源代码
有点长,放文末链接里了。
服务描述及代码
现在的服务是:请求时携带要前进的距离,然后底盘前进相应距离。代码如下,改动很小:
#!/usr/bin/env python
import rospy
from geometry_msgs.msg import Twist, Point
from math import copysign, sqrt, pow
import tf
from carry.srv import MoveTowards
class CalibrateLinear():
def __init__(self):
rospy.init_node('move_towards_server', anonymous=False)
service= rospy.Service('move_towards', MoveTowards, self.move)
def move(self,distanse_you_want):
print distanse_you_want.a
# Set rospy to execute a shutdown function when terminating the script
rospy.on_shutdown(self.shutdown)
# How fast will we check the odometry values?
self.rate = rospy.get_param('~rate', 20)
r = rospy.Rate(self.rate)
# Set the distance to travel
self.test_distance = rospy.get_param('~test_distance', distanse_you_want.a) # meters
self.speed = rospy.get_param('~speed', 0.15) # meters per second
self.tolerance = rospy.get_param('~tolerance', 0.01) # meters
self.odom_linear_scale_correction = rospy.get_param('~odom_linear_scale_correction', 1.0)
self.start_test = rospy.get_param('~start_test', True)
# Publisher to control the robot's speed
self.cmd_vel = rospy.Publisher('/cmd_vel', Twist, queue_size=5)
# The base frame is base_footprint for the TurtleBot but base_link for Pi Robot
self.base_frame = rospy.get_param('~base_frame', '/base_footprint')
# The odom frame is usually just /odom
#self.odom_frame = rospy.get_param('~odom_frame', '/odom')
self.odom_frame = rospy.get_param('~odom_frame', '/odom_combined')
# Initialize the tf listener
self.tf_listener = tf.TransformListener()
# Give tf some time to fill its buffer
rospy.sleep(2)
# Make sure we see the odom and base frames
self.tf_listener.waitForTransform(self.odom_frame, self.base_frame, rospy.Time(), rospy.Duration(60.0))
rospy.loginfo("Bring up rqt_reconfigure to control the test.")
self.position = Point()
# Get the starting position from the tf transform between the odom and base frames
self.position = self.get_position()
x_start = self.position.x
y_start = self.position.y
move_cmd = Twist()
while not rospy.is_shutdown():
# Stop the robot by default
move_cmd = Twist()
if self.start_test:
# Get the current position from the tf transform between the odom and base frames
self.position = self.get_position()
# Compute the Euclidean distance from the target point
distance = sqrt(pow((self.position.x - x_start), 2) +
pow((self.position.y - y_start), 2))
# Correct the estimated distance by the correction factor
distance *= self.odom_linear_scale_correction
# How close are we?
error = distance - self.test_distance
# Are we close enough?
if not self.start_test or abs(error) < self.tolerance:
self.start_test = False
params = {'start_test': False}
rospy.loginfo(params)
else:
# If not, move in the appropriate direction
move_cmd.linear.x = copysign(self.speed, -1 * error)
else:
self.position = self.get_position()
x_start = self.position.x
y_start = self.position.y
break
self.cmd_vel.publish(move_cmd)
r.sleep()
# Stop the robot
self.cmd_vel.publish(Twist(http://www.my516.com))
print 'finish moving'
return []
def get_position(self):
# Get the current transform between the odom and base frames
try:
(trans, rot) = self.tf_listener.lookupTransform(self.odom_frame, self.base_frame, rospy.Time(0))
except (tf.Exception, tf.ConnectivityException, tf.LookupException):
rospy.loginfo("TF Exception")
return
return Point(*trans)
def shutdown(self):
# Always stop the robot when shutting down the node
rospy.loginfo("Stopping the robot...")
self.cmd_vel.publish(Twist())
rospy.sleep(1)
if __name__ == '__main__':
try:
CalibrateLinear()
rospy.spin()
except:
rospy.loginfo("Calibration terminated.")
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需要做的修改
1.添加一个srv
由于需要递交“向前移动的距离”,所以需要一个srv,类型是:请求是浮点数(前进的距离),相应可以为空。下面是我新建的MoveTowards.srv,很简单的两行,第一行是请求,第二行是分隔线,响应为空。
float32 a
---
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至于如何创建一个srv,我就不写了,参考ROS wiki的链接。创建ROS消息和ROS服务.
2.对源程序进行的修改
首先import服务,注意格式:from “包名.srv” import “srv的名称”。虽然文件名为MoveTowards.srv但下面填import MoveTowards
from carry.srv import MoveTowards
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然后是这一部分:
def __init__(self):
rospy.init_node('move_towards_server', anonymous=False)
service= rospy.Service('move_towards', MoveTowards, self.move)
def move(self,distanse_you_want):
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以前“向前移动一米的代码段”在初始化内,我将其移动到了函数move内,而初始化只包含定义节点和service的语句。一旦有服务请求,将执行回调函数“move”。
注意以下一句话:
#self.odom_frame = rospy.get_param('~odom_frame', '/odom')
self.odom_frame = rospy.get_param('~odom_frame', '/odom_combined')
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由于我们的底盘由robot_pose_ekf这个功能包做了传感器信息融合,发布的frame是/odom_combined而不是/odom,所以需要非常注意。可以使用rosrun rqt_tf_tree rqt_tf_tree 来查看tf树,看到底是哪一个。这一行错了,机器人是肯定不能动的。
然后还改了两个小地方,一些小细节:(标注了两个#的两行)
else:
self.position = self.get_position()
x_start = self.position.x
y_start = self.position.y
break ##
self.cmd_vel.publish(move_cmd)
r.sleep()
# Stop the robot
self.cmd_vel.publish(Twist())
print 'finish moving'
return [] ##
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在底盘到达指定位置后,break跳出循环,源程序没有break,执行完后一直在while内,但我需要这个server返回一些信息,不然我的客户端程序一直在等待相应,程序一直阻塞没有往下执行。最后加了一行return,虽然返回的为“空”,但是你必须return一个东西,不然客户端不知道service是否执行完毕,导致程序阻塞。
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