Added SPI tests, simplified the shared SPI software bus implementation,
and fixed several protocol errors in our MCP3xxx classes (the x2 and x1
protocols were wrong)
Add Servo and AngularServo implementation along with docs and tests.
This is a deliberately minimal implementation designed to be added to as
we agree on new extensions (better than making an all-singing,
all-dancing version in which I get things wrong and then wind up making
backward incompatible changes to get it right :)
Overhaul the pi_info system:
Pin factories are now capable of generating pi_info themselves (although
currently they all just look up the revision and call pi_info with a
specific one).
PiGPIOPin will now return pi_info for the remote pi which can be
specified by parameter or implicitly by the environment vars.
Overvolted Pis should work properly no matter what (some argument over
whether the revision 7 or 8 chars in this case; both should work). Added
some minor tweaks for the new camera-capable Pi Zero
Finally, added a bunch of tests for pins.data
Codecov frequently whinges about "unexpected coverage changes" on PRs;
this is because the sleep lines affected sometimes execute and sometimes
don't (they're only there to ensure something exists before we test it).
Hopefully codecov notices the pragmas...
While the tests work well on a PC or Travis, the Pi (where I ought to be
running them!) has some issues with the timing tests. Need to relax the
tolerance of the "assert_states_and_times" method to 0.05 seconds
otherwise it periodically fails even on something reasonably quick like
a Pi 2 (less failures on a Pi 3 but still occasionally).
Also reduced default fps to 25; if the default timing occasionally fails
on a Pi 2 it's evidently too fast for a Pi 1 and shouldn't be the
default; 25 also doesn't look any different to me on a pulsing LED.
There's also a bunch of miscellaneous fixes in here; last minute typos
and chart re-gens for the 1.2 release.
Also re-numbers energenie sockets 1-4 (as noted by @bennuttall in
comments to #239), and adds several "real pins" tests and board tests.
The bad-PWM stuff is currently disabled as it causes segfaults when
running the tests and I can't seem to trace the cause at the moment.
Finally, I've tweaked the deb config to suggest gpiozero, removed spidev
as a mandatory dep (which'll fix installs on wheezy for py3), and
there's some more miscellaneous last-minute stuff here that I can't
recall...
This is just a quicky for people to start playing with - it's not
complete in any way, shape, or form. This is how I envisage the "real"
pin tests being done; part of the test suite with a `skipif` to ensure
they don't get run on non-Pi platforms, with a fixture to loop over
whatever pin implementations are found (we can't always assume all of
them: for example, RPIO doesn't work on a Pi 2), and a relatively simple
wiring for the test.
In this case I've assumed GPIOs 22 and 27 are wired together. They're
next to each other, so a jumper is sufficient to run the test.
PRs extending the coverage are very welcome (I've already discovered and
fixed several silly bugs in NativePin!). I've left all the interesting
hard stuff for people to play with (PWM testing: statistical sampling?
debounce compensation testing: timing?). When I've got a second, I'll
looking into hooking up my Pi Zero as a Travis-esque test-bed for this,
triggered by GitHub webhooks (not sure how I'll deal with reporting
yet).
Change MockPin (and MockPWMPin) to make them behave more like 'real' pins - fixes#206
Add new MockPin tests, and rework some of the existing ones
Incorporate #216
Doing timing tests on pypy (for blink) just doesn't work; even with a
tolerance as coarse as tens-of-milliseconds, things fail. I guess that
isn't too surprising given that, as the tests are one off things the
pypy JIT is never getting a chance to spin up and do its stuff.
