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rostate_machine repository

Repository Summary

Checkout URI https://github.com/OUXT-Polaris/rostate_machine.git
VCS Type git
VCS Version master
Last Updated 2019-09-03
Dev Status DEVELOPED
CI status No Continuous Integration
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Packages

Name Version
rostate_machine 0.0.2

README

rostate_machine

state machine library for ROS

Developed By OUXT Polaris

master develop
Build Status Build Status

How to use

Example

launch example state machine

roslaunch rostate_machine example.launch  

if you succeed to launch, the message was appeared in the terminal

[ INFO] [1556286488.574721992]: from : /example_event_client_node, succeed to transition, current state : emergency, event_name : motor_disconnected
[ INFO] [1556286488.674441095]: from : /example_event_client_node, failed to transition, current state : emergency, event_name : stop_motor

If you want to check whole state machine, you shold execute commands below

roscd rostate_machine/data
dot -T pdf example_state_machine.dot -o example_state_machine.pdf
evince example_state_machine.pdf

You can see pdf like below.
Example State Machine

rostate_machine node and event_client communticate with state and event topic Example State Machine Node

State Topic (rostate_machine/State)

Header header
string current_state
string[] possible_transitions
string[] possible_transition_states

Event Topic (rostate_machine/Event)

Header header
string trigger_event_name

Tutorial

Make XML file in order to define state machine

<state_machine>
    <init_state name="remote_operated"/>
    <state_machine_name name="example_state_machine"/>

    <callback tag="become_autonomos" when="on_entry" states="autonomous"/>
    <callback tag="stop_motor" when="on_exit" states="autonomous,remote_operated"/>
    <callback tag="check_motor" when="always" states="autonomous,remote_operated"/>

    <transition from = "remote_operated" to="autonomous" name="system_bringup"/>
    <transition from = "remote_operated" to="emergency" name="motor_disconnected"/>
    <transition from = "autonomous" to="remote_operated" name="manual_override"/>
    <transition from = "autonomous" to="emergency" name="motor_disconnected"/>
</state_machine>

transition element defines how to change states in the state machine. rostate_machine node subscribe event topic and chenge state when the event name was matched with name attribute in the transition element in the XML.

callback element defines which callback function was called. callback functions are managed with tag by using event_client. states attribute in callback element defines the states in which calls callback. states was defined by “,” splited string.

when attribute defines when the callback function was called. now, rostate_machine supports “always”,”on_exit”,”on_entry” values. if you set when=”always”, callback function was called when the current_state topic was recieved and the current_state was matched with states value. if you set when=”on_exit” or when=”on_entry”, callback function was called when the current_state topic was recieved and the state was changed. when=”on_exit”, the tagged callback functions was called when the state was changed from the setted states. when=”on_entry”, the tagged callback functions was called when the state was changed to the setted states.

Register Callback function to the EventClient class

add EventClient class to your ROS node and register callback by using EventClient::registerCallback function.

void EventClient::registerCallback(std::function<boost::optional<rostate_machine::Event>(void)> func,std::string tag)

Make Launch files for your state machine

You can see how to make launch file for your statemachin in rostate_machine/launch/example.lannch

<?xml version="1.0"?>
<launch>
    <param name="example_state_machine_node/description" textfile="$(find rostate_machine)/data/example_state_machine.xml"/>

    <node pkg="rostate_machine" type="rostate_machine_node" name="example_state_machine_node" output="screen" respawn="true">
        <param name="dot_filepath" value="$(find rostate_machine)/data/example_state_machine.dot"/>
    </node>

    <node pkg="rostate_machine" type="example_event_client_node" name="example_event_client_node" output="log" respawn="false" respawn_delay="0">
    </node>
</launch>

You have to pass xml_filepath,dot_filepath,state_machine_name args to the included launch file. (rostate_machine.launch) You have to also set rosparam named (namespace)/target_state_machine_namespace. Event client get state_machine_description from (value of (namespace)/target_state_machine_namespace )/xml_filepath

CONTRIBUTING

No CONTRIBUTING.md found.

Repository Summary

Checkout URI https://github.com/OUXT-Polaris/rostate_machine.git
VCS Type git
VCS Version master
Last Updated 2019-09-03
Dev Status DEVELOPED
CI status No Continuous Integration
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Packages

Name Version
rostate_machine 0.0.2

README

rostate_machine

state machine library for ROS

Developed By OUXT Polaris

master develop
Build Status Build Status

How to use

Example

launch example state machine

roslaunch rostate_machine example.launch  

if you succeed to launch, the message was appeared in the terminal

[ INFO] [1556286488.574721992]: from : /example_event_client_node, succeed to transition, current state : emergency, event_name : motor_disconnected
[ INFO] [1556286488.674441095]: from : /example_event_client_node, failed to transition, current state : emergency, event_name : stop_motor

If you want to check whole state machine, you shold execute commands below

roscd rostate_machine/data
dot -T pdf example_state_machine.dot -o example_state_machine.pdf
evince example_state_machine.pdf

You can see pdf like below.
Example State Machine

rostate_machine node and event_client communticate with state and event topic Example State Machine Node

State Topic (rostate_machine/State)

Header header
string current_state
string[] possible_transitions
string[] possible_transition_states

Event Topic (rostate_machine/Event)

Header header
string trigger_event_name

Tutorial

Make XML file in order to define state machine

<state_machine>
    <init_state name="remote_operated"/>
    <state_machine_name name="example_state_machine"/>

    <callback tag="become_autonomos" when="on_entry" states="autonomous"/>
    <callback tag="stop_motor" when="on_exit" states="autonomous,remote_operated"/>
    <callback tag="check_motor" when="always" states="autonomous,remote_operated"/>

    <transition from = "remote_operated" to="autonomous" name="system_bringup"/>
    <transition from = "remote_operated" to="emergency" name="motor_disconnected"/>
    <transition from = "autonomous" to="remote_operated" name="manual_override"/>
    <transition from = "autonomous" to="emergency" name="motor_disconnected"/>
</state_machine>

transition element defines how to change states in the state machine. rostate_machine node subscribe event topic and chenge state when the event name was matched with name attribute in the transition element in the XML.

callback element defines which callback function was called. callback functions are managed with tag by using event_client. states attribute in callback element defines the states in which calls callback. states was defined by “,” splited string.

when attribute defines when the callback function was called. now, rostate_machine supports “always”,”on_exit”,”on_entry” values. if you set when=”always”, callback function was called when the current_state topic was recieved and the current_state was matched with states value. if you set when=”on_exit” or when=”on_entry”, callback function was called when the current_state topic was recieved and the state was changed. when=”on_exit”, the tagged callback functions was called when the state was changed from the setted states. when=”on_entry”, the tagged callback functions was called when the state was changed to the setted states.

Register Callback function to the EventClient class

add EventClient class to your ROS node and register callback by using EventClient::registerCallback function.

void EventClient::registerCallback(std::function<boost::optional<rostate_machine::Event>(void)> func,std::string tag)

Make Launch files for your state machine

You can see how to make launch file for your statemachin in rostate_machine/launch/example.lannch

<?xml version="1.0"?>
<launch>
    <param name="example_state_machine_node/description" textfile="$(find rostate_machine)/data/example_state_machine.xml"/>

    <node pkg="rostate_machine" type="rostate_machine_node" name="example_state_machine_node" output="screen" respawn="true">
        <param name="dot_filepath" value="$(find rostate_machine)/data/example_state_machine.dot"/>
    </node>

    <node pkg="rostate_machine" type="example_event_client_node" name="example_event_client_node" output="log" respawn="false" respawn_delay="0">
    </node>
</launch>

You have to pass xml_filepath,dot_filepath,state_machine_name args to the included launch file. (rostate_machine.launch) You have to also set rosparam named (namespace)/target_state_machine_namespace. Event client get state_machine_description from (value of (namespace)/target_state_machine_namespace )/xml_filepath

CONTRIBUTING

No CONTRIBUTING.md found.