Package Summary

Tags No category tags.
Version 2.9.2
License BSD
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/orocos/rtt_ros_integration.git
VCS Type git
VCS Version toolchain-2.9
Last Updated 2022-07-09
Dev Status MAINTAINED
CI status No Continuous Integration
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

The rtt_actionlib package

Additional Links

Maintainers

  • Orocos Developers

Authors

  • Jonathan Bohren

RTT Actionlib

Actionlib action servers provide the following interfaces, and actionlib action clients reciprocate: * Inputs: * Goal topic * Cancel topic * Outputs: * Status topic * Feedback topic * Result topic (per goal)

For an Orocos RTT component to provide an actionlib interface, it needs to provide the topics described above. In order to expose actionlib interfaces to components running in real-time threads, we should use the rtt data ports to connect to these topics. In order to make it easy to connect these ports, this package provides a C++ API for constructing the appropriate RTT data ports and an RTT service for connecting those ports to ROS topics if necessary.

Contents

This package provides a C++ API and RTT service for constructing and connecting several RTT ports to a ROS actionlib action namespace.

Providng Actions from Orocos

In the standard ROS actionlib server, subscribing and publishing ROS messages on the actionlib topics are handled automatiaclly by the ActionServer class, and users are meant to delegate to an instance of this class. ActionServer then calls short-running "goal" and "cancel" callbacks when it receives the appropriate messages. It is in these user-supplied callbacks that goal handlesare set to be accepted/rejected or preempted, respectively.

The user sets the status of these handles by calling member functions setSucceeded(), setAborted() etc. on the handles. These calls then call the parent ActionServer's publishResult(),publishStatus() etc. member functions. The "normal" ActionServer implements these functions with ROS publishers and subscribers, but for RTT, we want these to use data ports.

To this end, we implement an RTTActionServer C++ class which inherits from ActionServerBase and implements the "publish" functions with RTT data ports and binds the goal and cancel callbacks to RTT event ports.

Calling Actions from Orocos

TBD

Usage

First the appropriate RTT ports need to be created in a given service (or subservice) of a TaskContext. These can be easily creted by delegating to an RTTActionServer. The RTTActionServer will create the necessary RTT ports and bind them to the user-supplied callbacks. For example, to add an actionlib interface to a given compnent, you could do something similar to the following:

class SomeComponent : public RTT::TaskContext {
private:

  // Convenience typedefs
  typedef actionlib::ServerGoalHandle<some_msgs::SomeAction> GoalHandle;

  // RTT action server
  rtt_actionlib::RTTActionServer<some_msgs::SomeAction> rtt_action_server_;

public:

  // Component constructor
  SomeComponent(std::string name) :
    TaskContext(name, RTT::PreOperational)
  { 
    // Add action server ports to this task's root service
    rtt_action_server_.addPorts(this->provides());

    // Bind action server goal and cancel callbacks (see below)
    rtt_action_server_.registerGoalCallback(boost::bind(&SomeComponent::goalCallback, this, _1));
    rtt_action_server_.registerCancelCallback(boost::bind(&SomeComponent::cancelCallback, this, _1));
  }

  // RTT start hook
  bool startHook() {
    // Start action server
    rtt_action_server_.start();
    return true;
  }

  // RTT update hook
  void updateHook() {
    // Pursue goal here
  }

  // Called by rtt_action_server_ when a new goal is received
  void goalCallback(GoalHandle gh) {
    // Accept/reject goal requests here
  }

  // Called by rtt_action_server_ when a goal is cancelled / preempted
  void cancelCallback(GoalHandle gh) {
    // Handle preemption here
  }
};

Second, the ports need to be connected to ROS topics. This can either be done in C++ with hard-coded action topic names, or with the "actionlib" RTT service similarly to the following:

## Imports
import("rtt_ros");
ros.import("rtt_actionlib");

## Load some application-specific component
loadComponent("some_component_name","some_component_package::SomeComponent")

## Load the actionlib service
loadService("some_component_name","actionlib")

## Connect an actionlib interface to the task's root service
## This requires that the following ports exist with directions (server/client):
##  some_component_name._action_goal (in/out)
##  some_component_name._action_cancel (in/out)
##  some_component_name._action_status (out/in)
##  some_component_name._action_result (out/in)
##  some_component_name._action_feedback (out/in)
## These ports can be created by the RTTActionServer or RTTActionClient.

some_component_name.actionlib.connect("/some/ros/namespace/my_action")

## Alternatively, connect an actionlib interface to a provided sub-service:

some_component_name.actionlib.connectSub(
  "some_prov.ided_service",
  "/some/ros/namespace/my_other_action")


RTTSimpleActionServer

RTTSimpleActionServer is simple version of action server which able to pursue only one goal at one time. It depends on EventPort callbacks so unable to function if component is not Running or callbacks behavior is changed by redefining dataOnPortHook().

RTTSimpleActionServer implements following goal policy: * New goals gets PENDING status and stored in buffer. It cancels old pending goal if it presents. After receiving new goal newGoalHook callback is called, also isPending() and getPendingGoal() methods can be used to poll pending goal. * Pending goal can be accepted (acceptPending()) or rejected (rejectPending()). If accepted pending goal preempts current active goal if it presents. So only one goal can be active at time. * State of active goal can be checked with isActive(), getActiveGoal() and isPreemting() calls. * Cancel request causes pending goal to be canceled immediately. Active goal changes state to PREEMTING and cancelGoalHook is called. Preemting state can be checked by isPreemting() call. * State of active goal can be changed by succeedActive(), cancelActive(), abortActive() calls.

class Component : public TaskContext
{
    protected:
        // Goal, Feedback, Result typedefs
        ACTION_DEFINITION(ActionSpec);    

    protected:
        RTTSimpleActionServer<ActionSpec> action_server;
        // Current goal cache
        Goal goal;

        // new pending goal is received
        void newGoalHook(const Goal& pending_goal) {
            // check if goal is valid
            if (!isOk(pending_goal)) action_server.rejectPending(result);
            else { 
                goal = pending_goal;
                action_server.acceptPending(result);
            }
        }

        // active goal is being cancelled.
        void cancelGoalHook() {
            // cancel goal
            action_server.cancelActive(result);
        }


    public:
        Component(std::string const& name) : 
            action_server(this->provides())
        {
            // action server hook registration
            action_server.setGoalHook(boost::bind(&SomeComponent::newGoalHook, this, _1));
            action_server.setCancelHook(boost::bind(&SomeComponent::cancelGoalHook, this));
        }

        bool updateHook() {
            if (action_server.isActive()) {
                // pursue goal
            }
        }

        void stopHook() {
            action_server.abortActive(result);
            action_server.rejectPending(Result());
        }
};

Alternatively goal state changes can be monitored in updateHook():

        bool updateHook() {
            if (action_server.isPending()) {
                if (! isOk(getPendingGoal())) rejectPending(Result());
                else {
                    Result active_goal_result;
                    // make preparation
                    goal = *getPendingGoal();
                    acceptPending(active_goal_result);
                }

            }
            if (action_server.isActive()) {
                // pursue goal
            }
            else if (action_server.isPreemting()) {
               Result active_goal_result;
               // cancel goal
               action_server.cancelActive(active_goal_result);
            }
        }

Future Work

  • Add operation to actionlib service which connects goal/cancel callbacks to given RTT operations so that any RTT component with operations with the right types can be bound to an actionlib service
  • Add action client support.
CHANGELOG

Changelog for package rtt_actionlib

2.9.2 (2019-05-15)

2.9.1 (2017-11-16)

2.9.0 (2017-05-02)

  • Added deprecation warning for header rtt_roscomm/rtt_rostopic.h and updated some include directives within rtt_ros_integration
  • Added individual changelogs and bumped versions to 2.9.0
  • Contributors: Johannes Meyer

2.8.6 (2017-11-15)

2.8.5 (2017-03-28)

2.8.4 (2016-11-26)

2.8.3 (2016-07-20)

2.8.2 (2015-06-12)

Wiki Tutorials

See ROS Wiki Tutorials for more details.

Source Tutorials

Not currently indexed.

Launch files

No launch files found

Messages

No message files found.

Services

No service files found

Plugins

No plugins found.

Recent questions tagged rtt_actionlib at Robotics Stack Exchange

Package Summary

Tags No category tags.
Version 2.8.6
License BSD
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/orocos/rtt_ros_integration.git
VCS Type git
VCS Version jade-devel
Last Updated 2018-07-23
Dev Status MAINTAINED
CI status No Continuous Integration
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

The rtt_actionlib package

Additional Links

Maintainers

  • Orocos Developers

Authors

  • Jonathan Bohren

RTT Actionlib

Actionlib action servers provide the following interfaces, and actionlib action clients reciprocate: * Inputs: * Goal topic * Cancel topic * Outputs: * Status topic * Feedback topic * Result topic (per goal)

For an Orocos RTT component to provide an actionlib interface, it needs to provide the topics described above. In order to expose actionlib interfaces to components running in real-time threads, we should use the rtt data ports to connect to these topics. In order to make it easy to connect these ports, this package provides a C++ API for constructing the appropriate RTT data ports and an RTT service for connecting those ports to ROS topics if necessary.

Contents

This package provides a C++ API and RTT service for constructing and connecting several RTT ports to a ROS actionlib action namespace.

Providng Actions from Orocos

In the standard ROS actionlib server, subscribing and publishing ROS messages on the actionlib topics are handled automatiaclly by the ActionServer class, and users are meant to delegate to an instance of this class. ActionServer then calls short-running "goal" and "cancel" callbacks when it receives the appropriate messages. It is in these user-supplied callbacks that goal handlesare set to be accepted/rejected or preempted, respectively.

The user sets the status of these handles by calling member functions setSucceeded(), setAborted() etc. on the handles. These calls then call the parent ActionServer's publishResult(),publishStatus() etc. member functions. The "normal" ActionServer implements these functions with ROS publishers and subscribers, but for RTT, we want these to use data ports.

To this end, we implement an RTTActionServer C++ class which inherits from ActionServerBase and implements the "publish" functions with RTT data ports and binds the goal and cancel callbacks to RTT event ports.

Calling Actions from Orocos

TBD

Usage

First the appropriate RTT ports need to be created in a given service (or subservice) of a TaskContext. These can be easily creted by delegating to an RTTActionServer. The RTTActionServer will create the necessary RTT ports and bind them to the user-supplied callbacks. For example, to add an actionlib interface to a given compnent, you could do something similar to the following:

class SomeComponent : public RTT::TaskContext {
private:

  // Convenience typedefs
  typedef actionlib::ServerGoalHandle<some_msgs::SomeAction> GoalHandle;

  // RTT action server
  rtt_actionlib::RTTActionServer<some_msgs::SomeAction> rtt_action_server_;

public:

  // Component constructor
  SomeComponent(std::string name) :
    TaskContext(name, RTT::PreOperational)
  { 
    // Add action server ports to this task's root service
    rtt_action_server_.addPorts(this->provides());

    // Bind action server goal and cancel callbacks (see below)
    rtt_action_server_.registerGoalCallback(boost::bind(&SomeComponent::goalCallback, this, _1));
    rtt_action_server_.registerCancelCallback(boost::bind(&SomeComponent::cancelCallback, this, _1));
  }

  // RTT start hook
  bool startHook() {
    // Start action server
    rtt_action_server_.start();
    return true;
  }

  // RTT update hook
  void updateHook() {
    // Pursue goal here
  }

  // Called by rtt_action_server_ when a new goal is received
  void goalCallback(GoalHandle gh) {
    // Accept/reject goal requests here
  }

  // Called by rtt_action_server_ when a goal is cancelled / preempted
  void cancelCallback(GoalHandle gh) {
    // Handle preemption here
  }
};

Second, the ports need to be connected to ROS topics. This can either be done in C++ with hard-coded action topic names, or with the "actionlib" RTT service similarly to the following:

## Imports
import("rtt_ros");
ros.import("rtt_actionlib");

## Load some application-specific component
loadComponent("some_component_name","some_component_package::SomeComponent")

## Load the actionlib service
loadService("some_component_name","actionlib")

## Connect an actionlib interface to the task's root service
## This requires that the following ports exist with directions (server/client):
##  some_component_name._action_goal (in/out)
##  some_component_name._action_cancel (in/out)
##  some_component_name._action_status (out/in)
##  some_component_name._action_result (out/in)
##  some_component_name._action_feedback (out/in)
## These ports can be created by the RTTActionServer or RTTActionClient.

some_component_name.actionlib.connect("/some/ros/namespace/my_action")

## Alternatively, connect an actionlib interface to a provided sub-service:

some_component_name.actionlib.connectSub(
  "some_prov.ided_service",
  "/some/ros/namespace/my_other_action")


Future Work

  • Add operation to actionlib service which connects goal/cancel callbacks to given RTT operations so that any RTT component with operations with the right types can be bound to an actionlib service
  • Add action client support.
  • Add a "simple" mode which implememnts a policy like SimpleActionServer
CHANGELOG

Changelog for package rtt_actionlib

2.8.6 (2017-11-15)

2.8.5 (2017-03-28)

2.8.4 (2016-11-26)

2.8.3 (2016-07-20)

2.8.2 (2015-06-12)

Wiki Tutorials

See ROS Wiki Tutorials for more details.

Source Tutorials

Not currently indexed.

Launch files

No launch files found

Messages

No message files found.

Services

No service files found

Plugins

No plugins found.

Recent questions tagged rtt_actionlib at Robotics Stack Exchange

Package Summary

Tags No category tags.
Version 2.8.6
License BSD
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/orocos/rtt_ros_integration.git
VCS Type git
VCS Version indigo-devel
Last Updated 2018-07-23
Dev Status MAINTAINED
CI status No Continuous Integration
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

The rtt_actionlib package

Additional Links

Maintainers

  • Orocos Developers

Authors

  • Jonathan Bohren

RTT Actionlib

Actionlib action servers provide the following interfaces, and actionlib action clients reciprocate: * Inputs: * Goal topic * Cancel topic * Outputs: * Status topic * Feedback topic * Result topic (per goal)

For an Orocos RTT component to provide an actionlib interface, it needs to provide the topics described above. In order to expose actionlib interfaces to components running in real-time threads, we should use the rtt data ports to connect to these topics. In order to make it easy to connect these ports, this package provides a C++ API for constructing the appropriate RTT data ports and an RTT service for connecting those ports to ROS topics if necessary.

Contents

This package provides a C++ API and RTT service for constructing and connecting several RTT ports to a ROS actionlib action namespace.

Providng Actions from Orocos

In the standard ROS actionlib server, subscribing and publishing ROS messages on the actionlib topics are handled automatiaclly by the ActionServer class, and users are meant to delegate to an instance of this class. ActionServer then calls short-running "goal" and "cancel" callbacks when it receives the appropriate messages. It is in these user-supplied callbacks that goal handlesare set to be accepted/rejected or preempted, respectively.

The user sets the status of these handles by calling member functions setSucceeded(), setAborted() etc. on the handles. These calls then call the parent ActionServer's publishResult(),publishStatus() etc. member functions. The "normal" ActionServer implements these functions with ROS publishers and subscribers, but for RTT, we want these to use data ports.

To this end, we implement an RTTActionServer C++ class which inherits from ActionServerBase and implements the "publish" functions with RTT data ports and binds the goal and cancel callbacks to RTT event ports.

Calling Actions from Orocos

TBD

Usage

First the appropriate RTT ports need to be created in a given service (or subservice) of a TaskContext. These can be easily creted by delegating to an RTTActionServer. The RTTActionServer will create the necessary RTT ports and bind them to the user-supplied callbacks. For example, to add an actionlib interface to a given compnent, you could do something similar to the following:

class SomeComponent : public RTT::TaskContext {
private:

  // Convenience typedefs
  typedef actionlib::ServerGoalHandle<some_msgs::SomeAction> GoalHandle;

  // RTT action server
  rtt_actionlib::RTTActionServer<some_msgs::SomeAction> rtt_action_server_;

public:

  // Component constructor
  SomeComponent(std::string name) :
    TaskContext(name, RTT::PreOperational)
  { 
    // Add action server ports to this task's root service
    rtt_action_server_.addPorts(this->provides());

    // Bind action server goal and cancel callbacks (see below)
    rtt_action_server_.registerGoalCallback(boost::bind(&SomeComponent::goalCallback, this, _1));
    rtt_action_server_.registerCancelCallback(boost::bind(&SomeComponent::cancelCallback, this, _1));
  }

  // RTT start hook
  bool startHook() {
    // Start action server
    rtt_action_server_.start();
    return true;
  }

  // RTT update hook
  void updateHook() {
    // Pursue goal here
  }

  // Called by rtt_action_server_ when a new goal is received
  void goalCallback(GoalHandle gh) {
    // Accept/reject goal requests here
  }

  // Called by rtt_action_server_ when a goal is cancelled / preempted
  void cancelCallback(GoalHandle gh) {
    // Handle preemption here
  }
};

Second, the ports need to be connected to ROS topics. This can either be done in C++ with hard-coded action topic names, or with the "actionlib" RTT service similarly to the following:

## Imports
import("rtt_ros");
ros.import("rtt_actionlib");

## Load some application-specific component
loadComponent("some_component_name","some_component_package::SomeComponent")

## Load the actionlib service
loadService("some_component_name","actionlib")

## Connect an actionlib interface to the task's root service
## This requires that the following ports exist with directions (server/client):
##  some_component_name._action_goal (in/out)
##  some_component_name._action_cancel (in/out)
##  some_component_name._action_status (out/in)
##  some_component_name._action_result (out/in)
##  some_component_name._action_feedback (out/in)
## These ports can be created by the RTTActionServer or RTTActionClient.

some_component_name.actionlib.connect("/some/ros/namespace/my_action")

## Alternatively, connect an actionlib interface to a provided sub-service:

some_component_name.actionlib.connectSub(
  "some_prov.ided_service",
  "/some/ros/namespace/my_other_action")


Future Work

  • Add operation to actionlib service which connects goal/cancel callbacks to given RTT operations so that any RTT component with operations with the right types can be bound to an actionlib service
  • Add action client support.
  • Add a "simple" mode which implememnts a policy like SimpleActionServer
CHANGELOG

Changelog for package rtt_actionlib

2.8.6 (2017-11-15)

2.8.5 (2017-03-28)

2.8.4 (2016-11-26)

2.8.3 (2016-07-20)

2.8.2 (2015-06-12)

Wiki Tutorials

See ROS Wiki Tutorials for more details.

Source Tutorials

Not currently indexed.

Launch files

No launch files found

Messages

No message files found.

Services

No service files found

Plugins

No plugins found.

Recent questions tagged rtt_actionlib at Robotics Stack Exchange

Package Summary

Tags No category tags.
Version 2.7.2
License BSD
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/orocos/rtt_ros_integration.git
VCS Type git
VCS Version hydro-devel
Last Updated 2015-07-21
Dev Status MAINTAINED
CI status No Continuous Integration
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

The rtt_actionlib package

Additional Links

Maintainers

  • Orocos Developers

Authors

  • Jonathan Bohren

RTT Actionlib

Actionlib action servers provide the following interfaces, and actionlib action clients reciprocate: * Inputs: * Goal topic * Cancel topic * Outputs: * Status topic * Feedback topic * Result topic (per goal)

For an Orocos RTT component to provide an actionlib interface, it needs to provide the topics described above. In order to expose actionlib interfaces to components running in real-time threads, we should use the rtt data ports to connect to these topics. In order to make it easy to connect these ports, this package provides a C++ API for constructing the appropriate RTT data ports and an RTT service for connecting those ports to ROS topics if necessary.

Contents

This package provides a C++ API and RTT service for constructing and connecting several RTT ports to a ROS actionlib action namespace.

Providng Actions from Orocos

In the standard ROS actionlib server, subscribing and publishing ROS messages on the actionlib topics are handled automatiaclly by the ActionServer class, and users are meant to delegate to an instance of this class. ActionServer then calls short-running "goal" and "cancel" callbacks when it receives the appropriate messages. It is in these user-supplied callbacks that goal handlesare set to be accepted/rejected or preempted, respectively.

The user sets the status of these handles by calling member functions setSucceeded(), setAborted() etc. on the handles. These calls then call the parent ActionServer's publishResult(),publishStatus() etc. member functions. The "normal" ActionServer implements these functions with ROS publishers and subscribers, but for RTT, we want these to use data ports.

To this end, we implement an RTTActionServer C++ class which inherits from ActionServerBase and implements the "publish" functions with RTT data ports and binds the goal and cancel callbacks to RTT event ports.

Calling Actions from Orocos

TBD

Usage

First the appropriate RTT ports need to be created in a given service (or subservice) of a TaskContext. These can be easily creted by delegating to an RTTActionServer. The RTTActionServer will create the necessary RTT ports and bind them to the user-supplied callbacks. For example, to add an actionlib interface to a given compnent, you could do something similar to the following:

class SomeComponent : public RTT::TaskContext {
private:

  // Convenience typedefs
  typedef actionlib::ServerGoalHandle<some_msgs::SomeAction> GoalHandle;

  // RTT action server
  rtt_actionlib::RTTActionServer<some_msgs::SomeAction> rtt_action_server_;

public:

  // Component constructor
  SomeComponent(std::string name) :
    TaskContext(name, RTT::PreOperational)
  { 
    // Add action server ports to this task's root service
    rtt_action_server_.addPorts(this->provides());

    // Bind action server goal and cancel callbacks (see below)
    rtt_action_server_.registerGoalCallback(boost::bind(&SomeComponent::goalCallback, this, _1));
    rtt_action_server_.registerCancelCallback(boost::bind(&SomeComponent::cancelCallback, this, _1));
  }

  // RTT start hook
  bool startHook() {
    // Start action server
    rtt_action_server_.start();
    return true;
  }

  // RTT update hook
  void updateHook() {
    // Pursue goal here
  }

  // Called by rtt_action_server_ when a new goal is received
  void goalCallback(GoalHandle gh) {
    // Accept/reject goal requests here
  }

  // Called by rtt_action_server_ when a goal is cancelled / preempted
  void cancelCallback(GoalHandle gh) {
    // Handle preemption here
  }
};

Second, the ports need to be connected to ROS topics. This can either be done in C++ with hard-coded action topic names, or with the "actionlib" RTT service similarly to the following:

## Imports
import("rtt_ros");
ros.import("rtt_actionlib");

## Load some application-specific component
loadComponent("some_component_name","some_component_package::SomeComponent")

## Load the actionlib service
loadService("some_component_name","actionlib")

## Connect an actionlib interface to the task's root service
## This requires that the following ports exist with directions (server/client):
##  some_component_name._action_goal (in/out)
##  some_component_name._action_cancel (in/out)
##  some_component_name._action_status (out/in)
##  some_component_name._action_result (out/in)
##  some_component_name._action_feedback (out/in)
## These ports can be created by the RTTActionServer or RTTActionClient.

some_component_name.actionlib.connect("/some/ros/namespace/my_action")

## Alternatively, connect an actionlib interface to a provided sub-service:

some_component_name.actionlib.connectSub(
  "some_prov.ided_service",
  "/some/ros/namespace/my_other_action")


Future Work

  • Add operation to actionlib service which connects goal/cancel callbacks to given RTT operations so that any RTT component with operations with the right types can be bound to an actionlib service
  • Add action client support.
  • Add a "simple" mode which implememnts a policy like SimpleActionServer
CHANGELOG
No CHANGELOG found.

Wiki Tutorials

See ROS Wiki Tutorials for more details.

Source Tutorials

Not currently indexed.

Launch files

No launch files found

Messages

No message files found.

Services

No service files found

Plugins

No plugins found.

Recent questions tagged rtt_actionlib at Robotics Stack Exchange

Package Summary

Tags No category tags.
Version 2.9.2
License BSD
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/orocos/rtt_ros_integration.git
VCS Type git
VCS Version toolchain-2.9
Last Updated 2022-07-09
Dev Status MAINTAINED
CI status No Continuous Integration
Released RELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

The rtt_actionlib package

Additional Links

Maintainers

  • Orocos Developers

Authors

  • Jonathan Bohren

RTT Actionlib

Actionlib action servers provide the following interfaces, and actionlib action clients reciprocate: * Inputs: * Goal topic * Cancel topic * Outputs: * Status topic * Feedback topic * Result topic (per goal)

For an Orocos RTT component to provide an actionlib interface, it needs to provide the topics described above. In order to expose actionlib interfaces to components running in real-time threads, we should use the rtt data ports to connect to these topics. In order to make it easy to connect these ports, this package provides a C++ API for constructing the appropriate RTT data ports and an RTT service for connecting those ports to ROS topics if necessary.

Contents

This package provides a C++ API and RTT service for constructing and connecting several RTT ports to a ROS actionlib action namespace.

Providng Actions from Orocos

In the standard ROS actionlib server, subscribing and publishing ROS messages on the actionlib topics are handled automatiaclly by the ActionServer class, and users are meant to delegate to an instance of this class. ActionServer then calls short-running "goal" and "cancel" callbacks when it receives the appropriate messages. It is in these user-supplied callbacks that goal handlesare set to be accepted/rejected or preempted, respectively.

The user sets the status of these handles by calling member functions setSucceeded(), setAborted() etc. on the handles. These calls then call the parent ActionServer's publishResult(),publishStatus() etc. member functions. The "normal" ActionServer implements these functions with ROS publishers and subscribers, but for RTT, we want these to use data ports.

To this end, we implement an RTTActionServer C++ class which inherits from ActionServerBase and implements the "publish" functions with RTT data ports and binds the goal and cancel callbacks to RTT event ports.

Calling Actions from Orocos

TBD

Usage

First the appropriate RTT ports need to be created in a given service (or subservice) of a TaskContext. These can be easily creted by delegating to an RTTActionServer. The RTTActionServer will create the necessary RTT ports and bind them to the user-supplied callbacks. For example, to add an actionlib interface to a given compnent, you could do something similar to the following:

class SomeComponent : public RTT::TaskContext {
private:

  // Convenience typedefs
  typedef actionlib::ServerGoalHandle<some_msgs::SomeAction> GoalHandle;

  // RTT action server
  rtt_actionlib::RTTActionServer<some_msgs::SomeAction> rtt_action_server_;

public:

  // Component constructor
  SomeComponent(std::string name) :
    TaskContext(name, RTT::PreOperational)
  { 
    // Add action server ports to this task's root service
    rtt_action_server_.addPorts(this->provides());

    // Bind action server goal and cancel callbacks (see below)
    rtt_action_server_.registerGoalCallback(boost::bind(&SomeComponent::goalCallback, this, _1));
    rtt_action_server_.registerCancelCallback(boost::bind(&SomeComponent::cancelCallback, this, _1));
  }

  // RTT start hook
  bool startHook() {
    // Start action server
    rtt_action_server_.start();
    return true;
  }

  // RTT update hook
  void updateHook() {
    // Pursue goal here
  }

  // Called by rtt_action_server_ when a new goal is received
  void goalCallback(GoalHandle gh) {
    // Accept/reject goal requests here
  }

  // Called by rtt_action_server_ when a goal is cancelled / preempted
  void cancelCallback(GoalHandle gh) {
    // Handle preemption here
  }
};

Second, the ports need to be connected to ROS topics. This can either be done in C++ with hard-coded action topic names, or with the "actionlib" RTT service similarly to the following:

## Imports
import("rtt_ros");
ros.import("rtt_actionlib");

## Load some application-specific component
loadComponent("some_component_name","some_component_package::SomeComponent")

## Load the actionlib service
loadService("some_component_name","actionlib")

## Connect an actionlib interface to the task's root service
## This requires that the following ports exist with directions (server/client):
##  some_component_name._action_goal (in/out)
##  some_component_name._action_cancel (in/out)
##  some_component_name._action_status (out/in)
##  some_component_name._action_result (out/in)
##  some_component_name._action_feedback (out/in)
## These ports can be created by the RTTActionServer or RTTActionClient.

some_component_name.actionlib.connect("/some/ros/namespace/my_action")

## Alternatively, connect an actionlib interface to a provided sub-service:

some_component_name.actionlib.connectSub(
  "some_prov.ided_service",
  "/some/ros/namespace/my_other_action")


RTTSimpleActionServer

RTTSimpleActionServer is simple version of action server which able to pursue only one goal at one time. It depends on EventPort callbacks so unable to function if component is not Running or callbacks behavior is changed by redefining dataOnPortHook().

RTTSimpleActionServer implements following goal policy: * New goals gets PENDING status and stored in buffer. It cancels old pending goal if it presents. After receiving new goal newGoalHook callback is called, also isPending() and getPendingGoal() methods can be used to poll pending goal. * Pending goal can be accepted (acceptPending()) or rejected (rejectPending()). If accepted pending goal preempts current active goal if it presents. So only one goal can be active at time. * State of active goal can be checked with isActive(), getActiveGoal() and isPreemting() calls. * Cancel request causes pending goal to be canceled immediately. Active goal changes state to PREEMTING and cancelGoalHook is called. Preemting state can be checked by isPreemting() call. * State of active goal can be changed by succeedActive(), cancelActive(), abortActive() calls.

class Component : public TaskContext
{
    protected:
        // Goal, Feedback, Result typedefs
        ACTION_DEFINITION(ActionSpec);    

    protected:
        RTTSimpleActionServer<ActionSpec> action_server;
        // Current goal cache
        Goal goal;

        // new pending goal is received
        void newGoalHook(const Goal& pending_goal) {
            // check if goal is valid
            if (!isOk(pending_goal)) action_server.rejectPending(result);
            else { 
                goal = pending_goal;
                action_server.acceptPending(result);
            }
        }

        // active goal is being cancelled.
        void cancelGoalHook() {
            // cancel goal
            action_server.cancelActive(result);
        }


    public:
        Component(std::string const& name) : 
            action_server(this->provides())
        {
            // action server hook registration
            action_server.setGoalHook(boost::bind(&SomeComponent::newGoalHook, this, _1));
            action_server.setCancelHook(boost::bind(&SomeComponent::cancelGoalHook, this));
        }

        bool updateHook() {
            if (action_server.isActive()) {
                // pursue goal
            }
        }

        void stopHook() {
            action_server.abortActive(result);
            action_server.rejectPending(Result());
        }
};

Alternatively goal state changes can be monitored in updateHook():

        bool updateHook() {
            if (action_server.isPending()) {
                if (! isOk(getPendingGoal())) rejectPending(Result());
                else {
                    Result active_goal_result;
                    // make preparation
                    goal = *getPendingGoal();
                    acceptPending(active_goal_result);
                }

            }
            if (action_server.isActive()) {
                // pursue goal
            }
            else if (action_server.isPreemting()) {
               Result active_goal_result;
               // cancel goal
               action_server.cancelActive(active_goal_result);
            }
        }

Future Work

  • Add operation to actionlib service which connects goal/cancel callbacks to given RTT operations so that any RTT component with operations with the right types can be bound to an actionlib service
  • Add action client support.
CHANGELOG

Changelog for package rtt_actionlib

2.9.2 (2019-05-15)

2.9.1 (2017-11-16)

2.9.0 (2017-05-02)

  • Added deprecation warning for header rtt_roscomm/rtt_rostopic.h and updated some include directives within rtt_ros_integration
  • Added individual changelogs and bumped versions to 2.9.0
  • Contributors: Johannes Meyer

2.8.6 (2017-11-15)

2.8.5 (2017-03-28)

2.8.4 (2016-11-26)

2.8.3 (2016-07-20)

2.8.2 (2015-06-12)

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See ROS Wiki Tutorials for more details.

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