# Plot multiple paths in rviz

I'm trying to plot different paths at rviz

I'm using the following code to get a first approach (based on this repository: https://github.com/HaoQChen/show_trajectory/tree/master/src)

``````import rospy
import math
import numpy as np
from geometry_msgs.msg import PoseStamped
from nav_msgs.msg import Path, Odometry
from std_msgs.msg import Empty

class ProjectElement(object):
def __init__(self):
self.path_pub = rospy.Publisher('~path', Path, latch=True, queue_size=10)
self.circle_sub = rospy.Subscriber('~circle', Empty, self.circle_cb, queue_size=10)
self.line_sub = rospy.Subscriber('~line', Empty, self.line_cb, queue_size=10)
self.project_sub = rospy.Subscriber('~project', Empty, self.project_cb, queue_size=10)

self.paths = []

self.rate = rospy.Rate(50)

def circle_cb(self, msg):

path = Path()

centre_x = 1
centre_y = 1
R = 0.5
th = 0.0
delta_th = 0.1

while (th<2*math.pi):
x = centre_x + R * math.sin(th)
y = centre_y + R * math.cos(th)
th += delta_th

this_pose_stamped = PoseStamped()
this_pose_stamped.pose.position.x = x
this_pose_stamped.pose.position.y = y

path.poses.append(this_pose_stamped)

self.paths.append(path)

def line_cb(self, msg):

path = Path()

x_start = 0.0
y_start = 0.0
length = 2
angle = 45 * math.pi/180
th = 0.0
delta_th = 0.1

while (th<length):
x = x_start + th * math.cos(angle)
y = y_start + th * math.sin(angle)
th += delta_th

this_pose_stamped = PoseStamped()
this_pose_stamped.pose.position.x = x
this_pose_stamped.pose.position.y = y

path.poses.append(this_pose_stamped)

self.paths.append(path)

def project_cb(self, msg):

while(True):
for element in self.paths:
self.path_pub.publish(element)

if __name__ == '__main__':

rospy.init_node('path_simulate')

elements = ProjectElement()

rospy.spin()
``````

I can visualize the paths at rviz, but I don't know how to plot both figures at the same time in this way.

line

circle

I would like to ask if this approach is the best way to address this issue or which could be the best way.

• what's the plugin you are using in rviz to plot the path? Have you considered using two different publishers? Sep 7, 2020 at 15:50
• I'm not using any plugin, I'm displaying nav_msg/Path at rviz. In the other hand, I'm not using 2 publishers because the number of figures is dynamic (it can be more than 2 or not), I plotted only 2 as example
– rluq
Sep 7, 2020 at 20:28
• The built-in "Path" display in rviz only plots one path. I think you are looking for a way to plot multiple paths, but even then the question would be how rviz would know whether a newly published path on your one topic is an update to an existing path or a new one to plot -- `nav_msgs/Path` has no name or id field to distinguish them. So I think your logic is incomplete. Sep 7, 2020 at 20:50
• You might get what you want from using a pointcloud display instead. (and publishing all paths jointly accordingly) Sep 7, 2020 at 20:53
• Effectively I couldn't display multiple paths in that way, so I chose the option in the answer below. Marker ros msg has id field so that I can modify old figures and add new ones
– rluq
Sep 9, 2020 at 11:31

I post the code used here in case anyone needs it

``````import rospy
import math
import numpy as np
from geometry_msgs.msg import Vector3, Point
from std_msgs.msg import Empty
from visualization_msgs.msg import Marker, MarkerArray

class ProjectElement(object):
def __init__(self):
self.marker_pub = rospy.Publisher('~marker', MarkerArray, latch=True, queue_size=10)
self.circle_sub = rospy.Subscriber('~circle', Empty, self.circle_cb, queue_size=10)
self.line_sub = rospy.Subscriber('~line', Empty, self.line_cb, queue_size=10)
self.project_sub = rospy.Subscriber('~project', Empty, self.project_cb, queue_size=10)

self.marker_array = MarkerArray()

def circle_cb(self, msg):

marker = Marker()
marker.type = Marker.LINE_STRIP

marker.scale = Vector3(0.01, 0.01, 0)

marker.color.g = 1.0
marker.color.a = 1.0

centre_x = 1
centre_y = 1
R = 0.5
delta_th = 0.1

for th in np.arange(0.0, 2*math.pi+delta_th, delta_th):
x = centre_x + R * math.sin(th)
y = centre_y + R * math.cos(th)

point = Point()
point.x = x
point.y = y

marker.points.append(point)

marker.id = 0

self.marker_array.markers.append(marker)

def line_cb(self, msg):

marker = Marker()
marker.type = Marker.LINE_STRIP

marker.scale = Vector3(0.01, 0.01, 0)

marker.color.g = 1.0
marker.color.a = 1.0

x_start = 0.0
y_start = 0.0
length = 2
angle = 45 * math.pi/180
delta_th = 0.1

for th in np.arange(0.0, length, delta_th):
x = x_start + th * math.cos(angle)
y = y_start + th * math.sin(angle)

point = Point()
point.x = x
point.y = y

marker.points.append(point)

marker.id = 1

self.marker_array.markers.append(marker)

def project_cb(self, msg):

self.marker_pub.publish(self.marker_array)

if __name__ == '__main__':

rospy.init_node('markers_simulate')

elements = ProjectElement()

rospy.spin()
``````

And the result achieved

marker array display