.. currentmodule:: machine
.. _machine.Timer:

class Timer -- control hardware timers
======================================

Hardware timers deal with timing of periods and events. Timers are perhaps
the most flexible and heterogeneous kind of hardware in MCUs and SoCs,
differently greatly from a model to a model. MicroPython's Timer class
defines a baseline operation of executing a callback with a given period
(or once after some delay), and allow specific boards to define more
non-standard behavior (which thus won't be portable to other boards).

See discussion of :ref:`important constraints <machine_callbacks>` on
Timer callbacks.

.. note::

    Memory can't be allocated inside irq handlers (an interrupt) and so
    exceptions raised within a handler don't give much information.  See
    :func:`micropython.alloc_emergency_exception_buf` for how to get around this
    limitation.

If you are using a WiPy board please refer to :ref:`machine.TimerWiPy <machine.TimerWiPy>`
instead of this class.

Constructors
------------

.. class:: Timer(id, ...)

   Construct a new timer object of the given id. Id of -1 constructs a
   virtual timer (if supported by a board).

Methods
-------

.. method:: Timer.init(\*, mode=Timer.PERIODIC, period=-1, callback=None)

   Initialise the timer. Example::

       tim.init(period=100)                         # periodic with 100ms period
       tim.init(mode=Timer.ONE_SHOT, period=1000)   # one shot firing after 1000ms

   Keyword arguments:

     - ``mode`` can be one of:

       - ``Timer.ONE_SHOT`` - The timer runs once until the configured
         period of the channel expires.
       - ``Timer.PERIODIC`` - The timer runs periodically at the configured
         frequency of the channel.

.. method:: Timer.deinit()

   Deinitialises the timer. Stops the timer, and disables the timer peripheral.

Constants
---------

.. data:: Timer.ONE_SHOT
          Timer.PERIODIC

   Timer operating mode.