It seems like the JVM does not handle recursive calls to object monitor based locks correctly. A few bugs in the past have been reported to have caused deadlocks if this occurs. It looks like the version of Java we use is fixed, but there could be other bugs, and it seems like this area of the code isn't tested much. Based on the stacks reported in #3896, it really seems like this is occurring. So we're going to attempt to switch to explicit mutex based classes, which shouldn't have bugs like this, and we will see if that fixes the issue.
The angular rate is treated somewhat like an angle during calibration,
but the datasheet says it's angular rate. The variables were renamed to
make this clearer.
This adds the REV Analog Pressure Sensor PSI to volt (and vice versa) conversion to allow setting the compressor config in PSI and getting the sensor reading in PSI. Also adds input validation for pressure values at the higher level.
Co-authored-by: Tyler Veness <calcmogul@gmail.com>
More functionality was implemented at the HAL level, so expose that to the wpilib level.
This also does units changes for all the PH related functionality.
This also makes the Gradle build work with JDK 17.
The extra JVM args in gradle.properties works around a bug with spotless
and JDK 17: https://github.com/diffplug/spotless/issues/834
PMD.CloseResource was ignored because it's almost always a false
positive, and there are many of them.
UpdateEntries() and Flush() are called from methods that lock the mutex,
so locking it again will cause deadlocks. This also updates the Java
code to make MechanismObject2d::update synchronized like in the C++
version.
As the sensor needs to maintain an actual duty cycle, it can't go all
the way from 0-100, so provide a way to set the min and max and linearly
map between the two.
The root cause of #3747 is CommandScheduler's ds state checks are behind iterative robots checks. This means that the iterative robot state could return enabled, but the DS cache could still be reporting disabled. This results in a race in the Disabled -> Enabled transition, which manifests in commands not running.
Previously, iterative robot base pulled from the DS cache. This meant that the ds cache was always updated before an iterative robot base loop could run. This still had a race, but this could only occur on the Enabled -> Disable transition, which is much less noticeable and would usually just result in a command running for an extra loop.
We can move back to the old behavior by grabbing the new iterative robot base check variables to use the DS cache.
If something happens with the PD connection, these would have spammed messages continuously.
This wasn't the case previously, and we don't want this behavior now.
