Simulator/scripts/data_to_mcap.py

import os
import json
import numpy as np
import base64
from mcap.writer import Writer

# Official Foxglove JSON Schemas
FOXGLOVE_POSE_SCHEMA = {
    "$schema": "https://json-schema.org/draft/2020-12/schema",
    "$id": "foxglove.Pose",
    "title": "foxglove.Pose",
    "type": "object",
    "properties": {
        "position": {
            "type": "object",
            "properties": {"x": {"type": "number"}, "y": {"type": "number"}, "z": {"type": "number"}}
        },
        "orientation": {
            "type": "object",
            "properties": {"x": {"type": "number"}, "y": {"type": "number"}, "z": {"type": "number"}, "w": {"type": "number"}}
        }
    }
}

FOXGLOVE_IMAGE_SCHEMA = {
    "$schema": "https://json-schema.org/draft/2020-12/schema",
    "$id": "foxglove.CompressedImage",
    "title": "foxglove.CompressedImage",
    "type": "object",
    "properties": {
        "timestamp": {
            "type": "object",
            "properties": {"sec": {"type": "integer"}, "nsec": {"type": "integer"}}
        },
        "frame_id": {"type": "string"},
        "data": {"type": "string", "contentEncoding": "base64"},
        "format": {"type": "string"}
    }
}

FOXGLOVE_PCL_SCHEMA = {
    "$schema": "https://json-schema.org/draft/2020-12/schema",
    "$id": "foxglove.PointCloud",
    "title": "foxglove.PointCloud",
    "type": "object",
    "properties": {
        "timestamp": {
            "type": "object",
            "properties": {"sec": {"type": "integer"}, "nsec": {"type": "integer"}}
        },
        "frame_id": {"type": "string"},
        "pose": FOXGLOVE_POSE_SCHEMA,
        "point_stride": {"type": "integer"},
        "fields": {
            "type": "array",
            "items": {
                "type": "object",
                "properties": {
                    "name": {"type": "string"},
                    "offset": {"type": "integer"},
                    "type": {"type": "integer"}
                }
            }
        },
        "data": {"type": "string", "contentEncoding": "base64"}
    }
}

def load_frames(folder_path):
    with open(os.path.join(folder_path, "frames.jsonl")) as f:
        for line in f:
            yield json.loads(line)

def convert_folder(folder_path):
    folder_name = os.path.basename(folder_path)
    output_path = os.path.join(folder_path, f"{folder_name}.mcap")
    
    if os.path.exists(output_path):
        print(f"\n>>> Skipping folder (MCAP already exists): {folder_name}", flush=True)
        return

    print(f"\n>>> Processing folder: {folder_name}", flush=True)
    print(f"Target MCAP: {output_path}", flush=True)

    with open(output_path, "wb") as f:
        writer = Writer(f)
        writer.start(profile="foxglove")

        # Register Schemas
        pose_schema_id = writer.register_schema(name="foxglove.Pose", encoding="jsonschema", data=json.dumps(FOXGLOVE_POSE_SCHEMA).encode())
        camera_schema_id = writer.register_schema(name="foxglove.CompressedImage", encoding="jsonschema", data=json.dumps(FOXGLOVE_IMAGE_SCHEMA).encode())
        lidar_schema_id = writer.register_schema(name="foxglove.PointCloud", encoding="jsonschema", data=json.dumps(FOXGLOVE_PCL_SCHEMA).encode())

        # Register Channels
        camera_channel_id = writer.register_channel(topic="/camera", message_encoding="json", schema_id=camera_schema_id)
        camera_tpp_channel_id = writer.register_channel(topic="/camera_tpp", message_encoding="json", schema_id=camera_schema_id)
        lidar_channel_id = writer.register_channel(topic="/lidar", message_encoding="json", schema_id=lidar_schema_id)
        pose_channel_id = writer.register_channel(topic="/ego_pose", message_encoding="json", schema_id=pose_schema_id)
        radar_channel_id = writer.register_channel(topic="/radar", message_encoding="json", schema_id=lidar_schema_id)
        shenron_channel_id = writer.register_channel(topic="/radar/shenron", message_encoding="json", schema_id=lidar_schema_id)

        frame_count = 0
        for frame in load_frames(folder_path):
            ts_ns = int(frame["timestamp"] * 1e9)
            ts_sec = ts_ns // 1_000_000_000
            ts_nsec = ts_ns % 1_000_000_000

            raw_pose = frame["ego_pose"]
            x, y, z = raw_pose["x"], -raw_pose["y"], raw_pose["z"]
            yaw_rad = -np.radians(raw_pose.get("yaw", 0))
            
            ego_world_pose = {
                "position": {"x": x, "y": y, "z": z},
                "orientation": {"x": 0.0, "y": 0.0, "z": float(np.sin(yaw_rad/2)), "w": float(np.cos(yaw_rad/2))} 
            }
            identity_pose = {"position": {"x": 0.0, "y": 0.0, "z": 0.0}, "orientation": {"x": 0.0, "y": 0.0, "z": 0.0, "w": 1.0}}

            # CAMERA
            camera_path = os.path.join(folder_path, "camera", frame["camera"])
            if os.path.exists(camera_path):
                with open(camera_path, "rb") as img_f:
                    img_bytes = img_f.read()
                cam_msg = {
                    "timestamp": {"sec": ts_sec, "nsec": ts_nsec},
                    "frame_id": "ego_vehicle",
                    "format": "png" if frame["camera"].endswith(".png") else "jpeg",
                    "data": base64.b64encode(img_bytes).decode("ascii")
                }
                writer.add_message(camera_channel_id, log_time=ts_ns, data=json.dumps(cam_msg).encode(), publish_time=ts_ns)

            # CAMERA (TPP)
            if "camera_tpp" in frame:
                camera_tpp_path = os.path.join(folder_path, "camera_tpp", frame["camera_tpp"])
                if os.path.exists(camera_tpp_path):
                    with open(camera_tpp_path, "rb") as img_f:
                        img_bytes = img_f.read()
                    cam_tpp_msg = {
                        "timestamp": {"sec": ts_sec, "nsec": ts_nsec},
                        "frame_id": "ego_vehicle",
                        "format": "png" if frame["camera_tpp"].endswith(".png") else "jpeg",
                        "data": base64.b64encode(img_bytes).decode("ascii")
                    }
                    writer.add_message(camera_tpp_channel_id, log_time=ts_ns, data=json.dumps(cam_tpp_msg).encode(), publish_time=ts_ns)

            # EGO POSE
            writer.add_message(pose_channel_id, log_time=ts_ns, data=json.dumps(ego_world_pose).encode(), publish_time=ts_ns)

            # LIDAR
            lidar_path = os.path.join(folder_path, "lidar", frame["lidar"])
            if os.path.exists(lidar_path):
                points = np.load(lidar_path)
                # Robustness handle 6 vs 7 cols
                if points.shape[1] == 6:
                    # Pad to [x, y, z, velocity, cos, obj, tag]
                    padded = np.zeros((points.shape[0], 7), dtype=np.float32)
                    padded[:, 0:3] = points[:, 0:3]
                    padded[:, 4] = points[:, 3] # cos
                    padded[:, 5] = points[:, 4].view(np.uint32).astype(np.float32) # obj
                    padded[:, 6] = points[:, 5].view(np.uint32).astype(np.float32) # tag
                    ros_points = padded
                else:
                    ros_points = points.copy().astype(np.float32)
                    # Correct bits for [x,y,z,vel,cos,obj,tag]
                    ros_points[:, 5] = ros_points[:, 5].view(np.uint32).astype(np.float32)
                    ros_points[:, 6] = ros_points[:, 6].view(np.uint32).astype(np.float32)

                ros_points[:, 1] = -ros_points[:, 1] # RHS conversion
                
                # MOUNT OFFSET: LiDAR is on the roof (Z=2.5)
                lidar_pose = {"position": {"x": 0.0, "y": 0.0, "z": 2.5}, "orientation": {"x": 0.0, "y": 0.0, "z": 0.0, "w": 1.0}}
                
                lidar_msg = {
                    "timestamp": {"sec": ts_sec, "nsec": ts_nsec},
                    "frame_id": "ego_vehicle", "pose": lidar_pose, "point_stride": 28,
                    "fields": [
                        {"name":"x","offset":0,"type":7}, 
                        {"name":"y","offset":4,"type":7}, 
                        {"name":"z","offset":8,"type":7},
                        {"name":"velocity","offset":12,"type":7},
                        {"name":"cos_inc_angle","offset":16,"type":7},
                        {"name":"object_id","offset":20,"type":7},
                        {"name":"semantic_tag","offset":24,"type":7}
                    ],
                    "data": base64.b64encode(ros_points.tobytes()).decode("ascii")
                }
                writer.add_message(lidar_channel_id, log_time=ts_ns, data=json.dumps(lidar_msg).encode(), publish_time=ts_ns)

            # RADAR
            radar_path = os.path.join(folder_path, "radar", frame["radar"])
            if os.path.exists(radar_path):
                r_data = np.load(radar_path)
                if r_data.size > 0:
                    # r_data = [depth, azimuth, altitude, velocity]
                    # We negate azimuth to convert from CARLA (Right-handed for Y) 
                    # note: CARLA is actually LHS (X-fwd, Y-right, Z-up)
                    # ROS is RHS (X-fwd, Y-left, Z-up) -> Negating Y converts it.
                    dist, az, alt, vel = r_data[:, 0], -r_data[:, 1], r_data[:, 2], r_data[:, 3]
                    
                    xr, yr, zr = dist*np.cos(az)*np.cos(alt), dist*np.sin(az)*np.cos(alt), dist*np.sin(alt)
                    
                    # Stack X, Y, Z, and Velocity (4 floats = 16 bytes stride)
                    radar_points = np.stack([xr, yr, zr, vel], axis=1).astype(np.float32)
                    
                    # MOUNT OFFSET: Radar is on the bumper (X=2.0, Z=1.0)
                    radar_pose = {"position": {"x": 2.0, "y": 0.0, "z": 1.0}, "orientation": {"x": 0.0, "y": 0.0, "z": 0.0, "w": 1.0}}

                    radar_msg = {
                        "timestamp": {"sec": ts_sec, "nsec": ts_nsec},
                        "frame_id": "ego_vehicle", 
                        "pose": radar_pose, 
                        "point_stride": 16,
                        "fields": [
                            {"name":"x","offset":0,"type":7}, 
                            {"name":"y","offset":4,"type":7}, 
                            {"name":"z","offset":8,"type":7},
                            {"name":"velocity","offset":12,"type":7}
                        ],
                        "data": base64.b64encode(radar_points.tobytes()).decode("ascii")
                    }
                    writer.add_message(radar_channel_id, log_time=ts_ns, data=json.dumps(radar_msg).encode(), publish_time=ts_ns)

            # SHENRON RADAR
            shenron_file = f"frame_{int(frame['frame_id']):06d}.npy"
            shenron_path = os.path.join(folder_path, "shenron_radar", shenron_file)
            if os.path.exists(shenron_path):
                s_data = np.load(shenron_path)
                if s_data.size > 0:
                    # s_data = [x, y, z, velocity, magnitude]
                    # ISOLATE coords: X is fwd, Y is right.
                    # ROS: X is fwd, Y is left.
                    ros_shenron = s_data.copy().astype(np.float32)
                    ros_shenron[:, 1] = -ros_shenron[:, 1] # Negate Y for ROS
                    
                    # MOUNT OFFSET: Shenron Radar is on the bumper (X=2.0, Z=1.0)
                    shenron_pose = {"position": {"x": 2.0, "y": 0.0, "z": 1.0}, "orientation": {"x": 0.0, "y": 0.0, "z": 0.0, "w": 1.0}}

                    shenron_msg = {
                        "timestamp": {"sec": ts_sec, "nsec": ts_nsec},
                        "frame_id": "ego_vehicle", 
                        "pose": shenron_pose, 
                        "point_stride": 20, # 5 floats * 4 bytes
                        "fields": [
                            {"name":"x","offset":0,"type":7}, 
                            {"name":"y","offset":4,"type":7}, 
                            {"name":"z","offset":8,"type":7},
                            {"name":"velocity","offset":12,"type":7},
                            {"name":"magnitude","offset":16,"type":7}
                        ],
                        "data": base64.b64encode(ros_shenron.tobytes()).decode("ascii")
                    }
                    writer.add_message(shenron_channel_id, log_time=ts_ns, data=json.dumps(shenron_msg).encode(), publish_time=ts_ns)

            frame_count += 1
            if frame_count % 50 == 0:
                print(f"  Processed {frame_count} frames...", flush=True)

        writer.finish()
    print(f"  Done! MCAP saved: {output_path} ({os.path.getsize(output_path)/1024/1024:.2f} MB)", flush=True)

def main():
    PROJECT_ROOT = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
    root_data = os.path.join(PROJECT_ROOT, "data")
    if not os.path.exists(root_data):
        print(f"Error: {root_data} directory not found.")
        return

    folders = [os.path.join(root_data, d) for d in os.listdir(root_data) if os.path.isdir(os.path.join(root_data, d))]
    
    # Also check if 'root_data' itself contains 'frames.jsonl' (legacy single-folder mode)
    if os.path.exists(os.path.join(root_data, "frames.jsonl")):
        convert_folder(root_data)
    
    for folder in folders:
        if os.path.exists(os.path.join(folder, "frames.jsonl")):
            # Check if MCAP already exists and avoid re-processing if you prefer, 
            # but here we'll process all matching folders.
            convert_folder(folder)

if __name__ == "__main__":
    main()