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pyRobots: a toolkit for robot executive control

DOI Documentation Status

pyRobots provides a set of Python decorators to easily turn standard functions into background tasks which can be cancelled at anytime and to make your controller resource aware (no, a robot can not turn left AND right at the same time).

It also provides a event-based mechanism to monitor specific conditions and asynchronously trigger actions.

It finally provides a library of convenient tools to manage poses in a uniform way (quaternions, Euler angles and 4D matrices, I look at you) and to interface with existing middlewares (ROS, naoqi, aseba...).

pyRobots took some inspiration from the URBI language.

If you use this code for your academic work, please cite it!

Installation

$ pip install pyRobots

(or, of course, from the source)

Main features

  • Turns any Python function into a background action with the decorator @action.
  • Robot actions are non-blocking by default: they are instanciated as futures (lightweight threads),
  • Actions can be cancelled at any time via signals (the ActionCancelled signal is raised).
  • Lock specific resources with a simple @lock(...) in front of the actions. When starting, actions will wait for resources to be available if needed.
  • Supports compound resources (like WHEELS == LEFTWHEEL + RIGHTWHEEL)
  • Create event with robot.whenever(<condition>).do(<action>)
  • Poses are managed explicitely and can easily be transformed from one reference frame to another one (integrates with ROS TF when available).
  • Extensive logging support to debug and replay experiments.

Support for a particular robot only require to subclass GenericRobot for this robot (and, obviously, to code the actions you want your robot to perform).

Documentation

Head to readthedocs. Sparse for now.

Minimum Working Example

...that includes the creation of a specific robot

import time
from robots import GenericRobot
from robots.decorators import action, lock
from robots.resources import Resource
from robots.signals import ActionCancelled

# create a 'lockable' resource for our robot
WHEELS = Resource("wheels")

class MyRobot(GenericRobot):

    def __init__(self):
        super(MyRobot, self).__init__()

        # create (and set) one element in the robot's state. Here a bumper.
        self.state.my_bumper = False

        # do whatever other initialization you need :-)

    def send_goal(self, pose):
        # move your robot using your favorite middleware
        print("Starting to move towards %s" % pose)

    def stop(self):
        # stop your robot using your favorite middleware
        print("Motion stopped")

    def whatever_lowlevel_method_you_need(self):
        pass

@lock(WHEELS)
@action
def move_forward(robot):
    """ We write action in a simple imperative, blocking way.
    """

    # the target pose: simply x += 1.0m in the robot's frame. pyRobots
    # will handle the frames transformations as needed.
    target = [1.0, 0., 0., "base_link"]

    try:
        robot.send_goal(target)

        while(robot.pose.distance(robot.pose.myself(), target) > 0.1):
            # robot.sleep is exactly like time.sleep, except it lets the pyrobots
            # signals pass through.
            robot.sleep(0.5)

        print("Motion succeeded")

    except ActionCancelled:
        # if the action is cancelled, clean up your state
        robot.stop()


with MyRobot() as robot:

    # Turn on DEBUG logging.
    # Shortcut for logging.getLogger("robots").setLevel(logging.DEBUG)
    robot.debug()

    robot.whenever("my_bumper", value = True).do(move_forward)

    try:
        while True:
            time.sleep(0.5)
    except KeyboardInterrupt:
        pass

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A Python toolset for asynchronous, event-based control of robots

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