Many users will want to work with tools other than the default Stretch Gripper that ships with the robot. In this tutorial, you will learn how to configure the Stretch software interfaces to support other tools.
Stretch Body supports a plug-in-based architecture for tools. A tool is an extension of the EndOfArm class that supports additional degrees of freedom.
Stretch Body supports two tool interfaces by default: The ToolNone & ToolStretchGripper. We will explore swapping between these default tools.
Stretch is configured to load the ToolStretchGripper interface by default. This tool is loaded according to the robot.tool
parameter:
stretch_params.py | grep robot.tool
stretch_body.robot_params.nominal_params param.robot.tool tool_stretch_gripper
We can interact with this tool from iPython
ipython
In [1]: import stretch_body.robot as robot
In [2]: r=robot.Robot()
In [3]: r.startup()
In [4]: r.end_of_arm
Out[4]: <stretch_body.end_of_arm_tools.ToolStretchGripper instance at 0x7f99109155a0>
In [5]: r.end_of_arm.motors
Out[5]:
{'stretch_gripper': <stretch_body.stretch_gripper.StretchGripper instance at 0x7f99109159b0>,
'wrist_yaw': <stretch_body.wrist_yaw.WristYaw instance at 0x7f9910915820>}
In [6]: r.end_of_arm.stow()
--------- Stowing Wrist Yaw ----
--------- Stowing Gripper ----
In [7]: r.stop()
The ToolNone interface can be loaded when no tool is attached to the Wrist Yaw joint. To switch to this interface, simply update the field in your stretch_re1_user_params.yaml
to:
robot:
tool: tool_none
After updating the YAML we can interact with the ToolNone via iPython
In [1]: import stretch_body.robot as robot
In [2]: r=robot.Robot()
In [3]: r.startup()
In [4]: r.end_of_arm
Out[4]: <stretch_body.end_of_arm_tools.ToolNone instance at 0x7f245f786fa0>
In [5]: r.end_of_arm.motors
Out[5]: {'wrist_yaw': <stretch_body.wrist_yaw.WristYaw instance at 0x7f245e69e410>}
In [6]: r.end_of_arm.stow()
--------- Stowing Wrist Yaw ----
In [7]: r.stop()
The Stretch Tool Share is an open Git repository for non-standard Stretch tools. It hosts the CAD, URDF, and Python files needed to integrate these tools with your robot.
To use Stretch Tool Share tools, first update your installation:
pip install -U hello-robot-stretch-tool-share
As an example, we see on the Tool Share that there is a tool, the ToolDryEraseToolHolderV1 which extends the EndOfArm class. To load this tool interface, modify your stretch_user_params.yaml
to load the tool as before. We will also need to tell it where to find the tool's parameter file:
robot:
tool: tool_dry_erase_holder_v1
params:
- stretch_tool_share.dry_erase_holder_v1.params
We can now interact with the tool in iPython:
In [1]: import stretch_body.robot as robot
In [2]: r=robot.Robot()
In [3]: r.startup()
In [4]: r.end_of_arm
Out[4]: <stretch_tool_share.dry_erase_holder_v1.tool.ToolDryEraseHolderV1 instance at 0x7f3b61c17f00>
In [5]: r.end_of_arm.motors
Out[5]: {'wrist_yaw': <stretch_body.wrist_yaw.WristYaw instance at 0x7f3b61c59280>}
In [6]: r.end_of_arm.stow()
--------- Stowing Wrist Yaw ----
Next, we'll see how to change the ROS interface for a tool. Here we will continue with the ToolDryEraseHolderV1 example. First, configure Stretch Body to use the tool as in the previous exercise.
Next, ensure ROS is up to date:
cd ~/catkin_ws/src/stretch_ros/
git pull
To access the URDF data for the ToolDryEraseHolderV1 we'll need to clone the Tool Share repository:
cd ~/repos
git clone https://github.com/hello-robot/stretch_tool_share
Copy the tool's URDF data into the Stretch ROS repository:
cd ~/repos/stretch_tool_share/tool_share/dry_erase_holder_v1
cp stretch_description/urdf/*.xacro ~/catkin_ws/src/stretch_ros/stretch_description/urdf/
cp stretch_description/meshes/*.STL ~/catkin_ws/src/stretch_ros/stretch_description/meshes/
Now we will update the tool Xacro for Stretch. Open the file ~/catkin_ws/src/stretch_ros/stretch_description/urdf/stretch_description.xacro
in an editor. Comment out the current tool Xacro and include the Xacro for the dry-erase holder.
<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro" name="stretch_description">
<!--<xacro:include filename="stretch_gripper.xacro" />-->
<xacro:include filename="stretch_dry_erase_marker.xacro" />
<xacro:include filename="stretch_main.xacro" />
<xacro:include filename="stretch_aruco.xacro" />
<xacro:include filename="stretch_d435i.xacro" />
<xacro:include filename="stretch_laser_range_finder.xacro" />
<xacro:include filename="stretch_respeaker.xacro" />
</robot>
Finally, we'll update the calibrated URDF to use this new tool:
cd ~/catkin_ws/src/stretch_ros/stretch_description/urdf
cp stretch.urdf stretch.urdf.bak
rosrun stretch_calibration update_urdf_after_xacro_change.sh
Press Ctrl-C when the rosrun
command terminates and you're ready to visualize the tool in RViz:
roslaunch stretch_calibration simple_test_head_calibration.launch
For users looking to create their custom tools, it can be useful to understand how the tool plug-in architecture works. Here we will walk through the basics of the system for both Stretch Body and Stretch ROS
The Robot class expects an instance of the EndOfArm tool to be present. The EndOfArm tool is an extension of the DynamixelXChain class, which manages a chain of Dynamixel servos.
A tool is defined via its parameters (either in user YAML or Python). For example, the ToolStretchGripper is defined in robot_params.py. These parameters tell the plug-in which DynamixelHelloXL430 instances to load and manage. Here we see:
"tool_stretch_gripper": {
'use_group_sync_read': 1,
'retry_on_comm_failure': 1,
'baud':115200,
'verbose':0,
'py_class_name': 'ToolStretchGripper',
'py_module_name': 'stretch_body.end_of_arm_tools',
'stow': {'stretch_gripper': 0, 'wrist_yaw': 3.4},
'devices': {
'stretch_gripper': {
'py_class_name': 'StretchGripper',
'py_module_name': 'stretch_body.stretch_gripper'
},
'wrist_yaw': {
'py_class_name': 'WristYaw',
'py_module_name': 'stretch_body.wrist_yaw'
}
}
},
This dictionary defines a tool of the class ToolStretchGripper with two DynamixelHelloXL430 devices on its bus (StretchGripper and WristYaw).
We see that the ToolStretchGripper class extends the EndOfArm class and provides its stowing behavior:
class ToolStretchGripper(EndOfArm):
def __init__(self, name='tool_stretch_gripper'):
EndOfArm.__init__(self,name)
def stow(self):
# Fold in wrist and gripper
print('--------- Stowing Wrist Yaw ----')
self.move_to('wrist_yaw', self.params['stow']['wrist_yaw'])
print('--------- Stowing Gripper ----')
self.move_to('stretch_gripper', self.params['stow']['stretch_gripper'])
For tools that are not a part of Stretch Body, such as from the Tool Share, you must include the tool parameters as well in your stretch_user_params.yaml
. A robot that supports many tools may have a user YAML that looks like:
params:
- stretch_tool_share.usbcam_wrist_v1.params
- stretch_tool_share.stretch_dex_wrist_beta.params
- stretch_tool_share.dry_erase_holder_v1.params
robot:
tool: tool_dry_erase_holder_v1
#tool: tool_none
#tool: tool_stretch_gripper
#tool: tool_usbcam_wrist_v1
#tool: tool_stretch_dex_wrist_beta
!!! tip For a more complex implementation of a tool, we recommend reviewing the Stretch Dex Wrist implementation on the Stretch Tool Share.
Stretch ROS also supports the tool plug-in architecture. Under ROS this is managed by extending the SimpleCommandGroup.
More coming soon.