174 lines
6.3 KiB
Python
174 lines
6.3 KiB
Python
# ruff: noqa
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"""From Alexander Koch low_cost_robot codebase at https://github.com/AlexanderKoch-Koch/low_cost_robot
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Class to control the robot using dynamixel servos.
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"""
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from enum import Enum, auto
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from typing import Union
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import numpy as np
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from dynamixel_sdk import DXL_HIBYTE, DXL_HIWORD, DXL_LOBYTE, DXL_LOWORD, GroupSyncRead, GroupSyncWrite
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from .dynamixel import Dynamixel, OperatingMode, ReadAttribute
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class MotorControlType(Enum):
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PWM = auto()
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POSITION_CONTROL = auto()
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DISABLED = auto()
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UNKNOWN = auto()
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class Robot:
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def __init__(self, device_name: str, baudrate=1_000_000, servo_ids=[1, 2, 3, 4, 5, 6]) -> None:
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self.servo_ids = servo_ids
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self.dynamixel = Dynamixel.Config(baudrate=baudrate, device_name=device_name).instantiate()
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self._init_motors()
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def _init_motors(self):
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self.position_reader = GroupSyncRead(
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self.dynamixel.portHandler, self.dynamixel.packetHandler, ReadAttribute.POSITION.value, 4
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)
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for id in self.servo_ids:
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self.position_reader.addParam(id)
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self.velocity_reader = GroupSyncRead(
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self.dynamixel.portHandler, self.dynamixel.packetHandler, ReadAttribute.VELOCITY.value, 4
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)
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for id in self.servo_ids:
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self.velocity_reader.addParam(id)
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self.pos_writer = GroupSyncWrite(
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self.dynamixel.portHandler, self.dynamixel.packetHandler, self.dynamixel.ADDR_GOAL_POSITION, 4
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)
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for id in self.servo_ids:
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self.pos_writer.addParam(id, [2048])
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self.pwm_writer = GroupSyncWrite(
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self.dynamixel.portHandler, self.dynamixel.packetHandler, self.dynamixel.ADDR_GOAL_PWM, 2
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)
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for id in self.servo_ids:
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self.pwm_writer.addParam(id, [2048])
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# self._disable_torque()
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self.motor_control_state = MotorControlType.DISABLED
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def read_position(self, tries=2):
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"""
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Reads the joint positions of the robot. 2048 is the center position. 0 and 4096 are 180 degrees in each direction.
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:param tries: maximum number of tries to read the position
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:return: list of joint positions in range [0, 4096]
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"""
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result = self.position_reader.txRxPacket()
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if result != 0:
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if tries > 0:
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return self.read_position(tries=tries - 1)
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else:
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print("failed to read position!!!!!!!!!!!!!!!!!!!!!!!!!!!!!")
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positions = []
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for id in self.servo_ids:
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position = self.position_reader.getData(id, ReadAttribute.POSITION.value, 4)
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if position > 2**31:
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position -= 2**32
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positions.append(position)
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return np.array(positions)
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def read_velocity(self):
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"""
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Reads the joint velocities of the robot.
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:return: list of joint velocities,
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"""
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self.velocity_reader.txRxPacket()
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velocties = []
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for id in self.servo_ids:
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velocity = self.velocity_reader.getData(id, ReadAttribute.VELOCITY.value, 4)
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if velocity > 2**31:
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velocity -= 2**32
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velocties.append(velocity)
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return np.array(velocties)
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def set_goal_pos(self, action):
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"""
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:param action: list or numpy array of target joint positions in range [0, 4096[
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"""
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if self.motor_control_state is not MotorControlType.POSITION_CONTROL:
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self._set_position_control()
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for i, motor_id in enumerate(self.servo_ids):
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data_write = [
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DXL_LOBYTE(DXL_LOWORD(action[i])),
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DXL_HIBYTE(DXL_LOWORD(action[i])),
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DXL_LOBYTE(DXL_HIWORD(action[i])),
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DXL_HIBYTE(DXL_HIWORD(action[i])),
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]
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self.pos_writer.changeParam(motor_id, data_write)
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self.pos_writer.txPacket()
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def set_pwm(self, action):
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"""
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Sets the pwm values for the servos.
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:param action: list or numpy array of pwm values in range [0, 885]
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"""
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if self.motor_control_state is not MotorControlType.PWM:
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self._set_pwm_control()
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for i, motor_id in enumerate(self.servo_ids):
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data_write = [
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DXL_LOBYTE(DXL_LOWORD(action[i])),
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DXL_HIBYTE(DXL_LOWORD(action[i])),
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]
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self.pwm_writer.changeParam(motor_id, data_write)
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self.pwm_writer.txPacket()
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def set_trigger_torque(self, torque: int):
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"""
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Sets a constant torque torque for the last servo in the chain. This is useful for the trigger of the leader arm
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"""
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self.dynamixel._enable_torque(self.servo_ids[-1])
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self.dynamixel.set_pwm_value(self.servo_ids[-1], torque)
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def limit_pwm(self, limit: Union[int, list, np.ndarray]):
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"""
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Limits the pwm values for the servos in for position control
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@param limit: 0 ~ 885
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@return:
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"""
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if isinstance(limit, int):
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limits = [
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limit,
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] * 5
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else:
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limits = limit
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self._disable_torque()
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for motor_id, limit in zip(self.servo_ids, limits, strict=False):
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self.dynamixel.set_pwm_limit(motor_id, limit)
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self._enable_torque()
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def _disable_torque(self):
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print(f"disabling torque for servos {self.servo_ids}")
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for motor_id in self.servo_ids:
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self.dynamixel._disable_torque(motor_id)
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def _enable_torque(self):
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print(f"enabling torque for servos {self.servo_ids}")
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for motor_id in self.servo_ids:
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self.dynamixel._enable_torque(motor_id)
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def _set_pwm_control(self):
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self._disable_torque()
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for motor_id in self.servo_ids:
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self.dynamixel.set_operating_mode(motor_id, OperatingMode.PWM)
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self._enable_torque()
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self.motor_control_state = MotorControlType.PWM
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def _set_position_control(self):
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self._disable_torque()
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for motor_id in self.servo_ids:
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# TODO(rcadene): redesign
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if motor_id == 9:
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self.dynamixel.set_operating_mode(9, OperatingMode.CURRENT_CONTROLLED_POSITION)
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else:
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self.dynamixel.set_operating_mode(motor_id, OperatingMode.POSITION)
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self._enable_torque()
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self.motor_control_state = MotorControlType.POSITION_CONTROL
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