| #!/usr/bin/python3 |
| |
| from aos.util.trapezoid_profile import TrapezoidProfile |
| from frc971.control_loops.python import control_loop |
| from frc971.control_loops.python import angular_system |
| from frc971.control_loops.python import controls |
| import numpy |
| import sys |
| from matplotlib import pylab |
| import gflags |
| import glog |
| |
| FLAGS = gflags.FLAGS |
| |
| try: |
| gflags.DEFINE_bool('plot', False, 'If true, plot the loop response.') |
| except gflags.DuplicateFlagError: |
| pass |
| |
| kWrist = angular_system.AngularSystemParams( |
| name='Wrist', |
| motor=control_loop.BAG(), |
| G=(6.0 / 48.0) * (20.0 / 100.0) * (24.0 / 36.0) * (36.0 / 60.0), |
| # Use parallel axis theorem to get the moment of inertia around |
| # the joint (I = I_cm + mh^2 = 0.001877 + 0.8332 * 0.0407162^2) |
| J=0.003258, |
| q_pos=0.40, |
| q_vel=20.0, |
| kalman_q_pos=0.12, |
| kalman_q_vel=2.0, |
| kalman_q_voltage=4.0, |
| kalman_r_position=0.05, |
| radius=5.71 * 0.0254) |
| |
| |
| def main(argv): |
| if FLAGS.plot: |
| R = numpy.matrix([[numpy.pi / 2.0], [0.0]]) |
| angular_system.PlotKick(kWrist, R) |
| angular_system.PlotMotion(kWrist, R) |
| return |
| |
| # Write the generated constants out to a file. |
| if len(argv) != 5: |
| glog.fatal( |
| 'Expected .h file name and .cc file name for the wrist and integral wrist.' |
| ) |
| else: |
| namespaces = ['y2023', 'control_loops', 'superstructure', 'wrist'] |
| angular_system.WriteAngularSystem(kWrist, argv[1:3], argv[3:5], |
| namespaces) |
| |
| |
| if __name__ == '__main__': |
| argv = FLAGS(sys.argv) |
| glog.init() |
| sys.exit(main(argv)) |