# -*- coding: iso-8859-15 -*-
import rospy
+import tf
import struct
from i2c import *
from math import *
from geometry_msgs.msg import Twist
+from nav_msgs.msg import Odometry
+from diagnostic_msgs.msg import DiagnosticArray, DiagnosticStatus, KeyValue
WHEEL_DIST = 0.248
def __init__(self):
rospy.init_node('wild_thumper_move_base')
rospy.Subscriber("cmd_vel", Twist, self.cmdVelReceived)
+ self.tf_broadcaster = tf.broadcaster.TransformBroadcaster()
+ self.pub_odom = rospy.Publisher("odom", Odometry, queue_size=16)
+ self.pub_diag = rospy.Publisher("diagnostics", DiagnosticArray, queue_size=16)
self.set_speed(0, 0)
rospy.loginfo("Init done")
i2c_write_reg(0x50, 0x90, struct.pack("BB", 1, 1)) # switch direction
def run(self):
rate = rospy.Rate(20.0)
while not rospy.is_shutdown():
- self.get_pos()
+ self.get_tle_err()
+ #self.get_odom()
#self.get_dist_forward()
#self.get_dist_backward()
#self.get_dist_left()
#self.get_dist_right()
rate.sleep()
- def get_pos(self):
- s = i2c_read_reg(0x50, 0x10, 8)
- hall1, hall2, hall3, hall4 = struct.unpack(">hhhh", s)
- print hall1, hall2, hall3, hall4
+ def get_tle_err(self):
+ err = struct.unpack(">B", i2c_read_reg(0x50, 0x94, 1))[0]
+
+ msg = DiagnosticArray()
+ msg.header.stamp = rospy.Time.now()
+ stat = DiagnosticStatus()
+ stat.name = "Motor: Error Status"
+ stat.level = DiagnosticStatus.OK if not err else DiagnosticStatus.ERROR
+ stat.message = "OK" if not err else "Error"
+
+ stat.values.append(KeyValue("Motor 1", str(bool(err & (1 << 0)))))
+ stat.values.append(KeyValue("Motor 2", str(bool(err & (1 << 1)))))
+ stat.values.append(KeyValue("Motor 3", str(bool(err & (1 << 2)))))
+ stat.values.append(KeyValue("Motor 4", str(bool(err & (1 << 3)))))
+
+ msg.status.append(stat)
+ self.pub_diag.publish(msg)
+
+
+ def get_odom(self):
+ posx, posy, angle = struct.unpack(">fff", i2c_read_reg(0x50, 0x40, 12))
+ speed_trans, speed_rot = struct.unpack(">ff", i2c_read_reg(0x50, 0x38, 8))
+ current_time = rospy.Time.now()
+
+ # since all odometry is 6DOF we'll need a quaternion created from yaw
+ odom_quat = tf.transformations.quaternion_from_euler(0, 0, angle)
+
+ # first, we'll publish the transform over tf
+ self.tf_broadcaster.sendTransform((posx, posy, 0.0), odom_quat, current_time, "base_link", "odom")
+
+ # next, we'll publish the odometry message over ROS
+ odom = Odometry()
+ odom.header.stamp = current_time
+ odom.header.frame_id = "/odom"
+
+ # set the position
+ odom.pose.pose.position.x = posx
+ odom.pose.pose.position.y = posy
+ odom.pose.pose.position.z = 0.0
+ odom.pose.pose.orientation.x = odom_quat[0]
+ odom.pose.pose.orientation.y = odom_quat[1]
+ odom.pose.pose.orientation.z = odom_quat[2]
+ odom.pose.pose.orientation.w = odom_quat[3]
+
+ # set the velocity
+ odom.child_frame_id = "base_link"
+ odom.twist.twist.linear.x = speed_trans
+ odom.twist.twist.linear.y = 0.0
+ odom.twist.twist.angular.z = speed_rot
+
+ # publish the message
+ self.pub_odom.publish(odom)
- def set_speed(self, left, right):
- if left > 0: left+=80
- elif left < 0: left-=80
- if right > 0: right+=80
- elif right < 0: right-=80
-
- if left > 255: left=255
- elif left < -255: left=-255
- if right > 255: right=255
- elif right < -255: right=-255
-
- i2c_write_reg(0x50, 0x1, struct.pack(">hhhh", right, right, left, left))
+
+ def set_speed(self, trans, rot):
+ i2c_write_reg(0x50, 0x50, struct.pack(">ff", trans, rot))
def cmdVelReceived(self, msg):
trans = msg.linear.x
rot = msg.angular.z # rad/s
-
- right = rot*pi*WHEEL_DIST + trans
- left = trans*2-right
- self.set_speed(left, right)
+ self.set_speed(trans, rot)
# http://rn-wissen.de/wiki/index.php/Sensorarten#Sharp_GP2D12
def get_dist_ir(self, num):
projects / ros_wild_thumper.git / blobdiff