بنقرة واحدة
ros2-node-creation
Guide for creating ROS2 nodes following Clean Architecture principles (Python & C++)
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
القائمة
Guide for creating ROS2 nodes following Clean Architecture principles (Python & C++)
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
استنادا إلى تصنيف SOC المهني
Author a new asset for this .claude/ template — a rule, skill, slash command, or sub-agent — following the project's conventions and wiring it into the CLAUDE.md / README.md indexes. Trigger when the user wants to add or extend a command, skill, agent, or rule (make the template itself extensible).
Bootstrap a complete ROS 2 colcon workspace from scratch — directory layout, .gitignore, top-level README, this .claude/ config, an interfaces package and a first Clean Architecture package, and a bringup package. Trigger when the user asks to create a new workspace / start a new ROS 2 project from zero.
Scaffold a Behavior Tree leaf node — plain BehaviorTree.CPP (SyncActionNode / StatefulActionNode / ConditionNode) or a BehaviorTree.ROS2 wrapper (RosActionNode / RosServiceNode / RosTopicPubNode / RosTopicSubNode) — with ports, factory/plugin registration, and XML v4 usage. Trigger when the user asks to write a behavior-tree node (not Nav 2-specific).
Scaffold a ros2_control hardware component (SystemInterface / ActuatorInterface / SensorInterface) and its bringup — the plugin (on_init/on_configure/on_activate, RT-safe read()/write()), URDF <ros2_control> wiring, controllers.yaml + launch, pluginlib export. Trigger when the user asks to integrate hardware or bring up a robot under ros2_control.
Scaffold or extend a ros2_control controller or broadcaster (ControllerInterface / ChainableControllerInterface) — base-class choice, command/state interface configuration, lifecycle, real-time-safe update(), generate_parameter_library, pluginlib export, tests. Trigger when the user asks to write a ros2_control controller or broadcaster.
Bridge a VDA 5050 v3.0.0 fleet-control interface (MQTT/JSON) onto Nav 2 under Clean Architecture — domain entities, MQTT/Nav 2 adapters behind ports, order→NavigateThroughPoses mapping, state aggregation, action handlers. Trigger when the user asks to build or extend a VDA 5050 connector / fleet bridge.
| name | ROS2 Node Creation |
| description | Guide for creating ROS2 nodes following Clean Architecture principles (Python & C++) |
This skill is used to create ROS2 nodes that adhere to Clean Architecture principles. It covers both Python and C++ implementations.
src/
├── domain/ # Business Logic Layer
│ ├── entities/ # Core business objects
│ ├── repositories/ # Repository interfaces (abstract)
│ └── use_cases/ # Business rules
├── application/ # Application Layer
│ ├── services/ # Application services
│ └── interfaces/ # Port interfaces
└── infrastructure/ # Infrastructure Layer
└── ros2/
├── nodes/ # ROS2 Node implementations
├── publishers/ # Publisher adapters
├── subscribers/ # Subscriber adapters
└── services/ # Service adapters
#!/usr/bin/env python3
"""
ROS2 Node: [NodeName]
Description: [Node Description]
"""
import rclpy
from rclpy.node import Node
from rclpy.qos import QoSProfile, ReliabilityPolicy, HistoryPolicy
from typing import Optional, Callable
from abc import ABC, abstractmethod
class BaseNode(Node, ABC):
"""Base class for all nodes."""
def __init__(self, node_name: str):
super().__init__(node_name)
self._setup_parameters()
self._setup_publishers()
self._setup_subscribers()
self._setup_services()
self._setup_timers()
self.get_logger().info(f'{node_name} initialized')
@abstractmethod
def _setup_parameters(self) -> None:
"""Define ROS2 parameters."""
pass
@abstractmethod
def _setup_publishers(self) -> None:
"""Create publishers."""
pass
@abstractmethod
def _setup_subscribers(self) -> None:
"""Create subscribers."""
pass
def _setup_services(self) -> None:
"""Create services (optional)."""
pass
def _setup_timers(self) -> None:
"""Create timers (optional)."""
pass
def get_default_qos(self) -> QoSProfile:
"""Default QoS profile."""
return QoSProfile(
reliability=ReliabilityPolicy.RELIABLE,
history=HistoryPolicy.KEEP_LAST,
depth=10
)
# ... (Same as before, but with English comments) ...
# See previous version for logic, just translate comments
// infrastructure/ros2/nodes/base_node.hpp
#pragma once
#include <rclcpp/rclcpp.hpp>
#include <string>
#include <memory>
namespace infrastructure::ros2::nodes {
class BaseNode : public rclcpp::Node {
public:
explicit BaseNode(const std::string& node_name,
const rclcpp::NodeOptions& options = rclcpp::NodeOptions());
virtual ~BaseNode() = default;
protected:
virtual void setup_parameters() = 0;
virtual void setup_publishers() = 0;
virtual void setup_subscribers() = 0;
virtual void setup_services() {}
virtual void setup_timers() {}
rclcpp::QoS get_default_qos() const;
};
} // namespace infrastructure::ros2::nodes
// infrastructure/ros2/nodes/base_node.cpp
#include "infrastructure/ros2/nodes/base_node.hpp"
namespace infrastructure::ros2::nodes {
BaseNode::BaseNode(const std::string& node_name, const rclcpp::NodeOptions& options)
: Node(node_name, options) {
// Virtual calls in constructor are dangerous in C++,
// but common in ROS2 if careful or using an init() method.
// Better pattern: Call these in a separate init() or distinct lifecycle.
// For simplicity in this template, we assume derived classes handle initialization
// or use the lifecycle node pattern.
}
rclcpp::QoS BaseNode::get_default_qos() const {
return rclcpp::QoS(10)
.reliability(rmw_qos_reliability_policy_t::RMW_QOS_POLICY_RELIABILITY_RELIABLE)
.history(rmw_qos_history_policy_t::RMW_QOS_POLICY_HISTORY_KEEP_LAST);
}
} // namespace infrastructure::ros2::nodes
// infrastructure/ros2/nodes/sensor_node.hpp
#pragma once
#include "infrastructure/ros2/nodes/base_node.hpp"
#include "application/services/sensor_service.hpp"
#include <std_msgs/msg/float64.hpp>
#include <sensor_msgs/msg/temperature.hpp>
namespace infrastructure::ros2::nodes {
class SensorNode : public BaseNode {
public:
explicit SensorNode(const rclcpp::NodeOptions& options = rclcpp::NodeOptions());
// Dependency Injection
void set_sensor_service(std::shared_ptr<application::services::ISensorService> service);
protected:
void setup_parameters() override;
void setup_publishers() override;
void setup_subscribers() override;
void setup_timers() override;
private:
void raw_callback(const std_msgs::msg::Float64::SharedPtr msg);
void timer_callback();
std::shared_ptr<application::services::ISensorService> sensor_service_;
rclcpp::Publisher<sensor_msgs::msg::Temperature>::SharedPtr temp_pub_;
rclcpp::Subscription<std_msgs::msg::Float64>::SharedPtr raw_sub_;
rclcpp::TimerBase::SharedPtr timer_;
double update_rate_;
std::string sensor_topic_;
};
} // namespace infrastructure::ros2::nodes
// application/services/sensor_service.hpp
#pragma once
#include "domain/entities/sensor_data.hpp"
namespace application::services {
class ISensorService {
public:
virtual ~ISensorService() = default;
virtual domain::entities::SensorData process(double raw_data) = 0;
};
} // namespace application::services
// infrastructure/ros2/qos_profiles.hpp
#pragma once
#include <rclcpp/qos.hpp>
namespace infrastructure::ros2 {
class QoSProfiles {
public:
static rclcpp::QoS sensor_data() {
return rclcpp::QoS(1).best_effort().durability_volatile();
}
static rclcpp::QoS command() {
return rclcpp::QoS(10).reliable().transient_local();
}
};
} // namespace