2016-04-26 23:29:14 +01:00
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:mod:`utime` -- time related functions
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2016-04-27 12:11:27 +01:00
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======================================
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2014-10-31 01:37:19 +00:00
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2016-04-26 23:29:14 +01:00
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.. module:: utime
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2014-10-31 01:37:19 +00:00
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:synopsis: time related functions
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2016-04-26 23:29:14 +01:00
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The ``utime`` module provides functions for getting the current time and date,
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2016-04-30 23:48:30 +01:00
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measuring time intervals, and for delays.
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2014-10-31 01:37:19 +00:00
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2016-04-30 22:16:47 +01:00
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**Time Epoch**: Unix port uses standard for POSIX systems epoch of
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1970-01-01 00:00:00 UTC. However, embedded ports use epoch of
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2000-01-01 00:00:00 UTC.
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**Maintaining actual calendar date/time**: This requires a
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Real Time Clock (RTC). On systems with underlying OS (including some
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RTOS), an RTC may be implicit. Setting and maintaining actual calendar
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time is responsibility of OS/RTOS and is done outside of MicroPython,
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it just uses OS API to query date/time. On baremetal ports however
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system time depends on ``machine.RTC()`` object. The current calendar time
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may be set using ``machine.RTC().datetime(tuple)`` function, and maintained
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by following means:
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* By a backup battery (which may be an additional, optional component for
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a particular board).
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* Using networked time protocol (requires setup by a port/user).
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* Set manually by a user on each power-up (many boards then maintain
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RTC time across hard resets, though some may require setting it again
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in such case).
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If actual calendar time is not maintained with a system/MicroPython RTC,
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functions below which require reference to current absolute time may
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behave not as expected.
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2014-10-31 01:37:19 +00:00
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Functions
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---------
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.. function:: localtime([secs])
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2016-04-30 22:16:47 +01:00
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Convert a time expressed in seconds since the Epoch (see above) into an 8-tuple which
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contains: (year, month, mday, hour, minute, second, weekday, yearday)
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If secs is not provided or None, then the current time from the RTC is used.
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2016-04-30 22:16:47 +01:00
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* year includes the century (for example 2014).
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* month is 1-12
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* mday is 1-31
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* hour is 0-23
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* minute is 0-59
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* second is 0-59
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* weekday is 0-6 for Mon-Sun
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* yearday is 1-366
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.. function:: mktime()
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This is inverse function of localtime. It's argument is a full 8-tuple
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which expresses a time as per localtime. It returns an integer which is
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the number of seconds since Jan 1, 2000.
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2016-04-27 12:30:59 +01:00
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.. only:: port_unix or port_pyboard or port_esp8266
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2015-06-10 22:29:56 +01:00
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.. function:: sleep(seconds)
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Sleep for the given number of seconds. Seconds can be a floating-point number to
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sleep for a fractional number of seconds. Note that other MicroPython ports may
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not accept floating-point argument, for compatibility with them use ``sleep_ms()``
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and ``sleep_us()`` functions.
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2016-04-27 12:30:59 +01:00
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.. only:: port_wipy
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.. function:: sleep(seconds)
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Sleep for the given number of seconds.
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2016-04-27 12:30:59 +01:00
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.. only:: port_unix or port_pyboard or port_wipy or port_esp8266
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2015-10-14 11:32:01 +01:00
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.. function:: sleep_ms(ms)
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Delay for given number of milliseconds, should be positive or 0.
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.. function:: sleep_us(us)
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Delay for given number of microseconds, should be positive or 0
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.. function:: ticks_ms()
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Returns an increasing millisecond counter with arbitrary reference point,
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that wraps after some (unspecified) value. The value should be treated as
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opaque, suitable for use only with ticks_diff().
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.. function:: ticks_us()
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Just like ``ticks_ms`` above, but in microseconds.
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2016-10-30 20:15:28 +00:00
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.. function:: ticks_cpu()
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Similar to ``ticks_ms`` and ``ticks_us``, but with the highest possible resolution
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in the system. This is usually CPU clocks, and that's why the function is named that
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way. But it doesn't have to a CPU clock, some other timing source available in a
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system (e.g. high-resolution timer) can be used instead. The exact timing unit
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(resolution) of this function is not specified on ``utime`` module level, but
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documentation for a specific port may provide more specific information. This
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function is intended for very fine benchmarking or very tight real-time loops.
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Avoid using it in portable code.
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Availability: Not every port implement this function.
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2015-10-14 11:32:01 +01:00
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2016-04-27 12:30:59 +01:00
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.. only:: port_unix or port_pyboard or port_wipy or port_esp8266
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2015-10-14 11:32:01 +01:00
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.. function:: ticks_diff(old, new)
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Measure period between consecutive calls to ticks_ms(), ticks_us(), or ticks_cpu().
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The value returned by these functions may wrap around at any time, so directly
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subtracting them is not supported. ticks_diff() should be used instead. "old" value should
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actually precede "new" value in time, or result is undefined. This function should not be
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used to measure arbitrarily long periods of time (because ticks_*() functions wrap around
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and usually would have short period). The expected usage pattern is implementing event
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polling with timeout::
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# Wait for GPIO pin to be asserted, but at most 500us
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start = time.ticks_us()
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while pin.value() == 0:
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if time.ticks_diff(start, time.ticks_us()) > 500:
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raise TimeoutError
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2014-10-31 01:37:19 +00:00
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.. function:: time()
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2016-04-30 22:16:47 +01:00
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Returns the number of seconds, as an integer, since the Epoch, assuming that underlying
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RTC is set and maintained as described above. If an RTC is not set, this function returns
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number of seconds since a port-specific reference point in time (for embedded boards without
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a battery-backed RTC, usually since power up or reset). If you want to develop portable
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MicroPython application, you should not rely on this function to provide higher than second
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precision. If you need higher precision, use ``ticks_ms()`` and ``ticks_us()`` functions,
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if you need calendar time, ``localtime()`` without an argument is a better choice.
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2016-04-27 13:23:11 +01:00
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2016-04-27 13:43:48 +01:00
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.. admonition:: Difference to CPython
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:class: attention
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2016-04-27 13:43:48 +01:00
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In CPython, this function returns number of
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seconds since Unix epoch, 1970-01-01 00:00 UTC, as a floating-point,
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usually having microsecond precision. With MicroPython, only Unix port
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uses the same Epoch, and if floating-point precision allows,
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returns sub-second precision. Embedded hardware usually doesn't have
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floating-point precision to represent both long time ranges and subsecond
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precision, so they use integer value with second precision. Some embedded
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hardware also lacks battery-powered RTC, so returns number of seconds
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since last power-up or from other relative, hardware-specific point
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(e.g. reset).
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