smart_brain/function/modules.py

#!/usr/bin/env python
# -*- coding: utf-8 -*-
#

import devices
import logging
import task

try:
    from config import APP_NAME as ROOT_LOGGER_NAME
except ImportError:
    ROOT_LOGGER_NAME = 'root'
logger = logging.getLogger(ROOT_LOGGER_NAME).getChild(__name__)


class brightness_choose_n_action(object):
    def __init__(self, mqtt_client, button_tradfri, topic_led):
        self.gui_led_active_device = devices.nodered_gui_leds(mqtt_client, topic_led)
        # brightness change
        button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION,
                                    devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_LONG, self.brightness_action)
        button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION, devices.tradfri_button.ACTION_BRIGHTNESS_UP_LONG, self.brightness_action)
        button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION,
                                    devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_RELEASE, self.brightness_action)
        button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION,
                                    devices.tradfri_button.ACTION_BRIGHTNESS_UP_RELEASE, self.brightness_action)
        # device change
        button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION, devices.tradfri_button.ACTION_BRIGHTNESS_UP, self.choose_next_device)
        button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION, devices.tradfri_button.ACTION_BRIGHTNESS_DOWN, self.choose_prev_device)
        #
        self.brightness_device_list = []
        self.callback_device_list = []
        self.device_states = []
        self.active_device_state = None
        self.update_active_device_led()

    def add(self, brightness_device, callback_device, callback_key):
        """
        brightness_device: A device for brightness function needs to have the following methods:
        * .default_inc()
        * .default_dec()
        * .default_stop()
        callback_device: A device for installing callback which are executed, when the device is switched on or off. It needs the following method:
        * .add_callback(key, data or None, callback, on_changes_only)
        """
        if len(self.brightness_device_list) >= len(devices.nodered_gui_leds.RX_KEYS):
            raise ValueError("Number of devices is limited by number of leds in devices.nodered_gui_leds.")
        self.brightness_device_list.append(brightness_device)
        self.callback_device_list.append((callback_device, callback_key))
        self.device_states.append(False)
        callback_device.add_callback(callback_key, True, self.device_state_action, True)
        callback_device.add_callback(callback_key, False, self.device_state_action, True)

    def device_state_action(self, device, key, data):
        self.device_states[self.callback_device_list.index((device, key))] = data
        if data is True:
            self.active_device_state = self.callback_device_list.index((device, key))
            self.update_active_device_led()
        else:
            self.choose_next_device()

    def update_active_device_led(self):
        for i in range(0, len(self.brightness_device_list)):
            self.gui_led_active_device.set_led(devices.nodered_gui_leds.RX_KEYS[i], self.active_device_state == i)

    def choose_prev_device(self, device=None, key=None, data=None):
        if self.active_device_state is not None:
            start_value = self.active_device_state
            for i in range(0, len(self.brightness_device_list)):
                target_state = (start_value - i - 1) % (len(self.brightness_device_list))
                if self.device_states[target_state]:
                    self.active_device_state = target_state
                    self.update_active_device_led()
                    return
        self.active_device_state = None
        self.update_active_device_led()

    def choose_next_device(self, device=None, key=None, data=None):
        if self.active_device_state is not None:
            start_value = self.active_device_state
            for i in range(0, len(self.brightness_device_list)):
                target_state = (start_value + i + 1) % (len(self.brightness_device_list))
                if self.device_states[target_state]:
                    self.active_device_state = target_state
                    self.update_active_device_led()
                    return
        self.active_device_state = None
        self.update_active_device_led()

    def brightness_action(self, device, key, data):
        if self.active_device_state is not None:
            target = self.brightness_device_list[self.active_device_state]
            if data == devices.tradfri_button.ACTION_BRIGHTNESS_UP_LONG:
                logger.info("Increasing \"%s\" - %s", type(self).__name__, target.topic)
                target.default_inc()
            elif data == devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_LONG:
                logger.info("Decreasing \"%s\" - %s", type(self).__name__, target.topic)
                target.default_dec()
            elif data in [devices.tradfri_button.ACTION_BRIGHTNESS_UP_RELEASE, devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_RELEASE]:
                target.default_stop()


class heating_function_brennenstuhl(object):
    RETURN_TO_DEFAULT_TIME = 45 * 60
    BOOST_TEMP_OFFSET = 5

    def __init__(self, mqtt_client, topic_valve, default_temperature, topic_boost, topic_setpoint, topic_led):
        self.ct = task.periodic(1, self.cyclic_task)
        #
        self.topic = topic_valve
        self.default_temperature = default_temperature
        #
        self.heating_valve = devices.brennenstuhl_heatingvalve(mqtt_client, topic_valve)
        self.heating_valve.set_heating_setpoint(self.default_temperature)
        self.heating_valve.add_callback(
            devices.brennenstuhl_heatingvalve.KEY_HEATING_SETPOINT, None, self.heating_setpoint_actions)

        self.gui_value_temp_setp = devices.nodered_gui_heatvalve(mqtt_client, topic_setpoint)
        self.gui_value_temp_setp.add_callback(
            devices.nodered_gui_heatvalve.KEY_HEATING_SETPOINT, None, self.heating_setpoint_actions)

        self.gui_button_boost = devices.nodered_gui_heatvalve(mqtt_client, topic_boost)
        self.gui_button_boost.add_callback(None, None, self.boost_actions)

        self.gui_led_boost = devices.nodered_gui_heatvalve(mqtt_client, topic_led)

        #
        self.return_to_default_timer = None
        self.return_to_default_setpoint = None
        self.gui_led_boost.set_feedback(False)
        #
        self.ct.run()

    def heating_setpoint_actions(self, device, key, data):
        if device.topic == self.heating_valve.topic:
            # valve setpoint action
            self.gui_value_temp_setp.set_feedback(data)
            if data > self.default_temperature:
                if data != self.return_to_default_setpoint:
                    logger.info('Got heating setpoint (%.1f°C) \"%s\" with deviation to the default value (%.1f°C). Starting timer for returning to default.',
                                data, self.topic, self.default_temperature)
                    self.return_to_default_timer = self.RETURN_TO_DEFAULT_TIME
                    self.return_to_default_setpoint = data
                    self.gui_led_boost.set_feedback(True)
            else:
                if self.return_to_default_timer is not None:
                    logger.info('Deleting timer \"%s\" for returning to default.', self.topic)
                self.return_to_default_timer = None
                self.return_to_default_setpoint = None
                self.gui_led_boost.set_feedback(False)
        elif device.topic == self.gui_value_temp_setp.topic:
            # user setpoint action
            logger.info('Setpoint change \"%s\" to %.1f°C', self.topic, data)
            self.default_temperature = data
            self.heating_valve.set_heating_setpoint(self.default_temperature)
            self.return_to_default_timer = None
            self.return_to_default_setpoint = None
            self.gui_led_boost.set_feedback(False)

    def boost_actions(self, davice, key, data):
        logger.info('Starting boost mode \"%s\" with setpoint %.1f°C.', self.topic, self.default_temperature + self.BOOST_TEMP_OFFSET)
        self.heating_valve.set_heating_setpoint(self.default_temperature + self.BOOST_TEMP_OFFSET)

    def cyclic_task(self, rt):
        if self.return_to_default_timer is not None:
            self.return_to_default_timer -= self.ct.cycle_time
            if self.return_to_default_timer <= 0:
                logger.info('Return to default timer expired \"%s\".', self.topic)
                self.heating_valve.set_heating_setpoint(self.default_temperature)
                self.return_to_default_timer = None
                self.return_to_default_setpoint = None
                self.gui_led_boost.set_feedback(False)
heating functionality addad (sleep_madi) 2022-12-21 14:26:35 +01:00			`#!/usr/bin/env python`
			`# -- coding: utf-8 --`
			`#`

			`import devices`
			`import logging`
			`import task`

			`try:`
			`from config import APP_NAME as ROOT_LOGGER_NAME`
			`except ImportError:`
			`ROOT_LOGGER_NAME = 'root'`
			`logger = logging.getLogger(ROOT_LOGGER_NAME).getChild(__name__)`


brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`class brightness_choose_n_action(object):`
			`def __init__(self, mqtt_client, button_tradfri, topic_led):`
			`self.gui_led_active_device = devices.nodered_gui_leds(mqtt_client, topic_led)`
			`# brightness change`
			`button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION,`
			`devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_LONG, self.brightness_action)`
			`button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION, devices.tradfri_button.ACTION_BRIGHTNESS_UP_LONG, self.brightness_action)`
			`button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION,`
			`devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_RELEASE, self.brightness_action)`
			`button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION,`
			`devices.tradfri_button.ACTION_BRIGHTNESS_UP_RELEASE, self.brightness_action)`
			`# device change`
			`button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION, devices.tradfri_button.ACTION_BRIGHTNESS_UP, self.choose_next_device)`
			`button_tradfri.add_callback(devices.tradfri_button.KEY_ACTION, devices.tradfri_button.ACTION_BRIGHTNESS_DOWN, self.choose_prev_device)`
			`#`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`self.brightness_device_list = []`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`self.callback_device_list = []`
			`self.device_states = []`
			`self.active_device_state = None`
			`self.update_active_device_led()`

bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`def add(self, brightness_device, callback_device, callback_key):`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`"""`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`brightness_device: A device for brightness function needs to have the following methods:`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`* .default_inc()`
			`* .default_dec()`
			`* .default_stop()`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`callback_device: A device for installing callback which are executed, when the device is switched on or off. It needs the following method:`
			`* .add_callback(key, data or None, callback, on_changes_only)`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`"""`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`if len(self.brightness_device_list) >= len(devices.nodered_gui_leds.RX_KEYS):`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`raise ValueError("Number of devices is limited by number of leds in devices.nodered_gui_leds.")`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`self.brightness_device_list.append(brightness_device)`
			`self.callback_device_list.append((callback_device, callback_key))`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`self.device_states.append(False)`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`callback_device.add_callback(callback_key, True, self.device_state_action, True)`
			`callback_device.add_callback(callback_key, False, self.device_state_action, True)`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00
			`def device_state_action(self, device, key, data):`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`self.device_states[self.callback_device_list.index((device, key))] = data`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`if data is True:`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`self.active_device_state = self.callback_device_list.index((device, key))`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`self.update_active_device_led()`
			`else:`
			`self.choose_next_device()`

			`def update_active_device_led(self):`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`for i in range(0, len(self.brightness_device_list)):`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`self.gui_led_active_device.set_led(devices.nodered_gui_leds.RX_KEYS[i], self.active_device_state == i)`

			`def choose_prev_device(self, device=None, key=None, data=None):`
			`if self.active_device_state is not None:`
			`start_value = self.active_device_state`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`for i in range(0, len(self.brightness_device_list)):`
			`target_state = (start_value - i - 1) % (len(self.brightness_device_list))`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`if self.device_states[target_state]:`
			`self.active_device_state = target_state`
			`self.update_active_device_led()`
			`return`
			`self.active_device_state = None`
			`self.update_active_device_led()`

			`def choose_next_device(self, device=None, key=None, data=None):`
			`if self.active_device_state is not None:`
			`start_value = self.active_device_state`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`for i in range(0, len(self.brightness_device_list)):`
			`target_state = (start_value + i + 1) % (len(self.brightness_device_list))`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`if self.device_states[target_state]:`
			`self.active_device_state = target_state`
			`self.update_active_device_led()`
			`return`
			`self.active_device_state = None`
			`self.update_active_device_led()`

			`def brightness_action(self, device, key, data):`
			`if self.active_device_state is not None:`
bug-fix for brightness_choose_n_action 2022-12-28 14:52:24 +01:00			`target = self.brightness_device_list[self.active_device_state]`
brightness functionality extracted to function.modules 2022-12-27 11:29:39 +01:00			`if data == devices.tradfri_button.ACTION_BRIGHTNESS_UP_LONG:`
			`logger.info("Increasing \"%s\" - %s", type(self).__name__, target.topic)`
			`target.default_inc()`
			`elif data == devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_LONG:`
			`logger.info("Decreasing \"%s\" - %s", type(self).__name__, target.topic)`
			`target.default_dec()`
			`elif data in [devices.tradfri_button.ACTION_BRIGHTNESS_UP_RELEASE, devices.tradfri_button.ACTION_BRIGHTNESS_DOWN_RELEASE]:`
			`target.default_stop()`


heating functionality addad (sleep_madi) 2022-12-21 14:26:35 +01:00			`class heating_function_brennenstuhl(object):`
			`RETURN_TO_DEFAULT_TIME = 45 * 60`
			`BOOST_TEMP_OFFSET = 5`

			`def __init__(self, mqtt_client, topic_valve, default_temperature, topic_boost, topic_setpoint, topic_led):`
			`self.ct = task.periodic(1, self.cyclic_task)`
			`#`
			`self.topic = topic_valve`
			`self.default_temperature = default_temperature`
			`#`
			`self.heating_valve = devices.brennenstuhl_heatingvalve(mqtt_client, topic_valve)`
			`self.heating_valve.set_heating_setpoint(self.default_temperature)`
			`self.heating_valve.add_callback(`
			`devices.brennenstuhl_heatingvalve.KEY_HEATING_SETPOINT, None, self.heating_setpoint_actions)`

restructuring devices.nodered_gui* and the nodered_gui topics 2022-12-25 16:31:22 +01:00			`self.gui_value_temp_setp = devices.nodered_gui_heatvalve(mqtt_client, topic_setpoint)`
heating functionality addad (sleep_madi) 2022-12-21 14:26:35 +01:00			`self.gui_value_temp_setp.add_callback(`
restructuring devices.nodered_gui* and the nodered_gui topics 2022-12-25 16:31:22 +01:00			`devices.nodered_gui_heatvalve.KEY_HEATING_SETPOINT, None, self.heating_setpoint_actions)`
heating functionality addad (sleep_madi) 2022-12-21 14:26:35 +01:00
restructuring devices.nodered_gui* and the nodered_gui topics 2022-12-25 16:31:22 +01:00			`self.gui_button_boost = devices.nodered_gui_heatvalve(mqtt_client, topic_boost)`
heating functionality addad (sleep_madi) 2022-12-21 14:26:35 +01:00			`self.gui_button_boost.add_callback(None, None, self.boost_actions)`

restructuring devices.nodered_gui* and the nodered_gui topics 2022-12-25 16:31:22 +01:00			`self.gui_led_boost = devices.nodered_gui_heatvalve(mqtt_client, topic_led)`
heating functionality addad (sleep_madi) 2022-12-21 14:26:35 +01:00
			`#`
			`self.return_to_default_timer = None`
			`self.return_to_default_setpoint = None`
			`self.gui_led_boost.set_feedback(False)`
			`#`
			`self.ct.run()`

			`def heating_setpoint_actions(self, device, key, data):`
			`if device.topic == self.heating_valve.topic:`
			`# valve setpoint action`
			`self.gui_value_temp_setp.set_feedback(data)`
			`if data > self.default_temperature:`
			`if data != self.return_to_default_setpoint:`
			`logger.info('Got heating setpoint (%.1f°C) \"%s\" with deviation to the default value (%.1f°C). Starting timer for returning to default.',`
			`data, self.topic, self.default_temperature)`
			`self.return_to_default_timer = self.RETURN_TO_DEFAULT_TIME`
			`self.return_to_default_setpoint = data`
			`self.gui_led_boost.set_feedback(True)`
			`else:`
			`if self.return_to_default_timer is not None:`
			`logger.info('Deleting timer \"%s\" for returning to default.', self.topic)`
			`self.return_to_default_timer = None`
			`self.return_to_default_setpoint = None`
			`self.gui_led_boost.set_feedback(False)`
			`elif device.topic == self.gui_value_temp_setp.topic:`
			`# user setpoint action`
			`logger.info('Setpoint change \"%s\" to %.1f°C', self.topic, data)`
			`self.default_temperature = data`
			`self.heating_valve.set_heating_setpoint(self.default_temperature)`
			`self.return_to_default_timer = None`
			`self.return_to_default_setpoint = None`
			`self.gui_led_boost.set_feedback(False)`

			`def boost_actions(self, davice, key, data):`
restructuring devices.nodered_gui* and the nodered_gui topics 2022-12-25 16:31:22 +01:00			`logger.info('Starting boost mode \"%s\" with setpoint %.1f°C.', self.topic, self.default_temperature + self.BOOST_TEMP_OFFSET)`
heating functionality addad (sleep_madi) 2022-12-21 14:26:35 +01:00			`self.heating_valve.set_heating_setpoint(self.default_temperature + self.BOOST_TEMP_OFFSET)`

			`def cyclic_task(self, rt):`
			`if self.return_to_default_timer is not None:`
			`self.return_to_default_timer -= self.ct.cycle_time`
			`if self.return_to_default_timer <= 0:`
			`logger.info('Return to default timer expired \"%s\".', self.topic)`
			`self.heating_valve.set_heating_setpoint(self.default_temperature)`
			`self.return_to_default_timer = None`
			`self.return_to_default_setpoint = None`
			`self.gui_led_boost.set_feedback(False)`