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ROS2 Migration
The ROS2 port of the image_common
stack allows users to continue using familiar ROS concepts, such as camera_info_manager
and image_transport
in the ROS2 ecosystem.
In the image_common
repository, the image_transport
implements the "raw" transport. For additional transports, use the ros-${DISTRO}-image-transport-plugins
package, or install from source via the GitHub repository (ros2 branch)
-
image_transport
- Migrated- TODO: Implement SubscriberStatusCallback when RMWs support them
- TODO: Improve publisher/subscriber counts when RMWs support them
-
camera_calibration_parsers
- Migrated -
camera_info_manager
- Migrated -
compressed_image_transport
- Migrated- TODO: Improve Windows support (
cv_bridge
currently depends on Boost)
- TODO: Improve Windows support (
-
compressed_depth_image_transport
- Migrated- TODO: Improve Windows support (
cv_bridge
currently depends on Boost)
- TODO: Improve Windows support (
-
theora_image_transport
- Migrated -
polled_camera
- Not Migrated
Since the concept of ros::NodeHandle
does not exist in ROS2, the image_transport::ImageTransport
object now operates on a rclcpp::Node*
Previously in ROS1, the C++ code to utilize ImageTransport
looked like this:
// Use the image_transport classes instead.
#include <ros/ros.h>
#include <image_transport/image_transport.h>
void imageCallback(const sensor_msgs::ImageConstPtr& msg)
{
// ...
}
ros::NodeHandle nh;
image_transport::ImageTransport it(nh);
image_transport::Subscriber sub = it.subscribe("in_image_base_topic", 1, imageCallback);
image_transport::Publisher pub = it.advertise("out_image_base_topic", 1);
In ROS2, the callback signature must be updated (or typedef'ed), and a pointer to node is used, rather than a NodeHandle.
#include "rclcpp/rclcpp.hpp"
#include "image_transport/image_transport.h"
void imageCallback(const sensor_msgs::msg::Image::ConstSharedPtr & msg)
{
// ...
}
auto node_ = rclcpp::Node::make_shared("test_subscriber");
image_transport::ImageTransport it(node_.get());
auto sub = it.subscribe("in_image_base_topic", 1, imageCallback);
auto pub = it.advertise("out_image_base_topic", 1);
Alternatively, there are free functions that can be used without creating the ImageTransport
object. These methods are closer to the way that the rclcpp
API works, and also support passing custom QoS settings to the underlying RMW
implementation
#include "rclcpp/rclcpp.hpp"
#include "image_transport/image_transport.h"
void imageCallback(const sensor_msgs::msg::Image::ConstSharedPtr & msg)
{
// ...
}
auto node_ = rclcpp::Node::make_shared("test_subscriber");
rmw_qos_profile_t custom_qos = rmw_qos_profile_default; // Could be any of the profiles or completely custom
auto sub = image_transport::create_subscription(node_.get(), "in_image_base_topic", imageCallback, "raw", custom_qos);
auto pub = image_transport::create_publisher(node_.get(), "out_image_base_topic", custom_qos);
Similar methods are available for CameraPublisher
and CameraSubscription
#include "rclcpp/rclcpp.hpp"
#include "image_transport/image_transport.h"
void cameraCallback(
const sensor_msgs::msg::Image::ConstSharedPtr & msg,
const sensor_msgs::msg::CameraInfo::ConstSharedPtr & info)
{
// ...
}
auto node_ = rclcpp::Node::make_shared("test_subscriber");
rmw_qos_profile_t custom_qos = rmw_qos_profile_default; // Could be any of the profiles or completely custom
auto sub = image_transport::create_camera_subscription(node_.get(), "camera/image", cameraCallback, "raw", custom_qos);
auto pub = image_transport::create_camera_publisher(node_.get(), "camera/image", custom_qos);
Getting available transports is available via free functions as well:
auto declared = image_transport::getDeclaredTransports();
auto loadable = image_transport::getLoadableTransports();
Much like image_transport
, rather than using a NodeHandle, use a pointer to rclcpp::Node:
// ROS1
ros::NodeHandle nh;
camera_info::CameraInfoManager cim(nh, "camera");
// ROS2
auto node_ = rclcpp::Node::make_shared("camera_info");
camera_info_manager::CameraInfoManager cim(node_.get());