Add example 7 Capture Image for ROS2

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 # Capture Image

 ## Example 7

 In this example, we will review a Python script that captures an image from the [RealSense camera](https://www.intelrealsense.com/depth-camera-d435i/).

 <p align="center">
  <img src="https://raw.githubusercontent.com/hello-robot/stretch_tutorials/noetic/images/camera_image.jpeg"/>
  <img src="https://raw.githubusercontent.com/hello-robot/stretch_tutorials/noetic/images/camera_image_edge_detection.jpeg"/>
 </p>

 Begin by running the stretch `driver.launch` file.

 ```{.bash .shell-prompt}
 ros2 launch stretch_core stretch_driver.launch.py
 ```

 To activate the [RealSense camera](https://www.intelrealsense.com/depth-camera-d435i/) and publish topics to be visualized, run the following launch file in a new terminal.

 ```{.bash .shell-prompt}
 ros2 launch stretch_core d435i_low_resolution.launch.py
 ```

 Within this tutorial package, there is an RViz config file with the topics for perception already in the Display tree. You can visualize these topics and the robot model by running the command below in a new terminal.

 ```{.bash .shell-prompt}
 ros2 run rviz2 rviz2 -d /home/hello-robot/ament_ws/src/stretch_tutorials/rviz/perception_example.rviz
 ```

 ## Capture Image with Python Script
 In this section, we will use a Python node to capture an image from the [RealSense camera](https://www.intelrealsense.com/depth-camera-d435i/). Execute the [capture_image.py](stretch_ros_tutorials/capture_image.py) node to save a .jpeg image of the image topic `/camera/color/image_raw`. In a terminal, execute:

 ```{.bash .shell-prompt}
 cd ~/ament_ws/src/stretch_tutorials/stretch_ros_tutorials
 python3 capture_image.py
 ```
 An image named **camera_image.jpeg** is saved in the **stored_data** folder in this package, if you don't have this folder you can create it yourself.

 ### The Code

 ```python
 #!/usr/bin/env python3

 import rclpy
 import sys
 import os
 import cv2
 from rclpy.node import Node
 from sensor_msgs.msg import Image
 from cv_bridge import CvBridge, CvBridgeError

 class CaptureImage(Node):
    """
    A class that converts a subscribed ROS image to a OpenCV image and saves
    the captured image to a predefined directory.
    """
    def __init__(self):
        """
        A function that initializes a CvBridge class, subscriber, and save path.
        :param self: The self reference.
        """
        super().__init__('stretch_capture_image')
        self.bridge = CvBridge()
        self.sub = self.create_subscription(Image, '/camera/color/image_raw', self.image_callback, 10)
        self.save_path = '/home/hello-robot/ament_ws/src/stretch_tutorials/stored_data'
        self.br = CvBridge()

    def image_callback(self, msg):
        """
        A callback function that converts the ROS image to a CV2 image and stores the
        image.
        :param self: The self reference.
        :param msg: The ROS image message type.
        """
        
        try:
            image = self.bridge.imgmsg_to_cv2(msg, 'bgr8')
        except CvBridgeError as e:
            self.get_logger().warn('CV Bridge error: {0}'.format(e))

        file_name = 'camera_image.jpeg'
        completeName = os.path.join(self.save_path, file_name)
        cv2.imwrite(completeName, image)
        rclpy.shutdown()
        sys.exit(0)

 def main(args=None):
    rclpy.init(args=args)
    capture_image = CaptureImage()
    rclpy.spin(capture_image)

 if __name__ == '__main__':
    main()
 ```

 ### The Code Explained
 Now let's break the code down.

 ```python
 #!/usr/bin/env python3
 ```
 Every Python ROS [Node](https://docs.ros.org/en/iron/Tutorials/Beginner-CLI-Tools/Understanding-ROS2-Nodes/Understanding-ROS2-Nodes.html) will have this declaration at the top. The first line makes sure your script is executed as a Python3 script.

 ```python
 import rclpy
 import sys
 import os
 import cv2
 ```

 You need to import `rclpy` if you are writing a ROS [Node](https://docs.ros.org/en/iron/Tutorials/Beginner-CLI-Tools/Understanding-ROS2-Nodes/Understanding-ROS2-Nodes.html). There are functions from `sys`, `os`, and `cv2` that are required within this code. `cv2` is a library of Python functions that implements computer vision algorithms. Further information about cv2 can be found here: [OpenCV Python](https://www.geeksforgeeks.org/opencv-python-tutorial/).

 ```python
 from rclpy.node import Node
 from sensor_msgs.msg import Image
 from cv_bridge import CvBridge, CvBridgeError
 ```

 The `sensor_msgs.msg` is imported so that we can subscribe to ROS `Image` messages. Import [CvBridge](http://wiki.ros.org/cv_bridge) to convert between ROS `Image` messages and OpenCV images and the `Node` is neccesary to create a node in ROS2.

 ```python
 def __init__(self):
    """
    A function that initializes a CvBridge class, subscriber, and save path.
    :param self: The self reference.
    """
    super().__init__('stretch_capture_image')
    self.bridge = CvBridge()
    self.sub = self.create_subscription(Image, '/camera/color/image_raw', self.image_callback, 10)
    self.save_path = '/home/hello-robot/ament_ws/src/stretch_tutorials/stored_data'
    self.br = CvBridge()
 ```

 Initialize the node, CvBridge class, the subscriber, and the directory where the captured image will be stored.

 ```python
 def image_callback(self, msg):
    """
    A callback function that converts the ROS image to a cv2 image and stores the
    image.
    :param self: The self reference.
    :param msg: The ROS image message type.
    """
    try:
        image = self.bridge.imgmsg_to_cv2(msg, 'bgr8')
    except CvBridgeError as e:
        rospy.logwarn('CV Bridge error: {0}'.format(e))
 ```

 Try to convert the ROS Image message to a cv2 Image message using the `imgmsg_to_cv2()` function.  

 ```python
 file_name = 'camera_image.jpeg'
 completeName = os.path.join(self.save_path, file_name)
 cv2.imwrite(completeName, image)
 ```

 Join the directory and file name using the `path.join()` function. Then use the `imwrite()` function to save the image.

 ```python
 rclpy.shutdown()
 sys.exit(0)
 ```

 The first line of code initiates a clean shutdown of ROS. The second line of code exits the Python interpreter.

 ```python
    rclpy.init(args=args)
    capture_image = CaptureImage()
 ```

 The next line, rclpy.init_node initializes the node. In this case, your node will take on the name 'stretch_capture_image'. Also setup CaptureImage class with `capture_image = CaptureImage()`.

 !!! note
    The name must be a base name, i.e. it cannot contain any slashes "/".

 ```python
 rclpy.spin(capture_image)
 ```
 Give control to ROS. This will allow the callback to be called whenever new messages come in. If we don't put this line in, then the node will not work, and ROS will not process any messages.

 ## Edge Detection
 In this section, we highlight a node that utilizes the [Canny Edge filter](https://www.geeksforgeeks.org/python-opencv-canny-function/) algorithm to detect the edges from an image and convert it back as a ROS image to be visualized in RViz. In a terminal, execute:

 ```{.bash .shell-prompt}
 cd ~/ament_ws/src/stretch_tutorials/stretch_ros_tutorials
 python3 edge_detection.py
 ```

 The node will publish a new Image topic named `/image_edge_detection`. This can be visualized in RViz and a gif is provided below for reference.

 <p align="center">
  <img src="https://raw.githubusercontent.com/hello-robot/stretch_tutorials/noetic/images/camera_image_edge_detection.gif"/>
 </p>

 ### The Code

 ```python
 #!/usr/bin/env python3

 import rclpy
 from rclpy.node import Node
 import cv2

 from sensor_msgs.msg import Image
 from cv_bridge import CvBridge, CvBridgeError

 class EdgeDetection(Node):
    """
    A class that converts a subscribed ROS image to a OpenCV image and saves
    the captured image to a predefined directory.
    """
    def __init__(self):
        """
        A function that initializes a CvBridge class, subscriber, and other
        parameter values.
        :param self: The self reference.
        """
        super().__init__('stretch_edge_detection')
        self.bridge = CvBridge()
        self.sub = self.create_subscription(Image, '/camera/color/image_raw', self.callback, 1)
        self.pub = self.create_publisher(Image, '/image_edge_detection', 1)
        self.save_path = '/home/hello-robot/catkin_ws/src/stretch_tutorials/stored_data'
        self.lower_thres = 100
        self.upper_thres = 200
        self.get_logger().info("Publishing the CV2 Image. Use RViz to visualize.")

    def callback(self, msg):
        """
        A callback function that converts the ROS image to a CV2 image and goes
        through the Canny Edge filter in OpenCV for edge detection. Then publishes
        that filtered image to be visualized in RViz.
        :param self: The self reference.
        :param msg: The ROS image message type.
        """
        try:
            image = self.bridge.imgmsg_to_cv2(msg, 'bgr8')
        except CvBridgeError as e:
            self.get_logger().warn('CV Bridge error: {0}'.format(e))

        image = cv2.Canny(image, self.lower_thres, self.upper_thres)
        image_msg = self.bridge.cv2_to_imgmsg(image, 'passthrough')
        image_msg.header = msg.header
        self.pub.publish(image_msg)

 def main(args=None):
    rclpy.init(args=args)
    edge_detection = EdgeDetection()
    rclpy.spin(edge_detection)

 if __name__ == '__main__':
    main()
 ```

 ### The Code Explained
 Since there are similarities in the capture image node, we will only break down the different components of the edge detection node.

 Define the lower and upper bounds of the Hysteresis Thresholds.

 ```python
 image = cv2.Canny(image, self.lower_thres, self.upper_thres)
 ```

 Run the Canny Edge function to detect edges from the cv2 image.

 ```python
 image_msg = self.bridge.cv2_to_imgmsg(image, 'passthrough')
 ```

 Convert the cv2 image back to a ROS image so it can be published.

 ```python
 image_msg.header = msg.header
 self.pub.publish(image_msg)
 ```

 Publish the ROS image with the same header as the subscribed ROS message.