Esempio n. 1
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    def test_from_night_to_day(self):
        """
        We should be also allowed to go back from night mode to day
        """
        style = Style()
        tps_within_range = (style.threshold_lower_limit
                            )  # the lower limit is inside the range
        seconds_to_switch_status = style.elapsed_seconds
        start_time = datetime.datetime.now()

        with freeze_time(start_time):
            style.update(tps_within_range)

        # night mode
        with freeze_time(start_time +
                         datetime.timedelta(0, seconds_to_switch_status)):
            style.update(tps_within_range)
            assert style.status == AVAILABLE_STATUSES[1]

        style.update(tps_within_range)

        # coming back to day mode
        with freeze_time(start_time +
                         datetime.timedelta(0, seconds_to_switch_status * 2)):
            style.update(tps_within_range)
            assert style.status == AVAILABLE_STATUSES[0]
Esempio n. 2
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    def test_update_no_change_status(self):
        """
        Status should not change if the tps is not within the range
        """
        style = Style()
        tps_outside_range = (style.threshold_upper_limit + 1
                             )  # the upper limit + 1 is outside the range
        seconds_to_switch_status = style.elapsed_seconds
        start_time = datetime.datetime.now()

        # starting in day mode
        with freeze_time(start_time):
            style.update(tps_outside_range)
            assert style.status == AVAILABLE_STATUSES[0]

        # not reaching the seconds needed to switch status
        with freeze_time(start_time +
                         datetime.timedelta(0, seconds_to_switch_status - 1)):
            style.update(tps_outside_range)
            assert style.status == AVAILABLE_STATUSES[0]

        # reaching the seconds needed to switch status but,
        # in this case we never been in the tps range so no status change should be performed.
        with freeze_time(start_time +
                         datetime.timedelta(0, seconds_to_switch_status)):
            style.update(tps_outside_range)
            assert style.status == AVAILABLE_STATUSES[0]
Esempio n. 3
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    def test_update_change_status(self):
        """
        Status should change if the tps is within the range for specific amount of time
        """
        style = Style()
        tps_within_range = (style.threshold_lower_limit
                            )  # the lower limit is inside the range
        seconds_to_switch_status = style.elapsed_seconds
        start_time = datetime.datetime.now()

        # starting in day mode
        with freeze_time(start_time):
            style.update(tps_within_range)
            assert style.status == AVAILABLE_STATUSES[0]

        # not reaching the seconds needed to switch status
        with freeze_time(start_time +
                         datetime.timedelta(0, seconds_to_switch_status - 1)):
            style.update(tps_within_range)
            assert style.status == AVAILABLE_STATUSES[0]

        # reaching the seconds needed to switch status
        with freeze_time(start_time +
                         datetime.timedelta(0, seconds_to_switch_status)):
            style.update(tps_within_range)
            assert style.status == AVAILABLE_STATUSES[1]
Esempio n. 4
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class Backend:
    _instance = None

    def __init__(self):
        self._init_websocket()
        self._load_user_preferences()
        self._init_resources()

    @staticmethod
    def _init_websocket():
        websocket_started = False
        while not websocket_started:
            try:
                app.run()
                websocket_started = app._started
            except AlreadyRunningError:
                app.stop()
            except (ConnectionRefusedError, TimeoutError):
                # Crossbar router not yet accepting connections, let's try again
                pass

    def _init_resources(self):
        self.time = Time()
        self.odo = Odometer()
        self.kpro = Kpro()

    def _load_user_preferences(self):
        """
        In order to read only once from the setup file
        we will load in memory some user preferences that we are gonna use later on.
        """
        self.setup_file = SetupFile()

        self.style = Style(
            self.setup_file.json.get("style").get("tpsLowerThreshold"),
            self.setup_file.json.get("style").get("tpsUpperThreshold"),
            self.setup_file.json.get("style").get("elapsedSeconds"),
        )

        self.iat_unit = self.setup_file.json.get("iat",
                                                 {}).get("unit", "celsius")
        self.ect_unit = self.setup_file.json.get("ect",
                                                 {}).get("unit", "celsius")
        self.vss_unit = self.setup_file.json.get("vss", {}).get("unit", "kmh")
        self.o2_unit = self.setup_file.json.get("o2", {}).get("unit", "afr")
        self.odo_unit = self.setup_file.json.get("odo", {}).get("unit", "km")
        self.map_unit = self.setup_file.json.get("map", {}).get("unit", "bar")
        self.an0_unit = self.setup_file.json.get("an0",
                                                 {}).get("unit", "volts")
        self.an1_unit = self.setup_file.json.get("an1",
                                                 {}).get("unit", "volts")
        self.an2_unit = self.setup_file.json.get("an2",
                                                 {}).get("unit", "volts")
        self.an3_unit = self.setup_file.json.get("an3",
                                                 {}).get("unit", "volts")
        self.an4_unit = self.setup_file.json.get("an4",
                                                 {}).get("unit", "volts")
        self.an5_unit = self.setup_file.json.get("an5",
                                                 {}).get("unit", "volts")
        self.an6_unit = self.setup_file.json.get("an6",
                                                 {}).get("unit", "volts")
        self.an7_unit = self.setup_file.json.get("an7",
                                                 {}).get("unit", "volts")

        self.an0_formula = self.setup_file.get_formula("an0")
        self.an1_formula = self.setup_file.get_formula("an1")
        self.an2_formula = self.setup_file.get_formula("an2")
        self.an3_formula = self.setup_file.get_formula("an3")
        self.an4_formula = self.setup_file.get_formula("an4")
        self.an5_formula = self.setup_file.get_formula("an5")
        self.an6_formula = self.setup_file.get_formula("an6")
        self.an7_formula = self.setup_file.get_formula("an7")

    def update(self):
        """ load the websocket with updated info """
        if not self.kpro.status:  # if kpro is down try to reconnect
            self.kpro.find_and_connect()
        self.odo.save(self.kpro.vss["kmh"])
        self.style.update(self.kpro.tps)
        publish(
            "data",
            {
                "bat": self.kpro.bat,
                "gear": self.kpro.gear,
                "iat": self.kpro.iat[self.iat_unit],
                "tps": self.kpro.tps,
                "ect": self.kpro.ect[self.ect_unit],
                "rpm": self.kpro.rpm,
                "vss": self.kpro.vss[self.vss_unit],
                "o2": self.kpro.o2[self.o2_unit],
                "cam": self.kpro.cam,
                "mil": self.kpro.mil,
                "fan": self.kpro.fanc,
                "bksw": self.kpro.bksw,
                "flr": self.kpro.flr,
                "eth": self.kpro.eth,
                "scs": self.kpro.scs,
                "fmw": self.kpro.firmware,
                "map": self.kpro.map[self.map_unit],
                "an0": self.an0_formula(
                    self.kpro.analog_input(0))[self.an0_unit],
                "an1": self.an1_formula(
                    self.kpro.analog_input(1))[self.an1_unit],
                "an2": self.an2_formula(
                    self.kpro.analog_input(2))[self.an2_unit],
                "an3": self.an3_formula(
                    self.kpro.analog_input(3))[self.an3_unit],
                "an4": self.an4_formula(
                    self.kpro.analog_input(4))[self.an4_unit],
                "an5": self.an5_formula(
                    self.kpro.analog_input(5))[self.an5_unit],
                "an6": self.an6_formula(
                    self.kpro.analog_input(6))[self.an6_unit],
                "an7": self.an7_formula(
                    self.kpro.analog_input(7))[self.an7_unit],
                "time": self.time.get_time(),
                "odo": self.odo.get_mileage()[self.odo_unit],
                "style": self.style.status,
                "ver": __version__,
            },
        )

    def _setup(self):
        return self.setup_file.load_setup()

    def _save(self, new_setup):
        self.setup_file.save_setup(new_setup)
        self.setup_file.rotate_screen(new_setup["screen"]["rotate"])
        publish(
            "refresh")  # refresh the frontend so the new changes are applied
        self._load_user_preferences()  # refresh the backend too

    def _reset(self):
        self.setup_file.reset_setup()
        publish(
            "refresh")  # refresh the frontend so the new changes are applied
        self._load_user_preferences()  # refresh the backend too

    @classmethod
    def get(cls):
        """ get the running instance of Backend class or instantiate it for first time """
        if cls._instance is None:
            cls._instance = cls()
        return cls._instance

    @classmethod
    def setup(cls):
        return cls.get()._setup()

    @classmethod
    def save(cls, new_setup):
        cls.get()._save(new_setup)

    @classmethod
    def reset(cls):
        cls.get()._reset()
Esempio n. 5
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class Backend:
    def __init__(self):
        self._load_user_preferences()
        self._init_resources()
        self._init_websocket()

    def stop(self):
        self.websocket.stop()

    def _init_websocket(self):
        self.websocket = Websocket(self)

    def _init_resources(self):
        self.time = Time()
        self.odo = Odometer()
        self.kpro = Kpro()

    def _load_user_preferences(self):
        """
        In order to read only once from the setup file
        we will load in memory some user preferences that we are gonna use later on.
        """
        self.setup_file = SetupFile()

        self.style = Style(
            self.setup_file.json.get("style").get("tpsLowerThreshold"),
            self.setup_file.json.get("style").get("tpsUpperThreshold"),
            self.setup_file.json.get("style").get("elapsedSeconds"),
        )

        self.iat_unit = self.setup_file.json.get("iat",
                                                 {}).get("unit", "celsius")
        self.ect_unit = self.setup_file.json.get("ect",
                                                 {}).get("unit", "celsius")
        self.vss_unit = self.setup_file.json.get("vss", {}).get("unit", "kmh")
        self.o2_unit = self.setup_file.json.get("o2", {}).get("unit", "afr")
        self.odo_unit = self.setup_file.json.get("odo", {}).get("unit", "km")
        self.map_unit = self.setup_file.json.get("map", {}).get("unit", "bar")
        self.an0_unit = self.setup_file.json.get("an0",
                                                 {}).get("unit", "volts")
        self.an1_unit = self.setup_file.json.get("an1",
                                                 {}).get("unit", "volts")
        self.an2_unit = self.setup_file.json.get("an2",
                                                 {}).get("unit", "volts")
        self.an3_unit = self.setup_file.json.get("an3",
                                                 {}).get("unit", "volts")
        self.an4_unit = self.setup_file.json.get("an4",
                                                 {}).get("unit", "volts")
        self.an5_unit = self.setup_file.json.get("an5",
                                                 {}).get("unit", "volts")
        self.an6_unit = self.setup_file.json.get("an6",
                                                 {}).get("unit", "volts")
        self.an7_unit = self.setup_file.json.get("an7",
                                                 {}).get("unit", "volts")

        self.an0_formula = self.setup_file.get_formula("an0")
        self.an1_formula = self.setup_file.get_formula("an1")
        self.an2_formula = self.setup_file.get_formula("an2")
        self.an3_formula = self.setup_file.get_formula("an3")
        self.an4_formula = self.setup_file.get_formula("an4")
        self.an5_formula = self.setup_file.get_formula("an5")
        self.an6_formula = self.setup_file.get_formula("an6")
        self.an7_formula = self.setup_file.get_formula("an7")

    def update(self):
        """ load the websocket with updated info """
        if not self.kpro.status:  # if kpro is down try to reconnect
            self.kpro.find_and_connect()
        self.odo.save(self.kpro.vss["kmh"])
        self.style.update(self.kpro.tps)
        return {
            "bat": self.kpro.bat,
            "gear": self.kpro.gear,
            "iat": self.kpro.iat[self.iat_unit],
            "tps": self.kpro.tps,
            "ect": self.kpro.ect[self.ect_unit],
            "rpm": self.kpro.rpm,
            "vss": self.kpro.vss[self.vss_unit],
            "o2": self.kpro.o2[self.o2_unit],
            "cam": self.kpro.cam,
            "mil": self.kpro.mil,
            "fan": self.kpro.fanc,
            "bksw": self.kpro.bksw,
            "flr": self.kpro.flr,
            "eth": self.kpro.eth,
            "scs": self.kpro.scs,
            "fmw": self.kpro.firmware,
            "map": self.kpro.map[self.map_unit],
            "an0": self.an0_formula(self.kpro.analog_input(0))[self.an0_unit],
            "an1": self.an1_formula(self.kpro.analog_input(1))[self.an1_unit],
            "an2": self.an2_formula(self.kpro.analog_input(2))[self.an2_unit],
            "an3": self.an3_formula(self.kpro.analog_input(3))[self.an3_unit],
            "an4": self.an4_formula(self.kpro.analog_input(4))[self.an4_unit],
            "an5": self.an5_formula(self.kpro.analog_input(5))[self.an5_unit],
            "an6": self.an6_formula(self.kpro.analog_input(6))[self.an6_unit],
            "an7": self.an7_formula(self.kpro.analog_input(7))[self.an7_unit],
            "time": self.time.get_time(),
            "odo": self.odo.get_mileage()[self.odo_unit],
            "style": self.style.status,
            "ver": __version__,
        }

    def setup(self):
        """Return the current setup"""
        return self.setup_file.load_setup()

    def save(self, new_setup):
        """Save a new setup"""
        self.setup_file.save_setup(new_setup)
        self.setup_file.rotate_screen(new_setup["screen"]["rotate"])
        self._load_user_preferences()  # refresh the backend too

    def reset(self):
        """Reset to the default setup"""
        self.setup_file.reset_setup()
        self._load_user_preferences()  # refresh the backend too
Esempio n. 6
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an5_unit = setup_file.json.get("an5", {}).get("unit", "volts")
an6_unit = setup_file.json.get("an6", {}).get("unit", "volts")
an7_unit = setup_file.json.get("an7", {}).get("unit", "volts")

an0_formula = setup_file.get_formula("an0")
an1_formula = setup_file.get_formula("an1")
an2_formula = setup_file.get_formula("an2")
an3_formula = setup_file.get_formula("an3")
an4_formula = setup_file.get_formula("an4")
an5_formula = setup_file.get_formula("an5")
an6_formula = setup_file.get_formula("an6")
an7_formula = setup_file.get_formula("an7")

while True:
    odo.save(kpro.vss()["kmh"])
    style.update(kpro.tps())
    publish(
        "data",
        {
            "bat": kpro.bat(),
            "gear": kpro.gear(),
            "iat": kpro.iat()[iat_unit],
            "tps": kpro.tps(),
            "ect": kpro.ect()[ect_unit],
            "rpm": kpro.rpm(),
            "vss": kpro.vss()[vss_unit],
            "o2": kpro.o2()[o2_unit],
            "cam": kpro.cam(),
            "mil": kpro.mil(),
            "fan": kpro.fanc(),
            "bksw": kpro.bksw(),