verified to work on real robots
adds sim eclipse plugins, fixed JavaGazebo, made wpilibC++Sim build on windows
- Java and C++ simulation robot programs run on windows
- simulation eclipse plugin delivers models and gazebo plugins
- Java Gazebo now respects GAZEBO_IP variables and can work across networks
- hal and network tables win32 hacked to work on windows
- smart dashboard broken on windows due to network tables hacks
- wpilibC++Sim, gz_msgs, and frcsim_gazebo_plugins build with CMake
- removed constexpr for cross platform compatibility
- msgs generated using .protos as a part of build process
- some spare and unused cmake/pom files deleted
- simulation ubuntu debians removed entirely
- refactored CMake project flags and macros
- updated to match non-sim C++ API
- fixed and updated documentation
- servo added to simulation
Change-Id: Ia702ff0f1fee10d77f543810ad88f56696443b05
This adds gradle support for building wpilibj and wpilibc. At this
point, both of these libraries should be fully ready to go.
Gradle should give us a number of improvements, including less
dependencies for getting building up and running, and MUCH faster build
times. I'm noticing significantly faster build times already compared to
Maven, with neither system building the plugins. The changes here should
be pretty straight forward. The basic command for gradle is './gradlew'.
This is the gradle wrapper, and it will find and download the correct
gradle executable for your system. There is no need to install anything
yourself. To see every task available, run './gradlew tasks'. The
important tasks for us are listed under the WPILib header when the tasks
command is run. To generate unit test binaries, the
fRCUserProgramExecutable command will create the C++ tester, and the
wpilibjIntegrationTestJar command will create the Java tester. The Jenkins
deploy scripts have been modified to know the difference between maven
generated and gradle generated jars with an environment variable. Creating
the eclipse plugins still requires Maven, but gradle will handle calling
it correctly and generating the proper dependencies for it. Create the
plugins by calling ./gradlew eclipsePlugins.
Jenkins can now be modified to support the new build system. Unit tests
are run with ./gradlew test. Generating the integration tests uses the
above two commands, and then process proceeds exactly as it did before.
For publishing documentation, a new task has been created, ./gradlew
publishDocs, which handles putting the documentation where Jenkins expects
for publishing.
Change-Id: I9a260d391984f98ef9170993efe933e4026161dc
Plugin was retrieved from https://github.com/mstoeckl/riolog.git with minimal changes to
make it compile.
Change-Id: I340d77c69fe7598595deeaba8d4cd9414b971399
Added in profiles to disable the doclint in Java 8 compilations,
which will cause the build to error on javadoc issues.
Change-Id: Id9e50ca35034ea086195855f6d1515381213dd2f
Updated the HAL library to work with the new version 3 headers
from NI. There were multiple changes in this verison: more PWM
generators were added, so the functions for setting PWM signals have
been updated. UserWatchdog has been removed, and Watchdog has been
removed from WPILib to accomodate for this. Digital selection has been
consolidated to one function in the NI headers, so this has been updated
in the HAL. New SPI and I2C libraries have been added, but need to
be implemented in the HAL before they will work.
