Exemple #1
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 def setUpClass(cls):
     try:
         data = WeatherData()
         data.load('weather_data.csv')
         cls.data = data
     except Exception:
         pass
Exemple #2
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def __print_labels(data: WeatherData):
    for i in range(len(data.get_times())):
        current_time = data.get_times()[i]
        current_t = data.get_temperature()[i]
        plt.annotate(current_t if current_t < 0 else '+' + str(current_t),
                     xy=(current_time, current_t),
                     color='green')
Exemple #3
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def test_user_provided_location():
    w = WeatherData("london")
    assert w.userProvidedLocation == True
    w.get_weather()
    assert w.location == "London"
    w2 = WeatherData()
    assert w2.userProvidedLocation == False
Exemple #4
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    def updateView(self):
        self._secs_since_last_update += 1

        time_now = time.strftime("%H:%M:%S")
        date_now = time.strftime("%d.%m.%Y")

        if self._secs_since_last_update > 10:
            print('WeatherUI :: updateView -> getting data')
            self._secs_since_last_update = 0
            self._is_time_to_repaint = True
            self._my_data = WeatherData(time_now)
            self._my_data.start()

        if not self._my_data.is_alive() and self._is_time_to_repaint:
            print('WeatherUI :: updateView ->  repainting')
            self._is_time_to_repaint = False
            self.txt_label_inside.configure(text=self._get_inside_text())
            self.txt_label_current.configure(
                text=self._get_current_weather_text(
                    self._my_data.get_current_weather()))
            self.txt_label_forecast_today.configure(
                text=self._get_next_hours_text())
            self.txt_label_plus_1d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_1d()))
            self.txt_label_plus_2d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_2d()))
            self.txt_label_plus_3d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_3d()))
            self.txt_label_plus_4d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_4d()))

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_current_weather().weather_id))
            self.img_label_current.configure(image=img)
            self.img_label_current.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_1d().weather_id))
            self.img_label_plus_1d.configure(image=img)
            self.img_label_plus_1d.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_2d().weather_id))
            self.img_label_plus_2d.configure(image=img)
            self.img_label_plus_2d.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_3d().weather_id))
            self.img_label_plus_3d.configure(image=img)
            self.img_label_plus_3d.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_4d().weather_id))
            self.img_label_plus_4d.configure(image=img)
            self.img_label_plus_4d.image = img

        self.txt_label_time.configure(text=time_now)
        self.txt_label_date.configure(text=date_now)

        self.after(1000, self.updateView)
Exemple #5
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def main():
    weather_data = WeatherData()
    current_condition_display = CurrentConditionDisplay()

    weather_data.add_observer(current_condition_display)
    weather_data.set_measurements(10, 12, 30)
    weather_data.set_measurements(50, 60, 70)
    weather_data.delete_observer(current_condition_display)
    weather_data.set_measurements(100, 200, 300)
Exemple #6
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def print_graphic(data: WeatherData, path, count):
    if data.is_valid():
        x = data.get_times()
        new_x = np.linspace(0, count - 2, num=100, endpoint=True)

        fig, axs = plt.subplots(2,
                                1,
                                sharex=True,
                                sharey=False,
                                gridspec_kw={'height_ratios': [1, 3]},
                                figsize=(10, 5))

        labels_x = []
        for lx in x:
            if lx > 24:
                labels_x.append(lx - 24)
            else:
                labels_x.append(lx)
        plt.xticks(np.arange(min(x), max(x) + 1, 3.0), labels_x)

        __print_labels(data)

        t = data.get_temperature()
        interpolation_t = interp1d(x, t, kind='cubic')
        points_t = np.array([new_x,
                             interpolation_t(new_x)]).T.reshape(-1, 1, 2)
        segments_t = np.concatenate([points_t[:-1], points_t[1:]], axis=1)
        norm_t = plt.Normalize(-15, 18)
        line_collect_t = LineCollection(segments_t,
                                        cmap='cividis',
                                        norm=norm_t)
        line_collect_t.set_array(interpolation_t(new_x))
        line_collect_t.set_linewidth(3)
        axs[1].add_collection(line_collect_t)
        axs[1].set_xlabel('Температура')
        axs[0].set_xlabel('Количество осадков')

        p = data.get_precipitation()
        interpolation_p = interp1d(x, p, kind='cubic')
        points_p = np.array([new_x,
                             interpolation_p(new_x)]).T.reshape(-1, 1, 2)
        segments_p = np.concatenate([points_p[:-1], points_p[1:]], axis=1)
        norm_p = plt.Normalize(0, 0.3)
        line_collect_p = LineCollection(segments_p, cmap='Greens', norm=norm_p)
        line_collect_p.set_array(interpolation_p(new_x))
        line_collect_p.set_linewidth(3)
        axs[0].add_collection(line_collect_p)

        axs[0].set_xlim(0, count)
        axs[1].set_ylim(0 if min(t) > 1 else min(t) - 1,
                        0 if max(t) < -1 else max(t) + 1)
        axs[0].set_ylim(0, 1 if max(p) < 0.8 else max(p) + 0.5)
        plt.savefig(path, dpi=150)
Exemple #7
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def save_graphics_two_day(file_path):
    today = parser_weather_gis.get_today_weather()
    next_day = parser_weather_gis.get_tomorrow_weather()
    union_data = WeatherData()
    union_data.set_times(today.get_times() + __add_next_day_times(next_day.get_times()))
    union_data.set_precipitation(today.get_precipitation() + next_day.get_precipitation())
    union_data.set_temperature(today.get_temperature() + next_day.get_temperature())
    render_graphics.print_graphic(union_data, file_path, 47)
Exemple #8
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def test_model_import():
    # 测试导出的模型再导入是否正确
    with open('knn.pickle', 'rb') as fr:
        clf = pickle.load(fr)
        wd = WeatherData()
        res = clf.score(wd.X, wd.y)
        print('import model, score: ', res)
Exemple #9
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    def test_event_decision4(self):
        """Test ED._temp_factor rule 2a & 3a and _rain_factor rule 1c"""
        weather_data = WeatherData()
        weather_data._weather_data.append(
            WeatherDataItem(5, 44, 20, 10, 61, 15, 30, "ESE", 1, 1016.3))
        sp = self.prediction.SimplePrediction(weather_data, 1)
        event = self.event_decision.Event('My Event', True, True, 13)
        ed = self.event_decision.EventDecision(event, sp)

        self.aggregate(self.assertAlmostEqual,
                       ed._temperature_factor(),
                       -1.8,
                       places=3,
                       tag='_temperature_factor')
        self.aggregate(self.assertAlmostEqual,
                       ed._rain_factor(),
                       0,
                       places=3,
                       tag='_rain_factor')
        self.aggregate(self.assertAlmostEqual,
                       ed.advisability(),
                       -1.8,
                       places=3,
                       tag='advisability')

        self.aggregate_tests()
Exemple #10
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 def __init__(self, uno, nano, db, data):
     self.uno = uno
     self.nano = nano
     self.current_weather_data = WeatherData()
     self.current_sensor_data = SensorData()
     self.current_device_data = data
     self.db = db
Exemple #11
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    def __init__(self, width, height, master=None):
        tk.Frame.__init__(self, master)

        self._width = width
        self._height = height

        self._config = configparser.ConfigParser()
        self._config.read(CONFIG_FILE)
        self._realtime_api = self._config.get('weather', 'realtime_api')
        self._airquality_api = self._config.get('weather', 'airquality_api')
        self._refresh_milliseconds = int(
            self._config.get('weather', 'refresh_seconds')) * 1000
        self._city_code = self._config.get('city', 'code')

        self._spider = WeatherSpider(realtime_api=self._realtime_api,
                                     airquality_api=self._airquality_api)
        self._weather_data = WeatherData(self._city_code)

        self._canvas = tk.Canvas(root,
                                 width=self._width,
                                 height=self._height,
                                 bg='white')
        self._canvas.config(highlightthickness=0)  # 去掉边框
        self._canvas.pack()

        self._image = Image.new('1', (self._width, self._height), 'white')
        image_draw = ImageDraw.Draw(self._image)
        self._weather_painter = WeatherPainterSmall(image_draw, self._width,
                                                    self._height)
        self._tkimg = None

        self.update_weather_info()
Exemple #12
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def hello_world():
    data = WeatherData()
    return render_template("index.html",
                           city=data.location,
                           weather=data.weather_dict,
                           clothing=data.clothing,
                           searchCity=data.userProvidedLocation)
Exemple #13
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def main():
    """Main application's starting point."""
    check_again = True
    weather_data = WeatherData()
    weather_data.load("weather_data.csv")
    user_interface = UserInteraction()

    print("Let's determine how suitable your event is for the predicted "
          "weather.")
    event = user_interface.get_event_details()

    while check_again:
        prediction_model = user_interface.get_prediction_model(weather_data)
        decision = EventDecision(event, prediction_model)
        impact = decision.advisability()
        user_interface.output_advisability(impact)
        check_again = user_interface.another_check()
Exemple #14
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def do_export_model():
    # 最优模型是knn分类器,模型参数如下
    clf = KNeighborsClassifier(n_neighbors=15, weights='uniform', metric='euclidean')
    # 训练模型
    wd = WeatherData()
    clf.fit(wd.X, wd.y)
    # 导出模型,用于在RPi Zero中导入
    export_model(clf, 'knn.pickle')
Exemple #15
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def searchcity():
    city = request.form['city']
    data = WeatherData(city)
    return render_template("index.html",
                           city=data.location,
                           weather=data.weather_dict,
                           clothing=data.clothing,
                           searchCity=data.userProvidedLocation)
Exemple #16
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def get_tomorrow_weather():
    data = WeatherData()
    session = requests.session()
    r = session.get(BASE_URL + NEXT_URL, headers=HEADERS, timeout=5)
    soup = bs4.BeautifulSoup(r.content, "lxml")
    widget = __get_widget_container(soup)
    data.set_temperature(__get_list_of_temperature(widget))
    data.set_times(__get_list_of_time(widget))
    data.set_precipitation(__get_widget_precipitation(widget))
    return data
Exemple #17
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    def test_weather_station(self):
        weather_data = WeatherData()
        current_display = CurrentConditionsDisplay(weather_data)
        statistics_display = StatisticsDisplay(weather_data)
        forecast_display = ForecastDisplay(weather_data)
        heat_index_display = HeatIndexDisplay(weather_data)

        weather_data.set_measurements(80, 65, 30.4)
        weather_data.set_measurements(82, 70, 29.2)
        weather_data.set_measurements(78, 90, 29.2)
Exemple #18
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def show_info():
    global img
    city = city_text.get()

    if not city:
        output["text"] = "Please enter the city name!"
    else:
        data = WeatherData(city)
        if data.status >= 400:
            output["text"] = f"Please check the city name!"
        else:
            img = PhotoImage(file=f"icons/{data.icon}.png")
            status["image"] = img

            output["text"] = f"Country: {data.country}\n" \
                             f"City: {data.city}\n" \
                             f"Temperature: {data.temp} °C"
Exemple #19
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def main():
    # subject
    weather_data = WeatherData()

    # observers
    current_display = CurrentConditionsDisplay(weather_data)
    heat_index_display = HeatIndexDisplay(weather_data)
    forecast_display = ForecastDisplay(weather_data)
    stats_display = StatisticsDisplay(weather_data)

    weather_data.set_measurements(80, 65, 30.4)
    weather_data.set_measurements(82, 70, 29.2)
    weather_data.set_measurements(78, 90, 29.2)
Exemple #20
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def main():
    weatherStation = WeatherData()

    currentConditonsDisplay = CurrentConditionsDisplay(weatherStation)
    forecastDisplay = ForecastDisplay(weatherStation)
    statisticsDisplay = StatisticsDisplay(weatherStation)

    currentConditonsDisplay.display()
    forecastDisplay.display()
    statisticsDisplay.display()

    weatherStation.setMeasurements(12.0, 25.0, 10.0)
    weatherStation.setMeasurements(25.0, 15.0, 12.0)
    weatherStation.setMeasurements(5.0, 10.0, 8.0)
Exemple #21
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def convert_xml_to_weather_record(data_element):
    import datetime
    from weather_data import WeatherData

    cloudiness = data_element.findtext("nn_shortText", default="")
    wind_direction = data_element.findtext("dd_longText", default="")
    wind_speed = data_element.findtext("ff_value",
                                       default=data_element.findtext("ff_val"))
    findtext = data_element.findtext("msl")
    if findtext:
        pressure = float(findtext)
    else:
        pressure = None

    return WeatherData(
        datetime.datetime.strptime(
            data_element.find("tsValid_issued_UTC").text,
            "%d.%m.%Y %H:%M %Z"), cloudiness, wind_direction,
        float(wind_speed), float(data_element.findtext("t")),
        float(data_element.findtext("rh")), pressure)
Exemple #22
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    def __init__(self, width, height):

        self._width = width
        self._height = height

        self._config = configparser.ConfigParser()
        self._config.read(CONFIG_FILE)
        self._realtime_api = self._config.get('weather', 'realtime_api')
        self._airquality_api = self._config.get('weather', 'airquality_api')
        self._refresh_seconds = int(
            self._config.get('weather', 'refresh_seconds'))
        self._city_code = self._config.get('city', 'code')

        self._spider = WeatherSpider(realtime_api=self._realtime_api,
                                     airquality_api=self._airquality_api)
        self._weather_data = WeatherData(self._city_code)

        self._epd = epd2in13_V2.EPD()

        self._image = Image.new('1', (self._width, self._height), 'white')
        image_draw = ImageDraw.Draw(self._image)
        self._weather_painter = WeatherPainterSmall(image_draw, self._width,
                                                    self._height)
Exemple #23
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class WeatherUI(Frame):
    def __init__(self):
        super().__init__()
        self.initUI()

    def initUI(self):

        print('WeatherUI :: initUI')
        self._deg_sign = chr(176)
        self._secs_since_last_update = 11
        self._is_time_to_repaint = False
        self._icon_helper = IconHelper()

        # main view
        self.master.title('Windows')
        self.pack(fill=BOTH, expand=True)
        self.configure(background='black')

        # args
        self._text_style_args = dict(fg='white', bg='black', font='14')
        self._text_padding_args = dict(pady=5, padx=5)
        self._photo_style_args = dict(borderwidth=0, highlightthickness=0)

        # columns
        self.columnconfigure(0, weight=1)
        self.columnconfigure(1, weight=1)
        self.columnconfigure(2, weight=1)

        # view frames
        self._add_time_and_date_frame()
        self._add_current_weather_frame()
        self._add_forecast_today_frame()
        self._add_inside_status_frame()
        self._add_forecast_for_coming_days_frame()

        self.updateView()

    def _add_time_and_date_frame(self):

        frame_date_time = Frame(self,
                                highlightcolor="grey",
                                highlightthickness=1,
                                background='black')
        frame_date_time.columnconfigure(0, weight=1)
        self.txt_label_time = Label(frame_date_time,
                                    text='',
                                    **self._text_style_args)
        self.txt_label_time.grid(row=0, column=0, **self._text_padding_args)
        self.txt_label_date = Label(frame_date_time,
                                    text='',
                                    **self._text_style_args)
        self.txt_label_date.grid(row=0,
                                 column=1,
                                 sticky=E,
                                 **self._text_padding_args)
        frame_date_time.grid(row=0,
                             column=0,
                             columnspan=4,
                             sticky=W + E + N + S)

    def _add_current_weather_frame(self):

        frame_current_weather = Frame(self,
                                      highlightcolor="grey",
                                      highlightthickness=1,
                                      background='black')
        img = PhotoImage(file='../resource/92.png')
        self.img_label_current = Label(frame_current_weather,
                                       image=img,
                                       **self._photo_style_args)
        self.img_label_current.image = img
        self.img_label_current.grid(row=0, column=0, sticky=W + N)

        self.txt_label_current = Label(frame_current_weather,
                                       text='',
                                       justify=LEFT,
                                       **self._text_style_args)
        self.txt_label_current.grid(row=0,
                                    column=1,
                                    sticky=W + N,
                                    **self._text_padding_args)
        frame_current_weather.grid(row=1, column=0, sticky=W + E + N + S)

    def _add_forecast_today_frame(self):

        # forecast today, +3h +6 +9h
        frame_forecast_today = Frame(self,
                                     highlightcolor="grey",
                                     highlightthickness=1,
                                     background='black')
        frame_forecast_today.rowconfigure(0, weight=1)
        self.txt_label_forecast_today = Label(frame_forecast_today,
                                              text='',
                                              justify=LEFT,
                                              **self._text_style_args)
        self.txt_label_forecast_today.grid(row=0,
                                           column=0,
                                           **self._text_padding_args)
        frame_forecast_today.grid(row=1, column=1, sticky=W + E + N + S)

    def _add_inside_status_frame(self):

        frame_inside = Frame(self,
                             highlightcolor="grey",
                             highlightthickness=1,
                             background='black')
        frame_inside.rowconfigure(0, weight=1)
        self.txt_label_inside = Label(frame_inside,
                                      justify=LEFT,
                                      text='',
                                      **self._text_style_args)
        self.txt_label_inside.grid(row=0, column=0, **self._text_padding_args)
        frame_inside.grid(row=1, column=2, sticky=W + E + N + S)

    def _add_forecast_for_coming_days_frame(self):

        frame_forecast = Frame(self,
                               highlightcolor="grey",
                               highlightthickness=1,
                               background='black')

        # forecast + 1 day
        img = PhotoImage(file='../resource/92.png')
        self.img_label_plus_1d = Label(frame_forecast,
                                       image=img,
                                       **self._photo_style_args)
        self.img_label_plus_1d.image = img
        self.img_label_plus_1d.grid(row=0, column=0, sticky=W + N)

        self.txt_label_plus_1d = Label(frame_forecast,
                                       text='',
                                       justify=LEFT,
                                       **self._text_style_args)
        self.txt_label_plus_1d.grid(row=0,
                                    column=1,
                                    sticky=W + N,
                                    **self._text_padding_args)

        # forecast + 2 days
        img = PhotoImage(file='../resource/92.png')
        self.img_label_plus_2d = Label(frame_forecast,
                                       image=img,
                                       **self._photo_style_args)
        self.img_label_plus_2d.image = img
        self.img_label_plus_2d.grid(row=0, column=2, sticky=W + N)

        self.txt_label_plus_2d = Label(frame_forecast,
                                       text='',
                                       justify=LEFT,
                                       **self._text_style_args)
        self.txt_label_plus_2d.grid(row=0,
                                    column=3,
                                    sticky=W + N,
                                    **self._text_padding_args)

        # forecast + 3 days
        img = PhotoImage(file='../resource/92.png')
        self.img_label_plus_3d = Label(frame_forecast,
                                       image=img,
                                       **self._photo_style_args)
        self.img_label_plus_3d.image = img
        self.img_label_plus_3d.grid(row=0, column=4, sticky=W + N)

        self.txt_label_plus_3d = Label(frame_forecast,
                                       text='',
                                       justify=LEFT,
                                       **self._text_style_args)
        self.txt_label_plus_3d.grid(row=0,
                                    column=5,
                                    sticky=W + N,
                                    **self._text_padding_args)

        # forecast + 4 days
        img = PhotoImage(file='../resource/92.png')
        self.img_label_plus_4d = Label(frame_forecast,
                                       image=img,
                                       **self._photo_style_args)
        self.img_label_plus_4d.image = img
        self.img_label_plus_4d.grid(row=0, column=6, sticky=W + N)

        self.txt_label_plus_4d = Label(frame_forecast,
                                       text='',
                                       justify=LEFT,
                                       **self._text_style_args)
        self.txt_label_plus_4d.grid(row=0,
                                    column=7,
                                    sticky=W + N,
                                    **self._text_padding_args)

        frame_forecast.grid(row=2,
                            column=0,
                            columnspan=4,
                            sticky=W + E + N + S)

    def updateView(self):
        self._secs_since_last_update += 1

        time_now = time.strftime("%H:%M:%S")
        date_now = time.strftime("%d.%m.%Y")

        if self._secs_since_last_update > 10:
            print('WeatherUI :: updateView -> getting data')
            self._secs_since_last_update = 0
            self._is_time_to_repaint = True
            self._my_data = WeatherData(time_now)
            self._my_data.start()

        if not self._my_data.is_alive() and self._is_time_to_repaint:
            print('WeatherUI :: updateView ->  repainting')
            self._is_time_to_repaint = False
            self.txt_label_inside.configure(text=self._get_inside_text())
            self.txt_label_current.configure(
                text=self._get_current_weather_text(
                    self._my_data.get_current_weather()))
            self.txt_label_forecast_today.configure(
                text=self._get_next_hours_text())
            self.txt_label_plus_1d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_1d()))
            self.txt_label_plus_2d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_2d()))
            self.txt_label_plus_3d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_3d()))
            self.txt_label_plus_4d.configure(text=self._get_next_days_text(
                self._my_data.get_forecast_plus_4d()))

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_current_weather().weather_id))
            self.img_label_current.configure(image=img)
            self.img_label_current.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_1d().weather_id))
            self.img_label_plus_1d.configure(image=img)
            self.img_label_plus_1d.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_2d().weather_id))
            self.img_label_plus_2d.configure(image=img)
            self.img_label_plus_2d.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_3d().weather_id))
            self.img_label_plus_3d.configure(image=img)
            self.img_label_plus_3d.image = img

            img = PhotoImage(file=self._icon_helper.get_icon_path(
                self._my_data.get_forecast_plus_4d().weather_id))
            self.img_label_plus_4d.configure(image=img)
            self.img_label_plus_4d.image = img

        self.txt_label_time.configure(text=time_now)
        self.txt_label_date.configure(text=date_now)

        self.after(1000, self.updateView)

    def _get_inside_text(self):
        text ='# Inside # \n' +\
               'Temp: ' + str(self._my_data.get_inside().temperature) + ' ' + self._deg_sign + 'C\n' + \
               'Humidity: ' + str(self._my_data.get_inside().humidity) + ' %'
        return text

    def _get_current_weather_text(self, data):
        text = '# Today @ ' + str(data.time) + ' #\n' + \
               str(data.temp) + ' ' + self._deg_sign + 'C\n' + \
               str(data.wind) + ' m/s, ' + str(data.deg) + self._deg_sign + '\n' + \
               str(data.description)
        return text

    def _get_next_hours_text(self):
        data = [
            self._my_data.get_forecast_next_3_hours(),
            self._my_data.get_forecast_next_6_hours(),
            self._my_data.get_forecast_next_9_hours(),
            self._my_data.get_forecast_next_12_hours()
        ]
        ret_val = "# Coming hours #\n"

        for i in range(len(data)):
            text = \
                '@ ' + str(data[i].time) + ': ' + \
                str(data[i].temp) + ' ' + self._deg_sign + 'C, ' + \
                str(data[i].wind) + ' m/s, ' + \
                str(data[i].description)
            ret_val += text
            if len(data) - 1 != i:
                ret_val += '\n'

        return ret_val

    def _get_next_days_text(self, data):
        text = '# ' + str(data.time) + ' #\n' + \
               'Day: ' + str(data.temp_day) + ' ' + self._deg_sign + 'C\n' + \
               'Night: ' + str(data.temp_night) + ' ' + self._deg_sign + 'C\n' + \
               str(data.wind) + ' m/s, ' + str(data.deg) + self._deg_sign + '\n' + \
               str(data.description)
        return text
Exemple #24
0
from weather_data import WeatherData
from billboard import CurrentConditionDisplay


if __name__ == '__main__':
    weather_data = WeatherData()
    current_display = CurrentConditionDisplay(weather_data)

    weather_data.set_measurements(80, 65, 30.4)
    weather_data.set_measurements(82, 70, 29.2)
    weather_data.set_measurements(78, 90, 29.2)
Exemple #25
0
class TestHighTempEdgeCases(TestA2):
    """
    Test edge cases around high temperature (45).
    Test air pressure impact on predictions.
    Test max wind speed impact on wind speed.
    """
    weather_data = WeatherData()
    day_low = WeatherDataItem(1, 44, 29, 10, 49, 14, 40, "N", 1, 1015)
    day_mid = WeatherDataItem(2, 45, 30, 10, 50, 15, 60, "SE", 2, 1016)
    day_high = WeatherDataItem(3, 46, 31, 10, 51, 16, 100, "W", 3, 1017)

    @skipIfFailed(TestDesign,
                  TestDesign.test_simple_prediction_defined.__name__,
                  tag='defined')
    def test_simple_prediction(self):
        """Test SimplePrediction with high temp, little rain, low humidity"""
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_low)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_high)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_mid)
        sp = self.prediction.SimplePrediction(
            TestHighTempEdgeCases.weather_data,
            len(TestHighTempEdgeCases.weather_data._weather_data))

        self.aggregate(self.assertEqual,
                       sp.get_number_days(),
                       len(TestHighTempEdgeCases.weather_data._weather_data),
                       tag='get_number_days')
        self.aggregate(self.assertEqual,
                       sp.chance_of_rain(),
                       18,
                       tag='chance_of_rain')
        self.aggregate(self.assertAlmostEqual,
                       sp.high_temperature(),
                       46,
                       places=2,
                       tag='high_temperature')
        self.aggregate(self.assertAlmostEqual,
                       sp.low_temperature(),
                       29,
                       places=2,
                       tag='low_temperature')
        self.aggregate(self.assertEqual, sp.humidity(), 50, tag='humidity')
        self.aggregate(self.assertEqual,
                       sp.cloud_cover(),
                       2,
                       tag='cloud_cover')
        self.aggregate(self.assertEqual, sp.wind_speed(), 15, tag='wind_speed')

        self.aggregate_tests()

    @skipIfFailed(TestDesign,
                  TestDesign.test_sophisticated_prediction_defined.__name__,
                  tag='defined')
    def test_sophisticated_prediction_high_pressure(self):
        """Test SophisticatedPrediction with high temp and high pressure"""
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_low)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_mid)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_high)
        sp = self.prediction.SophisticatedPrediction(
            TestHighTempEdgeCases.weather_data,
            len(TestHighTempEdgeCases.weather_data._weather_data))

        self.aggregate(self.assertEqual,
                       sp.get_number_days(),
                       len(TestHighTempEdgeCases.weather_data._weather_data),
                       tag='get_number_days')
        self.aggregate(self.assertEqual,
                       sp.chance_of_rain(),
                       14,
                       tag='chance_of_rain')
        self.aggregate(self.assertAlmostEqual,
                       sp.high_temperature(),
                       47,
                       places=2,
                       tag='high_temperature')
        self.aggregate(self.assertAlmostEqual,
                       sp.low_temperature(),
                       30,
                       places=2,
                       tag='low_temperature')
        self.aggregate(self.assertEqual, sp.humidity(), 35, tag='humidity')
        self.aggregate(self.assertEqual,
                       sp.cloud_cover(),
                       2,
                       tag='cloud_cover')
        self.aggregate(self.assertEqual, sp.wind_speed(), 18, tag='wind_speed')

        self.aggregate_tests()

    @skipIfFailed(TestDesign,
                  TestDesign.test_sophisticated_prediction_defined.__name__,
                  tag='defined')
    def test_sophisticated_prediction_equal_pressure(self):
        """Test SophisticatedPrediction with high temp and equal pressure"""
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_low)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_high)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_mid)
        sp = self.prediction.SophisticatedPrediction(
            TestHighTempEdgeCases.weather_data,
            len(TestHighTempEdgeCases.weather_data._weather_data))

        self.aggregate(self.assertEqual,
                       sp.get_number_days(),
                       len(TestHighTempEdgeCases.weather_data._weather_data),
                       tag='get_number_days')
        self.aggregate(self.assertEqual,
                       sp.chance_of_rain(),
                       17,
                       tag='chance_of_rain')
        self.aggregate(self.assertAlmostEqual,
                       sp.high_temperature(),
                       45,
                       places=2,
                       tag='high_temperature')
        self.aggregate(self.assertAlmostEqual,
                       sp.low_temperature(),
                       30,
                       places=2,
                       tag='low_temperature')
        self.aggregate(self.assertEqual, sp.humidity(), 50, tag='humidity')
        self.aggregate(self.assertEqual,
                       sp.cloud_cover(),
                       2,
                       tag='cloud_cover')
        self.aggregate(self.assertEqual, sp.wind_speed(), 15, tag='wind_speed')

        self.aggregate_tests()

    @skipIfFailed(TestDesign,
                  TestDesign.test_sophisticated_prediction_defined.__name__,
                  tag='defined')
    def test_sophisticated_prediction_low_pressure(self):
        """Test SophisticatedPrediction with high temp and low pressure"""
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_mid)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_high)
        TestHighTempEdgeCases.weather_data._weather_data.append(
            TestHighTempEdgeCases.day_low)
        sp = self.prediction.SophisticatedPrediction(
            TestHighTempEdgeCases.weather_data,
            len(TestHighTempEdgeCases.weather_data._weather_data))

        self.aggregate(self.assertEqual,
                       sp.get_number_days(),
                       len(TestHighTempEdgeCases.weather_data._weather_data),
                       tag='get_number_days')
        self.aggregate(self.assertEqual,
                       sp.chance_of_rain(),
                       20,
                       tag='chance_of_rain')
        self.aggregate(self.assertAlmostEqual,
                       sp.high_temperature(),
                       45,
                       places=2,
                       tag='high_temperature')
        self.aggregate(self.assertAlmostEqual,
                       sp.low_temperature(),
                       28,
                       places=2,
                       tag='low_temperature')
        self.aggregate(self.assertEqual, sp.humidity(), 65, tag='humidity')
        self.aggregate(self.assertEqual,
                       sp.cloud_cover(),
                       4,
                       tag='cloud_cover')
        self.aggregate(self.assertEqual, sp.wind_speed(), 15, tag='wind_speed')

        self.aggregate_tests()
Exemple #26
0
from display import (
    CurrentConditionsDisplay,
    ForecastDisplay,
    HeatIndexDisplay,
    StatisticsDisplay,
)
from weather_data import WeatherData
"""
Notes:
- All instantied displays are registred in a subject(topic).
- When the states changes(set_measurements), all display are notified.
- We can register and unregister a observer as
we can see in the last two lines.
"""
weather_data = WeatherData()
current_Display = CurrentConditionsDisplay(weather_data)
statistics_display = StatisticsDisplay(weather_data)
forecast_display = ForecastDisplay(weather_data)
heat_index_display = HeatIndexDisplay(weather_data)

weather_data.set_measurements(80, 65, 30.4)
weather_data.set_measurements(82, 70, 29.2)
weather_data.set_measurements(78, 90, 29.2)

weather_data.remove_observer(forecast_display)
weather_data.set_measurements(62.0, 90.0, 28.1)
Exemple #27
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    def query(self, text):
        from voice_recognition import VoiceRecognition
        text = text.lower()
        vr = VoiceRecognition()
        if "search " in text:
            print(text[8:])
        if "wikipedia" in text:
            text = text.replace("wikipedia", "")
            result = wiki.summery(text, sentences=2)
            vr.speak(f"According to wikipedia, {result}")
        if "play music" in text:
            songs = subprocess.Popen("ls ~/Music/*.mp3",
                                     shell=True,
                                     stdout=subprocess.PIPE)
            all_songs = []
            for song in songs.stdout:
                song = str(song)
                all_songs.append(f"{song[1:-3]}'")

            os.system(f"open {choice(all_songs)}")
        if "system" in text:
            os.system("alacritty -e htop")
        if "the time" in text:
            cur_time = datetime.datetime.now().strftime("%H:%M:%S")
            vr.speak(f"sir, current time is {cur_time}")
            print(f"sir, current time is {cur_time}")
        if "weather" in text:
            weather = WeatherData()
            cur_weather = weather.get_current_data()
            vr.speak(f"current weather is {cur_weather['status']}, \
                    having {cur_weather['temp']} temperature")
            print(
                f"current weather is {cur_weather['status']}, having {cur_weather['temp']} temperature"
            )
        if "current price" in text:
            tracker = PriceTracker()
            try:
                data = tracker.get_data()
            except Exception as e:
                vr.speak(
                    "Sir, you have not given url of the product you are trying to track. Please go to gui section and click on price tracker button and set urls first"
                )
                print(
                    "Sir, you have not given url of the product you are trying to track. Please go to gui section and click on price tracker button and set urls first"
                )

            if "amazon" in text:
                amazon_price = data['amazon']
                vr.speak(
                    f"currently, price of your selected product {amazon_price[0]} on amazon is {amazon_price[1]}"
                )
                print(
                    f"currently, price of your selected product {amazon_price[0]} on amazon is {amazon_price[1]}"
                )
            elif "flipkart" in text:
                flipkart_price = data['flipkart']
                vr.speak(
                    f"currently, price of your selected product {flipkart_price[0]} on flipkart is {flipkart_price[1]}"
                )
                print(
                    f"currently, price of your selected product {flipkart_price[0]} on flipkart is {flipkart_price[1]}"
                )
            else:
                vr.speak(f"Ok sir")
                vr.speak(
                    f"Your product : {data['amazon'][0]} on amazon has price of rupees {data['amazon'][1]}"
                )
                vr.speak(
                    f"and {data['flipkart'][0]} on flipkart has price of rupees {data['flipkart'][1]}"
                )
                vr.speak(
                    f"currently price is low on {data['low price website']} which is {data[data['low price website']][1]}"
                )
                vr.speak(f"and your desired price is {data['desired price']}")
                print(
                    f"Your product : {data['amazon'][0]} on amazon has price of rupees {data['amazon'][1]}"
                )
                print(
                    f"and {data['flipkart'][0]} on flipkart has price of rupees {data['flipkart'][1]}"
                )
                print(
                    f"currently price is low on {data['low price website']} which is {data[data['low price website']][1]}"
                )
                print(f"and your desired price is {data['desired price']}")
Exemple #28
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class TestDisplayElement(TestCase):
    def setUp(self):
        self.weather_data = WeatherData()

    def test_CurrentConditionsDisplay(self):
        display = CurrentConditionsDisplay(self.weather_data)
        self.weather_data.set_measurements(1, 2, 3)

    def test_ForecastDisplay(self):
        display = ForecastDisplay(self.weather_data)
        self.weather_data.set_measurements(1, 2, 3)
        self.weather_data.set_measurements(1, 2, 4)
        self.weather_data.set_measurements(1, 2, 4)

    def test_StatisticsDisplay(self):
        display = StatisticsDisplay(self.weather_data)
        self.weather_data.set_measurements(2, 2, 3)
        self.weather_data.set_measurements(4, 2, 3)
        self.weather_data.set_measurements(1, 2, 3)

    def test_ThirdPartyDisplay(self):
        display = ThirdPartyDisplay(self.weather_data)
        self.weather_data.set_measurements(1, 2, 3)

    def test_weather_station(self):
        weather_data = WeatherData()
        current_display = CurrentConditionsDisplay(weather_data)
        statistics_display = StatisticsDisplay(weather_data)
        forecast_display = ForecastDisplay(weather_data)
        heat_index_display = HeatIndexDisplay(weather_data)

        weather_data.set_measurements(80, 65, 30.4)
        weather_data.set_measurements(82, 70, 29.2)
        weather_data.set_measurements(78, 90, 29.2)

    def test_remove_observer(self):
        display = StatisticsDisplay(self.weather_data)
        self.weather_data.set_measurements(1, 2, 3)
        self.weather_data.remove_observer(display)
        self.weather_data.set_measurements(3, 2, 1)
Exemple #29
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def test_weather_object():
    w = WeatherData()
    w.get_weather()
    assert type(w.weather_dict["humidity"]) == int
    assert type(w.weather_dict["status"]) == str
Exemple #30
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def test_clothing():
    w = WeatherData()
    w.weather_dict = test_dict
    w.determine_clothing()
    assert w.clothing["boots"] == True
    assert w.clothing["sun hat"] == False
Exemple #31
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 def setUp(self):
     self.weather_data = WeatherData()