # thread join timeout
    ## for exit
    signal.signal(signal.SIGINT, stop_worker)
    signal.signal(signal.SIGTERM, stop_worker)

    with Driver(signal_period=0, camera_resolution=(320, 240)) as driver_h:
        dl_client = Client(g_dl_server_addr)
        pc_client = Client(g_pc_server_addr)
        state_q = Queue.Queue()  # for car state info
        # worker
        car_state_worker = CarStateWorker(driver_h, state_q)
        car_ctl_worker = CarCtlWorker(driver_h, state_q, dl_client, pc_client)

        car_state_worker.start()
        car_ctl_worker.start()

        while True:  # just for signal to exit
            car_state_worker.join(join_timeout_s)
            car_ctl_worker.join(join_timeout_s)
            if not (car_ctl_worker.isAlive() or car_state_worker.isAlive()):
                break
Esempio n. 22
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class TestGoogleSearch(unittest.TestCase):
    browser = Driver()
    driver = None

    @classmethod
    def setUpClass(cls):
        cls.browser.start_driver()
        cls.driver = cls.browser.driver

    @classmethod
    def tearDownClass(cls):
        cls.browser.quit_driver()

    def test_search_action(self):
        data = Yaml(
            "/usr/src/selenium/src/python/useUnittest/data/testGoogleSearch.yml"
        ).read()

        I_AGREE_BUTTON = data["elements"]["buttons"]["i_agree_button"]
        SEARCH_INPUT = data["elements"]["inputs"]["search_input"]
        SEARCH_TERM = data["text"]["search_term"]

        # accept t&c
        self.current_selection = self.driver.find_element(
            By.XPATH,
            I_AGREE_BUTTON,
        ).click()

        # make a simple search
        self.current_selection = self.driver.find_element(
            By.XPATH,
            SEARCH_INPUT,
        ).send_keys(SEARCH_TERM + Keys.ENTER)

        # perform test
        title_arr = self.driver.title.split("-")
        self.assertEqual(title_arr[0].strip(), SEARCH_TERM)

        time.sleep(10)
Esempio n. 23
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    def screen_swipe(self, tag=1):
        """
        滑动方法
        :param tag: 1:↑ 2: ↓ 3: ← 4: →
        :return:
        """
        driver = Driver.get_app_driver()
        # 分辨率
        size = driver.get_window_size()
        # 宽
        width = size.get("width")
        # 高
        height = size.get("height")

        # 等待
        time.sleep(1.5)

        if tag == 1:
            # 宽*50%,高*80% -> 宽*50%,高*20%
            logging.info("向上滑动")
            driver.swipe(width * 0.5, height * 0.8, width * 0.5, height * 0.2,
                         1500)
        if tag == 2:
            logging.info("向下滑动")
            # 宽*50%,高*20% -> 宽*50%,高*80%
            driver.swipe(width * 0.5, height * 0.2, width * 0.5, height * 0.8,
                         1500)
        if tag == 3:
            logging.info("向左滑动")
            # 宽*80%,高*50% -> 宽*20%,高*50%
            driver.swipe(width * 0.8, height * 0.5, width * 0.2, height * 0.5,
                         1500)
        if tag == 4:
            logging.info("向右滑动")
            # 宽*20%,高*50% -> 宽*80%,高*50%
            driver.swipe(width * 0.2, height * 0.5, width * 0.8, height * 0.5,
                         1500)
Esempio n. 24
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 def teardown_class(self):
     Driver.quit_app_driver()
Esempio n. 25
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 def __call__(self, wait_time=10) -> 'Locator':
     self.driver = Driver()
     self.element = (self.parent_element
                     or self.driver).get_element(self, wait_time=wait_time)
     return self
Esempio n. 26
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from utils.driver import Driver
from utils.neuron import Neuron
from utils.detector import Detector
from utils.player import Player

import numpy as np
from scipy import signal
import matplotlib.pyplot as plt
import time
import keyboard
from brian2 import NeuronGroup, ms

# initialise classes
det = Detector("hand")
plr = Player()
drv = Driver()
time.sleep(0.1)
drv.lowerTurn()

## Comment to remove plottingqq
fig, ax = plt.subplots()
ax.set_ylim([-0.08, 0.07])
line1, = ax.plot(np.linspace(0, 10000, 10000), np.zeros(10000), 'r-')
line2, = ax.plot(np.linspace(0, 10000, 10000), np.zeros(10000), 'b-')
line3, = ax.plot(np.linspace(0, 10000, 10000), np.zeros(10000), 'g-')
plt.show(block=False)
fig.canvas.draw()
## /Comment to remove plotting

# Izhikevitch Neuron Model from http://brian2.readthedocs.io/en/stable/introduction/brian1_to_2/library.html
eqs = '''dv/dt = (0.04*active/ms/mV + 0.04/ms/mV)*v**2+(5/ms)*v+130*mV/ms-w + I : volt (unless refractory)
Esempio n. 27
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from scipy import signal
import matplotlib.pyplot as plt
import time
import keyboard
from brian2 import NeuronGroup, ms

## Comment to remove plotting
fig, ax = plt.subplots()
ax.set_ylim([-0.08, 0.07])
line1, = ax.plot(np.linspace(0, 10000, 10000), np.zeros(10000), 'r-')
line2, = ax.plot(np.linspace(0, 10000, 10000), np.zeros(10000), 'b-')
plt.show(block=False)
fig.canvas.draw()
## /Comment to remove plotting

drv = Driver()

eqs_1 = '''dv/dt = (0.04*active/ms/mV + 0.04/ms/mV)*v**2+(5/ms)*v+130*mV/ms-w + I : volt (unless refractory)
         dw/dt = (0.02/ms)*((0.2/ms)*v-w) : volt/second
         active : 1
         I : volt/second'''

eqs_2 = '''dv/dt = (0.04*active/ms/mV + 0.04/ms/mV)*v**2+(5/ms)*v+140*mV/ms-w + I : volt (unless refractory)
         dw/dt = (0.02/ms)*((0.2/ms)*v-w) : volt/second
         active : 1
         I : volt/second'''

nrn_1 = Neuron(
    NeuronGroup(1,
                eqs_1,
                threshold='v > 50*mV',
Esempio n. 28
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File: ib.py Progetto: zwocram/TFS
class IBWrapper(EWrapper):
    """
    The wrapper deals with the action coming back from the IB
    gateway or TWS instanc. We override methods in EWrapper
    that will get called when this action happens, like currentTime.
    """

    _msg_queue = queue.Queue()
    _contract_details = {}
    _my_historic_data_dict = {}
    _accepted_error_codes = [2106, 2107]
    _my_accounts = {}

    def __init__(self):
        self.logger = logging.getLogger(__name__ + ".wrapper")
        self.driver = Driver()
        self._my_contract_details = {}
        self._my_market_data_dict = {}
        self._my_open_orders = queue.Queue()
        self._my_executions_stream = queue.Queue()
        self._my_commission_stream = queue.Queue()

    def add_to_queue_class(ibwrapper_function):
        def wrap_the_wrapper(*args, **kwargs):
            _self = args[0]  # just in case
            ibwrapper_function(*args, **kwargs)

        return wrap_the_wrapper

    @add_to_queue_class
    def currentTime(self, time_from_server):
        # Overriden method
        self._msg_queue.put(time_from_server)
        # self._time_queue.put(time_from_server)

    def handle_queue_timeout(self, queue):
        """Handles timeouts of queue readings. Try to read
        the queue several times in case of delayed data
        delivery by IB.

        :param queue: the queue to be read

        :return: the processed data in the queue
        """

        for t in range(MAX_TRIES_READING_QUEUE):
            self.logger.info("Attempt %s to read hist data queue." % t)
            queue_data = queue.get(timeout=MAX_WAIT_SECONDS)
            if not queue_data.timed_out():
                return queue_data

        return queue.timed_out()

    # error handling code
    def init_error(self):
        error_queue = queue.Queue()
        self._my_errors = error_queue

    def get_error(self, timeout=5):
        if self.is_error():
            try:
                return self._my_errors.get(timeout=timeout)
            except queue.Empty:
                return None

        return None

    def is_error(self):
        an_error_if = not self._my_errors.empty()
        return an_error_if

    def error(self, id, errorCode, errorString):
        # Overriden method
        if errorCode not in self._accepted_error_codes:
            errormsg = "IB error id %d errorcode %d string %s" % (
                id, errorCode, errorString)
            self._my_errors.put(errormsg)

    """ Executions and commissions
    Requested executions get dropped into single queue:
        self._my_requested_execution[reqId]

    Those that arrive as orders are completed without a relevant
    reqId go into self._my_executions_stream.

    All commissions go into self._my_commission_stream
    (could be requested or not).

    The *_stream queues are permanent, and init when the
    TestWrapper instance is created
    """

    def execDetails(self, reqId, contract, execution):
        """
        This is called if
        a) we have submitted an order and a fill has come back (in which
        case reqId will be FILL_CODE)
        b) We have asked for recent fills to be given to us (reqId will be
        See API docs for more details
        """
        execdata = execInformation(execution.execId,
                                   contract=contract,
                                   ClientId=execution.clientId,
                                   OrderId=execution.orderId,
                                   time=execution.time,
                                   AvgPrice=execution.avgPrice,
                                   AcctNumber=execution.acctNumber,
                                   Shares=execution.shares,
                                   Price=execution.price)

        self.logger.info("in execData")

        # there are some other things in execution you could add
        # make sure you add them to the .attributes() field of the
        # execInformation class

        reqId = int(reqId)

        # We either put this into a stream if its just happened,
        # or store it for a specific request
        if reqId == FILL_CODE:
            self._my_executions_stream.put(execdata)
        else:
            self._my_requested_execution[reqId].put(execdata)

    def execDetailsEnd(self, reqId):
        """
        No more orders to look at if execution details requested
        """
        self._my_requested_execution[reqId].put(FINISHED)

    # orders
    def init_open_orders(self):
        open_orders_queue = self._my_open_orders = queue.Queue()

        return open_orders_queue

    def orderStatus(self,
                    orderId,
                    status,
                    filled,
                    remaining,
                    avgFillPrice,
                    permid,
                    parentId,
                    lastFillPrice,
                    clientId,
                    whyHeld,
                    mktCapPrice=0):

        order_details = orderInformation(orderId,
                                         status=status,
                                         filled=filled,
                                         avgFillPrice=avgFillPrice,
                                         permid=permid,
                                         parentId=parentId,
                                         lastFillPrice=lastFillPrice,
                                         clientId=clientId,
                                         whyHeld=whyHeld)

        self.driver.trace_order_status(orderId, order_details)

        self._my_open_orders.put(order_details)

    def openOrder(self, orderId, contract, order, orderstate):
        """
        Tells us about any orders we are working now
        overriden method
        """

        self.logger.info("Order: %s, %s %s %s (%s) %s@%s %s", orderId,
                         order.orderType, order.action, contract.symbol,
                         contract.secType, order.totalQuantity, order.auxPrice,
                         order.tif)

        order_details = orderInformation(orderId,
                                         contract=contract,
                                         order=order,
                                         orderstate=orderstate)
        self._my_open_orders.put(order_details)

    def openOrderEnd(self):
        """
        Finished getting open orders
        Overriden method
        """

        self._my_open_orders.put(FINISHED)

    # order ids
    def init_nextvalidid(self):

        orderid_queue = self._my_orderid_data = queue.Queue()

        return orderid_queue

    def nextValidId(self, orderId):
        """
        Give the next valid order id
        Note this doesn't 'burn' the ID; if you call again without executing the next ID will be the same
        If you're executing through multiple clients you are probably better off having an explicit counter
        """
        if getattr(self, '_my_orderid_data', None) is None:
            # getting an ID which we haven't asked for
            # this happens, IB server just sends this along occassionally
            self.init_nextvalidid()

        self._my_orderid_data.put(orderId)

    # get contract details code
    def init_contractdetails(self, reqId):
        contract_details_queue = self._my_contract_details[
            reqId] = queue.Queue()

        return contract_details_queue

    def contractDetails(self, reqId, contractDetails):
        # overridden method

        if reqId not in self._my_contract_details.keys():
            self.init_contractdetails(reqId)

        self._my_contract_details[reqId].put(contractDetails)

    def contractDetailsEnd(self, reqId):
        # overriden method
        if reqId not in self._my_contract_details.keys():
            self.init_contractdetails(reqId)

        self._my_contract_details[reqId].put(FINISHED)

    # Historic data code
    def init_historicprices(self, tickerid):
        historic_data_queue = self._my_historic_data_dict[
            tickerid] = queue.Queue()

        return historic_data_queue

    def historicalData(self, tickerid, bar):

        # Overriden method
        # Note I'm choosing to ignore barCount, WAP and hasGaps but you could use them if you like
        bardata = (bar.date, bar.open, bar.high, bar.low, bar.close,
                   bar.volume)

        historic_data_dict = self._my_historic_data_dict

        # Add on to the current data
        if tickerid not in historic_data_dict.keys():
            self.init_historicprices(tickerid)

        historic_data_dict[tickerid].put(bardata)

    def historicalDataEnd(self, tickerid, start: str, end: str):
        # overriden method

        if tickerid not in self._my_historic_data_dict.keys():
            self.init_historicprices(tickerid)

        self._my_historic_data_dict[tickerid].put(FINISHED)

    # market data
    def init_market_data(self, tickerid):
        market_data_queue = self._my_market_data_dict[tickerid] = queue.Queue()

        return market_data_queue

    def get_time_stamp(self):
        # Time stamp to apply to market data
        # We could also use IB server time
        return datetime.datetime.now()

    def tickPrice(self, tickerid, tickType, price, attrib):
        # overriden method

        # For simplicity I'm ignoring these but they could be useful to you...
        # See the documentation http://interactivebrokers.github.io/tws-api/md_receive.html#gsc.tab=0
        # attrib.canAutoExecute
        # attrib.pastLimit

        this_tick_data = IBtick(self.get_time_stamp(), tickType, price)
        self._my_market_data_dict[tickerid].put(this_tick_data)

    def tickSize(self, tickerid, tickType, size):
        # overriden method

        this_tick_data = IBtick(self.get_time_stamp(), tickType, size)
        self._my_market_data_dict[tickerid].put(this_tick_data)

    def tickString(self, tickerid, tickType, value):
        # overriden method

        # value is a string, make it a float, and then in the parent class will be resolved to int if size
        this_tick_data = IBtick(self.get_time_stamp(), tickType, float(value))
        self._my_market_data_dict[tickerid].put(this_tick_data)

    def tickGeneric(self, tickerid, tickType, value):
        # overriden method

        this_tick_data = IBtick(self.get_time_stamp(), tickType, value)
        self._my_market_data_dict[tickerid].put(this_tick_data)

    # get account summary
    def init_accounts(self, reqId):
        accounting_queue = self._my_accounts[reqId] = queue.Queue()

        return accounting_queue

    def accountSummary(self, reqId: int, account: str, tag: str, value: str,
                       currency: str):

        # use this to seperate out different account data
        data = (reqId, account, tag, value, currency)
        self._my_accounts[reqId].put(data)

    def accountSummaryEnd(self, reqId: int):
        self._my_accounts[reqId].put(FINISHED)
Esempio n. 29
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 def __init__(self):
     self.logger = logging.getLogger(__name__)
     self.driver = Driver()
Esempio n. 30
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 def __init__(self):
     self.driver = Driver().get_driver()