| #!/usr/bin/python |
| |
| from frc971.control_loops.python import drivetrain |
| from frc971.control_loops.python import control_loop |
| import sys |
| |
| import gflags |
| import glog |
| |
| FLAGS = gflags.FLAGS |
| |
| gflags.DEFINE_bool('plot', False, 'If true, plot the loop response.') |
| |
| kDrivetrain = drivetrain.DrivetrainParams( |
| J=6.0, |
| mass=68.0, |
| # TODO(austin): Measure radius a bit better. |
| robot_radius=0.7 / 2.0, |
| wheel_radius=6.0 * 0.0254 / 2.0, |
| motor_type=control_loop.Falcon(), |
| G=(8.0 / 70.0) * (17.0 / 24.0), |
| q_pos=0.14, |
| q_vel=1.30, |
| efficiency=0.80, |
| has_imu=True, |
| force=True, |
| kf_q_voltage=13.0, |
| controller_poles=[0.82, 0.82]) |
| |
| |
| def main(argv): |
| argv = FLAGS(argv) |
| glog.init() |
| |
| if FLAGS.plot: |
| drivetrain.PlotDrivetrainMotions(kDrivetrain) |
| elif len(argv) != 5: |
| print "Expected .h file name and .cc file name" |
| else: |
| # Write the generated constants out to a file. |
| drivetrain.WriteDrivetrain(argv[1:3], argv[3:5], 'y2020', kDrivetrain) |
| |
| |
| if __name__ == '__main__': |
| sys.exit(main(sys.argv)) |