y2019/control_loops/python/elevator.py - RealtimeRoboticsGroup/test - Gitiles

 #!/usr/bin/python

 from frc971.control_loops.python import control_loop
 from frc971.control_loops.python import linear_system
 import copy
 import numpy
 import sys
 import gflags
 import glog

 FLAGS = gflags.FLAGS

 try:
     gflags.DEFINE_bool('plot', False, 'If true, plot the loop response.')
 except gflags.DuplicateFlagError:
     pass

 first_stage_mass = 0.7957
 carriage_mass = 2.754

 kElevator = linear_system.LinearSystemParams(
     name='Elevator',
     motor=control_loop.Vex775Pro(),
     G=(8.0 / 82.0),
     radius=2.25 * 0.0254 / 2.0,
     mass=first_stage_mass + carriage_mass,
     q_pos=0.070,
     q_vel=1.35,
     kalman_q_pos=0.12,
     kalman_q_vel=2.00,
     kalman_q_voltage=35.0,
     kalman_r_position=0.05)

 kElevatorModel = copy.copy(kElevator)
 kElevatorModel.mass = carriage_mass + first_stage_mass + 1.0

 def main(argv):
     if FLAGS.plot:
         R = numpy.matrix([[1.5], [0.0]])
         linear_system.PlotKick(kElevator, R, plant_params=kElevatorModel)
         linear_system.PlotMotion(
             kElevator, R, max_velocity=5.0, plant_params=kElevatorModel)

     # Write the generated constants out to a file.
     if len(argv) != 5:
         glog.fatal(
             'Expected .h file name and .cc file name for the elevator and integral elevator.'
         )
     else:
         namespaces = ['y2019', 'control_loops', 'superstructure', 'elevator']
         linear_system.WriteLinearSystem(kElevator, argv[1:3], argv[3:5],
                                         namespaces)


 if __name__ == '__main__':
     argv = FLAGS(sys.argv)
     glog.init()
     sys.exit(main(argv))
	#!/usr/bin/python

	from frc971.control_loops.python import control_loop
	from frc971.control_loops.python import linear_system
	import copy
	import numpy
	import sys
	import gflags
	import glog

	FLAGS = gflags.FLAGS

	try:
	gflags.DEFINE_bool('plot', False, 'If true, plot the loop response.')
	except gflags.DuplicateFlagError:
	pass

	first_stage_mass = 0.7957
	carriage_mass = 2.754

	kElevator = linear_system.LinearSystemParams(
	name='Elevator',
	motor=control_loop.Vex775Pro(),
	G=(8.0 / 82.0),
	radius=2.25 * 0.0254 / 2.0,
	mass=first_stage_mass + carriage_mass,
	q_pos=0.070,
	q_vel=1.35,
	kalman_q_pos=0.12,
	kalman_q_vel=2.00,
	kalman_q_voltage=35.0,
	kalman_r_position=0.05)

	kElevatorModel = copy.copy(kElevator)
	kElevatorModel.mass = carriage_mass + first_stage_mass + 1.0

	def main(argv):
	if FLAGS.plot:
	R = numpy.matrix([[1.5], [0.0]])
	linear_system.PlotKick(kElevator, R, plant_params=kElevatorModel)
	linear_system.PlotMotion(
	kElevator, R, max_velocity=5.0, plant_params=kElevatorModel)

	# Write the generated constants out to a file.
	if len(argv) != 5:
	glog.fatal(
	'Expected .h file name and .cc file name for the elevator and integral elevator.'
	)
	else:
	namespaces = ['y2019', 'control_loops', 'superstructure', 'elevator']
	linear_system.WriteLinearSystem(kElevator, argv[1:3], argv[3:5],
	namespaces)


	if __name__ == '__main__':
	argv = FLAGS(sys.argv)
	glog.init()
	sys.exit(main(argv))