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Co-authored-by: coderabbitai[bot] <136622811+coderabbitai[bot]@users.noreply.github.com> Co-authored-by: Jesse Hills <3060199+jesserockz@users.noreply.github.com>
559 lines
16 KiB
ReStructuredText
559 lines
16 KiB
ReStructuredText
.. _actions-triggers:
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Actions, Triggers, Conditions
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=============================
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.. seo::
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:description: Guide for building automations in ESPHome
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:image: auto-fix.svg
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ESPHome *actions* are how we make an ESPHome device *do something.*
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Let's begin with an example. Suppose you have a configuration file which contains:
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.. code-block:: yaml
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switch:
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- platform: gpio
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pin: GPIOXX
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name: "Living Room Dehumidifier"
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binary_sensor:
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- platform: gpio
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pin: GPIOXX
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name: "Living Room Dehumidifier Toggle Button"
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With this file you can already perform some basic tasks. You can control the ON/OFF state of the dehumidifier in your
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living room from Home Assistant's front-end. But in many cases, controlling everything strictly from the frontend is
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not desirable. That's why you've also installed a simple push button next to the dehumidifier wired to pin GPIOXX.
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A simple push of this button should toggle the state of the dehumidifier.
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You *could* write an automation to do this task in Home Assistant's automation engine, but IoT devices should not
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depend on network connections to perform their jobs -- especially not for something as simple as switching on/off a
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dehumidifier.
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With ESPHome's automation engine, you can define automations using a syntax that is (hopefully) about as easy to use
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as Home Assistant's. For example, this configuration would achieve your desired behavior for the dehumidifier:
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.. code-block:: yaml
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switch:
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- platform: gpio
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pin: GPIOXX
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name: "Living Room Dehumidifier"
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id: dehumidifier1
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binary_sensor:
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- platform: gpio
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pin: GPIOXX
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name: "Living Room Dehumidifier Toggle Button"
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on_press:
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then:
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- switch.toggle: dehumidifier1
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Let's step through what's happening here:
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.. code-block:: yaml
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switch:
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- platform: gpio
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# ...
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id: dehumidifier1
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First, we have to give the dehumidifier ``switch`` an :ref:`config-id` so that we can refer to it inside of our
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automation.
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.. _actions-trigger:
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Triggers
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--------
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.. code-block:: yaml
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binary_sensor:
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- platform: gpio
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# ...
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on_press:
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We now attach a special attribute ``on_press`` to the binary sensor (which represents the button). This part is called
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a "trigger". In this example, the *automation* which follows on the next few lines will execute whenever someone
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*begins* to press the button. Note the terminology follows what you would call these events on mouse buttons. A *press*
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happens when you begin pressing the button. There are also other triggers like ``on_release``, ``on_click`` or
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``on_double_click`` available.
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.. code-block:: yaml
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# ...
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on_press:
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then:
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- switch.toggle: dehumidifier1
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.. _actions-action:
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Actions
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-------
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Now comes the actual automation block. With ``then``, you tell ESPHome what should happen when the press happens.
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Within this block, you can define several "actions" that will be executed sequentially. For example, ``switch.toggle``
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and the line after that form an action. Each action is separated by a dash and multiple actions can be executed in
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sequence simply by adding another ``-`` like so:
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.. code-block:: yaml
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# ...
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on_press:
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then:
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- switch.toggle: dehumidifier1
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- delay: 2s
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- switch.toggle: dehumidifier1
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With this automation, a press of the push button would cause the dehumidifier to turn on/off for 2 seconds, and then
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cycle back to its original state. You can also have a single trigger with multiple automations:
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.. code-block:: yaml
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# ...
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on_press:
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- then:
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- switch.toggle: dehumidifier1
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- then:
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- light.toggle: dehumidifier_indicator_light
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# Same as:
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on_press:
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then:
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- switch.toggle: dehumidifier1
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- light.toggle: dehumidifier_indicator_light
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As a final example, let's make our dehumidifier "smart". Let's make it turn on automatically when
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the humidity reported by a sensor is above 65% and make it turn off again when it falls below 50%:
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.. code-block:: yaml
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sensor:
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- platform: dht
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humidity:
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name: "Living Room Humidity"
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on_value_range:
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- above: 65.0
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then:
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- switch.turn_on: dehumidifier1
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- below: 50.0
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then:
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- switch.turn_off: dehumidifier1
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temperature:
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name: "Living Room Temperature"
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That's a lot of indentation. 😉
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``on_value_range`` is a special trigger for sensors that triggers when the value of the sensor is within/above/below
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the specified range. In the first example, this range is defined as "any value above or including 65.0" and the second
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range refers to any (humidity) value 50% or below.
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Finally, for the cases where the "pure" YAML automations just don't quite reach far enough, ESPHome has another
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extremely powerful tool to offer: :doc:`templates`.
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Now that concludes the introduction to actions in ESPHome. They're a powerful tool to automate almost everything on
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your device with an easy-to-use syntax. What follows below is an index of common actions which you're sure to find
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useful (and even essential) for building all sorts of automations.
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.. _common-actions:
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Common Actions
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--------------
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.. _delay_action:
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``delay`` Action
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****************
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This action delays the execution of the next action in the action list by a specified
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time period.
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.. code-block:: yaml
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on_...:
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then:
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- switch.turn_on: relay_1
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- delay: 2s
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- switch.turn_off: relay_1
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# Templated, waits for 1s (1000ms) only if a reed switch is active
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- delay: !lambda "if (id(reed_switch).state) return 1000; else return 0;"
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.. note::
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This is a "smart" asynchronous delay - other code will still run in the background while
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the delay is happening. When using a lambda call, you should return the delay value in milliseconds.
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.. _if_action:
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``if`` Action
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*************
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This action first evaluated a certain condition (``if:``) and then either
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executes the ``then:`` branch or the ``else:`` branch depending on the output of the condition.
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After the chosen branch (``then`` or ``else``) is done with execution, the next action is performed.
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For example below you can see an automation that checks if a sensor value is below 30 and if so
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turns on a light for 5 seconds. Otherwise, the light is turned off immediately.
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.. code-block:: yaml
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on_...:
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then:
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- if:
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condition:
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lambda: 'return id(some_sensor).state < 30;'
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then:
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- logger.log: "The sensor value is below 30!"
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- light.turn_on: my_light
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- delay: 5s
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else:
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- logger.log: "The sensor value is above 30!"
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- light.turn_off: my_light
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Configuration variables:
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- **condition** (**Required**, :ref:`Condition <config-condition>`): The condition to check to determine which branch to take.
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- **then** (*Optional*, :ref:`Action <config-action>`): The action to perform if the condition evaluates to true.
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Defaults to doing nothing.
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- **else** (*Optional*, :ref:`Action <config-action>`): The action to perform if the condition evaluates to false.
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Defaults to doing nothing.
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.. _lambda_action:
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``lambda`` Action
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*****************
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This action executes an arbitrary piece of C++ code (see :ref:`Lambda <config-lambda>`).
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.. code-block:: yaml
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on_...:
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then:
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- lambda: |-
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id(some_binary_sensor).publish_state(false);
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.. _repeat_action:
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``repeat`` Action
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*****************
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This action allows you to repeat a block a given number of times.
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For example, the automation below will flash the light five times.
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.. code-block:: yaml
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on_...:
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- repeat:
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count: 5
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then:
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- light.turn_on: some_light
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- delay: 1s
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- light.turn_off: some_light
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- delay: 10s
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Configuration variables:
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- **count** (**Required**, int): The number of times the action should be repeated.
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- **then** (**Required**, :ref:`Action <config-action>`): The action to repeat.
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.. _wait_until_action:
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``wait_until`` Action
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*********************
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This action allows your automations to wait until a condition evaluates to true. (So this is just
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a shorthand way of writing a ``while`` action with an empty ``then`` block.)
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.. code-block:: yaml
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# In a trigger:
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on_...:
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- logger.log: "Waiting for binary sensor"
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- wait_until:
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binary_sensor.is_on: some_binary_sensor
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- logger.log: "Binary sensor is ready"
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If you want to use a timeout, the term "condition" is required:
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.. code-block:: yaml
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# In a trigger:
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on_...:
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- logger.log: "Waiting for binary sensor"
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- wait_until:
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condition:
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binary_sensor.is_on: some_binary_sensor
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timeout: 8s
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- logger.log: "Binary sensor might be ready"
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Configuration variables:
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- **condition** (**Required**, :ref:`Condition <config-condition>`): The condition to wait to become true.
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- **timeout** (*Optional*, :ref:`config-time`): Time to wait before timing out. Defaults to never timing out.
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.. _while_action:
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``while`` Action
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****************
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This action is similar to the :ref:`if <if_action>` Action. The ``while`` action loops
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through a block as long as the given condition is true.
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.. code-block:: yaml
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# In a trigger:
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on_...:
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- while:
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condition:
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binary_sensor.is_on: some_binary_sensor
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then:
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- logger.log: "Still executing"
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- light.toggle: some_light
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- delay: 5s
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Configuration variables:
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- **condition** (**Required**, :ref:`Condition <config-condition>`): The condition to check to determine whether or not to execute.
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- **then** (**Required**, :ref:`Action <config-action>`): The action to perform until the condition evaluates to false.
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.. _component-update_action:
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``component.update`` Action
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***************************
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Using this action you can manually call the ``update()`` method of a component.
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Please note that this only works with some component types and others will result in a
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compile error.
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.. code-block:: yaml
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on_...:
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then:
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- component.update: my_component
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# The same as:
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- lambda: 'id(my_component).update();'
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.. _component-suspend_action:
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``component.suspend`` Action
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****************************
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Using this action you can manually call the ``stop_poller()`` method of a component.
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After this action the component will stop being refreshed.
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While the poller is suspendend, it's still possible to trigger on-demand updates by
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using :ref:`component.update <component-update_action>`
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Please note that this only works with PollingComponent types and others will result in a
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compile error.
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.. code-block:: yaml
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on_...:
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then:
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- component.suspend: my_component
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# The same as:
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- lambda: 'id(my_component).stop_poller();'
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.. _component-resume_action:
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``component.resume`` Action
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***************************
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Using this action you can manually call the ``start_poller()`` method of a component.
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After this action the component will refresh at the original update_interval rate
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This will allow the component to resume automatic update at the defined interval.
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This action also allows to change the update interval, calling it without suspend,
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replace the poller directly.
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Please note that this only works with PollingComponent types and others will result in a
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compile error.
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.. code-block:: yaml
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on_...:
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then:
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- component.resume: my_component
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# The same as:
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- lambda: 'id(my_component).start_poller();'
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# Change the poller interval
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on_...:
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then:
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- component.resume:
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id: my_component
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update_interval: 15s
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.. _common_conditions:
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Common Conditions
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-----------------
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"Conditions" provide a way for your device to take an action only when a specific (set of) condition(s) is satisfied.
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.. _and_condition:
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.. _or_condition:
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.. _xor_condition:
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.. _not_condition:
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``and`` / ``or`` / ``xor`` / ``not`` Condition
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**********************************************
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Check a combination of conditions
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.. code-block:: yaml
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on_...:
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then:
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- if:
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condition:
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# Same syntax for `and` as well as `xor` conditions
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or:
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- binary_sensor.is_on: some_binary_sensor
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- binary_sensor.is_on: other_binary_sensor
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# ...
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- if:
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condition:
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not:
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binary_sensor.is_off: some_binary_sensor
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.. _for_condition:
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``for`` Condition
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*****************
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Allows you to check if a given condition has been true for at least a given amount of time.
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.. code-block:: yaml
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on_...:
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if:
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condition:
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for:
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time: 5min
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condition:
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api.connected:
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then:
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- logger.log: API has stayed connected for at least 5 minutes!
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Configuration variables:
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- **time** (**Required**, :ref:`templatable <config-templatable>`, :ref:`config-time`):
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The time for which the condition has to have been true.
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- **condition** (**Required**, :ref:`condition<config-condition>`): The condition to check.
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.. _lambda_condition:
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``lambda`` Condition
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********************
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This condition performs an arbitrary piece of C++ code (see :ref:`Lambda <config-lambda>`)
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and can be used to create conditional flow in actions.
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.. code-block:: yaml
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on_...:
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then:
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- if:
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condition:
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# Should return either true or false
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lambda: |-
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return id(some_sensor).state < 30;
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# ...
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.. _config-action:
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All Actions
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-----------
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*See the respective component's page(s) for more detail.*
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See also: :ref:`common-actions`.
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.. include:: all_actions.rst
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.. _config-condition:
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All Conditions
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--------------
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*See the respective component's page(s) for more detail.*
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See also: :ref:`common_conditions`.
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.. include:: all_conditions.rst
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.. _tips-and-tricks:
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Tips and Tricks
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---------------
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.. _automation-networkless:
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Do Automations Work Without a Network Connection
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************************************************
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This is a common question and the answer is **YES!** All automations you define in ESPHome are executed on the
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microcontroller itself and will continue to work even if the Wi-Fi network is down or the MQTT server is not reachable.
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There is one caveat though: ESPHome will automatically reboot periodically if no connection is made to its API. This
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helps in the event that there is an issue in the device's network stack preventing it from being reachable on the
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network. You can adjust this behavior (or even disable automatic rebooting) using the ``reboot_timeout`` option in any
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of the following components:
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- :doc:`/components/wifi`
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- :doc:`/components/api`
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- :doc:`/components/mqtt`
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Beware, however, that disabling the reboot timeout(s) effectively disables the reboot watchdog, so you will need to
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power-cycle the device if it proves to be/remain unreachable on the network.
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.. _timers-timeouts:
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Timers and Timeouts
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*******************
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While ESPHome does not provide a construction for timers, you can easily implement them by
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combining ``script`` and ``delay``. You can have an absolute timeout or sliding timeout by
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using script modes ``single`` and ``restart`` respectively.
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.. code-block:: yaml
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script:
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- id: hallway_light_script
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mode: restart # Light will be kept on during 1 minute since
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# the latest time the script is executed
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then:
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- light.turn_on: hallway_light
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- delay: 1 min
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- light.turn_off: hallway_light
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...
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on_...: # can be called from different wall switches
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- script.execute: hallway_light_script
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Sometimes you'll also need a timer which does not perform any action; in this case, you can use a single ``delay``
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action and then (in your automation) use the ``script.is_running`` condition to know if your "timer" is active or not.
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See Also
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--------
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- :doc:`index`
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- :doc:`templates`
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- :ghedit:`Edit`
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