forked from ZhengLiu-cart/IK_qp
97 lines
4.3 KiB
Python
97 lines
4.3 KiB
Python
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from Robotic_Arm.rm_robot_interface import *
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import numpy as np
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import math
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class rm75_kine_api():
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def __init__(self):
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# ---------- rm75 official algorithm -----------
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print(f'------- the realman official kinematic initialising -------')
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arm_model = rm_robot_arm_model_e.RM_MODEL_RM_75_E # RM_65 Robotic arm
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force_type = rm_force_type_e.RM_MODEL_RM_B_E # Standard version
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# Initialize the robotic arm model and sensor type in the algorithm
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self.robot_kine_rm = Algo(arm_model, force_type)
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self.cfg_j_limit()
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self.tool_frames = {
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'ee': rm_frame_t(frame_name="ee", pose=(0.0, 0.0, 0.0, 0.0, 0, 0.0), payload=1, x=0, y=0, z=0),
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'scissor': rm_frame_t(frame_name="scissor", pose=(0.0, 0.0, 0.144, 0.0, 0, 0.0), payload=1, x=0, y=0, z=72),
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'camera': rm_frame_t(frame_name="camera", pose=(0.05, 0.02, 0.10, -1.57, 0, -1.57), payload=1, x=0, y=0, z=72)
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}
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self.work_frames = {
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'work': rm_frame_t(frame_name="ee", pose=(0.0, 0.0, 0.0, 0.0, 0, 0.0), payload=1, x=0, y=0, z=0),
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}
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self.tool_name = "ee"
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self.work_name = "work"
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def cfg_j_limit(self, min_j=None, max_j=None, rad_flag = True):
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if max_j is None:
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max_j = np.array([3.14159, 2.2689, 3.14159, 2.3562, 3.14159, 2.234, 3.14159])
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if min_j is None:
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min_j = np.array([ -3.14159, -2.2689, -3.14159, -2.3562, -3.14159, -2.234, -3.14159 ])
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if rad_flag:
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self.robot_kine_rm.rm_algo_set_joint_max_limit((max_j * 180 / math.pi).tolist())
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self.robot_kine_rm.rm_algo_set_joint_min_limit((min_j * 180 / math.pi).tolist())
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else:
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self.robot_kine_rm.rm_algo_set_joint_max_limit(max_j.tolist())
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self.robot_kine_rm.rm_algo_set_joint_min_limit(min_j.tolist())
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def cfg_work_frame(self , frame_name):
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self.robot_kine_rm.rm_algo_set_workframe(self.work_frames[frame_name])
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def get_work_frame(self):
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return self.robot_kine_rm.rm_algo_get_curr_workframe()
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def cfg_tool_frame(self, frame_name ):
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self.robot_kine_rm.rm_algo_set_toolframe(self.tool_frames[frame_name])
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def get_tool_frame(self):
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return self.robot_kine_rm.rm_algo_get_curr_toolframe()
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def forward_kinematics(self, joint_angles, flag = 1 , tool="ee", work="work"):
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'''
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:param joint_angles: list of joint values, in rad
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:param flag: 0: return list [x,y,z,w,x,y,z]. 1: return list [x,y,z,rx,ry,rz]
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:param return: [x,y,z,rx,ry,rz], m & rad
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'''
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if tool != self.tool_name:
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self.tool_name = tool
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self.cfg_tool_frame(tool)
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if work != self.work_name:
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self.work_name = work
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self.cfg_work_frame(work)
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return self.robot_kine_rm.rm_algo_forward_kinematics(joint=[q_s*180/math.pi for q_s in joint_angles] , flag=flag)
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def inverse_kinematics(self, target_position, target_rpy=None, initial_guess=None, tool="ee", work="work"):
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'''
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:param target_position: list of position values, m
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:param target_rpy: list of rpy values, rad
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:param initial_guess: initial guess of angles, rad
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:param tool: tool name, refer to self.tool_frames
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:param work: work name, refer to self.work_frames
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return ret: state of ik calculation, 0:success, -2: out of workspace
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[q_]: the ik calculated angles for joints, rad
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'''
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if tool != self.tool_name:
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self.tool_name = tool
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self.cfg_tool_frame(tool)
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if work != self.work_name:
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self.work_name = work
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self.cfg_work_frame(work)
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target = target_position + target_rpy
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if initial_guess is not None:
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q_ref = [ 180/math.pi * ig for ig in initial_guess ]
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else:
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q_ref = [0.0, 110.0, 20.0, 40.0, 30.0, 180.0, 20.0]
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ret, phi = self.robot_kine_rm.rm_algo_calculate_arm_angle_from_config_rm75(q_ref)
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params = rm_inverse_kinematics_params_t(q_ref,
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target, 1)
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ret, q_out = self.robot_kine_rm.rm_algo_inverse_kinematics_rm75_for_arm_angle(params, phi)
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return ret, [ q/180*math.pi for q in q_out] |