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This directory shows the best practices for using MicroPython hardware API
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(`machine` module). `machine` module strives to provide consistent API
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across various boards, with the aim to enable writing portable applications,
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which would work from a board to board, from a system to another systems.
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This is inherently a hard problem, because hardware is different from one
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board type to another, and even from exemplar of board to another. For
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example, if your app requires an external LED, one user may connect it
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to one GPIO pin, while another user may find it much more convenient to
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use another pin. This of course applies to relays, buzzers, sensors, etc.
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With complications above in mind, it's still possible to write portable
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applications by using "low[est] denominator" subset of hardware API and
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following simple rules outlined below. The applications won't be able
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to rely on advanced hardware capabilities of a particular board and
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will be limited to generic capabilities, but it's still possible to
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write many useful applications in such a way, with the obvious benefit of
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"write once - run everywhere" approach (only configuration for a particular
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board is required).
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The key to this approach is splitting your application into (at least)
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2 parts:
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* main application logic
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* hardware configuration
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The key point is that hardware configuration should be a separate file
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(module in Python terms). A good name would be `hwconfig.py`, and that's
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how we'll call it from now on. Another key point is that main application
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should never instantiate (construct) hardware objects directly. Instead,
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they should be defined in `hwconfig.py`, and main application should
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import and reference hardware objects via this module. The simplest
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application of this idea would look like:
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`hwconfig.py`:
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from machine import Pin
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LED = Pin("A3", Pin.OUT)
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`app.py`:
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from hwconfig import *
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import time
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while True:
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LED.value(1)
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time.sleep_ms(500)
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LED.value(0)
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time.sleep_ms(500)
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To deploy this application to a particular board, a user will need:
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1. Edit `hwconfig.py` to adjust Pin and other hardware peripheral
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parameters and locations.
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2. Actually deploy `hwconfig.py` and `app.py` to a board (e.g. copy to
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board's filesystem, or build new firmware with these modules frozen
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into it).
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Note that there's no need to edit the main application code! (Which may
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be complex, while `hwconfig.py` should usually remain short enough, and
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focused solely on hardware configuration).
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An obvious improvement to this approach is the following. There're few
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well-known boards which run MicroPython, and most of them include an
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onboard LED. So, to help users of these boards to do configuration
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quickly (that's especially important for novice users, for who may
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be stumped by the need to reach out to a board reference to find LED
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pin assignments), `hwconfig.py` your application ships may include
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commented out sections with working configurations for different
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boards. The step 1 above then will be:
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1. Look thru `hwconfig.py` to find a section which either exactly
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matches your board, or the closest to it. Uncomment, and if any
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adjustments required, apply them.
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It's important to keep in mind that adjustments may be always required,
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and that there may be users whose configuration doesn't match any of
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the available. So, always include a section or instructions for them.
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Consider for example that even on a supported board, user may want to
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blink not an on-board LED, but the one they connected externally.
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MicroPython's Hardware API offers portability not just among "supported"
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boards, but to any board at all, so make sure users can enjoy it.
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There's next step of improvement to make. While having one `hwconfig.py`
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with many sections would work for smaller projects with few hardware
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objects, it may become more cumbersome to maintain both on programmer's
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and user's sides for larger projects. Then instead of single
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`hwconfig.py` file, you can provide few "template" ones for well-known
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boards:
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* `hwconfig_pyboard.py`
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* `hwconfig_wipy.py`
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* `hwconfig_esp8266.py`
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* etc.
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Then step 1 above will be:
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1. Look thru available `hwconfig_*.py` files and find one which matches
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your board the best, then rename to `hwconfig.py` and make adjustments,
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if any.
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Again, please keep in mind that there may be users whose hardware will be
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completely unlike you heard of. Give them some helpful hints too, perhaps
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provide `hwconfig_custom.py` with some instructions.
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That's where we stop with improvements to the "separate file for hardware
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configuration" idea, as it is already pretty flexible and viable. An
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application in this directory shows it in practice, using slightly less
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trivial example than just a blinking LED: `soft_pwm.py` implements a
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software PWM (pulse width modulation) to produce an LED fade-in/fade-out
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effect - without any dependence on hardware PWM availability.
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Note that improvements to board configuration handling may continue further.
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For example, one may invent a "configuration manager" helper module which will
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try to detect current board (among well-known ones), and load appropriate
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`hwconfig_*.py` - this assumes that a user would lazily deploy them all
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(or that application will be automatically installed, e.g. using MicroPython's
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`mip` package manager). The key point in this case remains the same as
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elaborated above - always assume there can, and will be a custom configuration,
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and it should be well supported. So, any automatic detection should be
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overridable by a user, and instructions how to do so are among the most
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important you may provide for your application.
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By following these best practices, you will use MicroPython at its full
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potential, and let users enjoy it too. Good luck!
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