sample_integrator_rm_vlc.py

#------------------------------------------------------------------------------
# RGBD integration using Open3D. "Color" information comes from one of the
# sideview grayscale cameras.
# Press space to stop.
#------------------------------------------------------------------------------

from pynput import keyboard

import multiprocessing as mp
import open3d as o3d
import cv2
import hl2ss
import hl2ss_lnm
import hl2ss_mp
import hl2ss_3dcv

# Settings --------------------------------------------------------------------

# HoloLens address
host = '192.168.1.7'

# Calibration path (must exist but can be empty)
calibration_path = '../calibration'

# Camera selection and parameters
vlc_port = hl2ss.StreamPort.RM_VLC_LEFTFRONT

# Buffer length in seconds
buffer_length = 10

# Integration parameters
voxel_length = 1/100
sdf_trunc = 0.04
max_depth = 3.0

#------------------------------------------------------------------------------

if __name__ == '__main__':
    # Keyboard events ---------------------------------------------------------
    enable = True

    def on_press(key):
        global enable
        enable = key != keyboard.Key.space
        return enable

    listener = keyboard.Listener(on_press=on_press)
    listener.start()

    # Get RM VLC and RM Depth Long Throw calibration --------------------------
    # Calibration data will be downloaded if it's not in the calibration folder
    calibration_vlc = hl2ss_3dcv.get_calibration_rm(host, vlc_port, calibration_path)
    calibration_lt = hl2ss_3dcv.get_calibration_rm(host, hl2ss.StreamPort.RM_DEPTH_LONGTHROW, calibration_path)

    uv2xy = hl2ss_3dcv.compute_uv2xy(calibration_lt.intrinsics, hl2ss.Parameters_RM_DEPTH_LONGTHROW.WIDTH, hl2ss.Parameters_RM_DEPTH_LONGTHROW.HEIGHT)
    xy1, scale = hl2ss_3dcv.rm_depth_compute_rays(uv2xy, calibration_lt.scale)
    
    # Create Open3D integrator and visualizer ---------------------------------
    volume = o3d.pipelines.integration.ScalableTSDFVolume(voxel_length=voxel_length, sdf_trunc=sdf_trunc, color_type=o3d.pipelines.integration.TSDFVolumeColorType.RGB8)
    intrinsics_depth = o3d.camera.PinholeCameraIntrinsic(hl2ss.Parameters_RM_DEPTH_LONGTHROW.WIDTH, hl2ss.Parameters_RM_DEPTH_LONGTHROW.HEIGHT, calibration_lt.intrinsics[0, 0], calibration_lt.intrinsics[1, 1], calibration_lt.intrinsics[2, 0], calibration_lt.intrinsics[2, 1])
    
    vis = o3d.visualization.Visualizer()
    vis.create_window()
    first_pcd = True

    # Start RM VLC and RM Depth Long Throw streams ----------------------------
    producer = hl2ss_mp.producer()
    producer.configure(vlc_port, hl2ss_lnm.rx_rm_vlc(host, vlc_port))
    producer.configure(hl2ss.StreamPort.RM_DEPTH_LONGTHROW, hl2ss_lnm.rx_rm_depth_longthrow(host, hl2ss.StreamPort.RM_DEPTH_LONGTHROW))
    producer.initialize(vlc_port, hl2ss.Parameters_RM_VLC.FPS * buffer_length)
    producer.initialize(hl2ss.StreamPort.RM_DEPTH_LONGTHROW, hl2ss.Parameters_RM_DEPTH_LONGTHROW.FPS * buffer_length)
    producer.start(vlc_port)
    producer.start(hl2ss.StreamPort.RM_DEPTH_LONGTHROW)

    consumer = hl2ss_mp.consumer()
    manager = mp.Manager()    
    sink_vlc = consumer.create_sink(producer, vlc_port, manager, None)
    sink_depth = consumer.create_sink(producer, hl2ss.StreamPort.RM_DEPTH_LONGTHROW, manager, ...)

    sink_vlc.get_attach_response()
    sink_depth.get_attach_response()

    # Main Loop ---------------------------------------------------------------
    while (enable):
        # Wait for RM Depth Long Throw frame ----------------------------------
        sink_depth.acquire()

        # Get RM Depth Long Throw frame and nearest (in time) RM VLC frame ----
        _, data_depth = sink_depth.get_most_recent_frame()
        if ((data_depth is None) or (not hl2ss.is_valid_pose(data_depth.pose))):
            continue

        _, data_vlc = sink_vlc.get_nearest(data_depth.timestamp)
        if ((data_vlc is None) or (not hl2ss.is_valid_pose(data_vlc.pose))):
            continue

        # Preprocess frames ---------------------------------------------------
        depth = hl2ss_3dcv.rm_depth_undistort(data_depth.payload.depth, calibration_lt.undistort_map)
        depth = hl2ss_3dcv.rm_depth_normalize(depth, scale)
        color = cv2.remap(data_vlc.payload.image, calibration_vlc.undistort_map[:, :, 0], calibration_vlc.undistort_map[:, :, 1], cv2.INTER_LINEAR)

        # Generate aligned RGBD image -----------------------------------------
        lt_points          = hl2ss_3dcv.rm_depth_to_points(xy1, depth)
        lt_to_world        = hl2ss_3dcv.camera_to_rignode(calibration_lt.extrinsics) @ hl2ss_3dcv.reference_to_world(data_depth.pose)
        world_to_lt        = hl2ss_3dcv.world_to_reference(data_depth.pose) @ hl2ss_3dcv.rignode_to_camera(calibration_lt.extrinsics)
        world_to_vlc_image = hl2ss_3dcv.world_to_reference(data_vlc.pose) @ hl2ss_3dcv.rignode_to_camera(calibration_vlc.extrinsics) @ hl2ss_3dcv.camera_to_image(calibration_vlc.intrinsics)
        world_points       = hl2ss_3dcv.transform(lt_points, lt_to_world)
        vlc_uv             = hl2ss_3dcv.project(world_points, world_to_vlc_image)
        color              = cv2.remap(color, vlc_uv[:, :, 0], vlc_uv[:, :, 1], cv2.INTER_LINEAR)

        mask_uv = hl2ss_3dcv.slice_to_block((vlc_uv[:, :, 0] < 0) | (vlc_uv[:, :, 0] >= hl2ss.Parameters_RM_VLC.WIDTH) | (vlc_uv[:, :, 1] < 0) | (vlc_uv[:, :, 1] >= hl2ss.Parameters_RM_VLC.HEIGHT))
        depth[mask_uv] = 0

        # Convert to Open3D RGBD image ----------------------------------------
        color = hl2ss_3dcv.rm_vlc_to_rgb(color)
        color_image = o3d.geometry.Image(color)
        depth_image = o3d.geometry.Image(depth)
        rgbd = o3d.geometry.RGBDImage.create_from_color_and_depth(color_image, depth_image, depth_scale=1, depth_trunc=max_depth, convert_rgb_to_intensity=False)

        # Integrate RGBD and display point cloud ------------------------------
        volume.integrate(rgbd, intrinsics_depth, world_to_lt.transpose())
        pcd_tmp = volume.extract_point_cloud()

        if (first_pcd):
            first_pcd = False
            pcd = pcd_tmp
            vis.add_geometry(pcd)
        else:
            pcd.points = pcd_tmp.points
            pcd.colors = pcd_tmp.colors
            vis.update_geometry(pcd)

        vis.poll_events()
        vis.update_renderer()

    # Stop RM VLC and RM Depth Long Throw streams -----------------------------
    sink_vlc.detach()
    sink_depth.detach()
    producer.stop(vlc_port)
    producer.stop(hl2ss.StreamPort.RM_DEPTH_LONGTHROW)

    # Stop keyboard events ----------------------------------------------------
    listener.join()

    # Show final point cloud --------------------------------------------------
    vis.run()