MMpose / main.py
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# Pose inferencing
import mmpose
from mmpose.apis import MMPoseInferencer
# Ultralytics
from ultralytics import YOLO
import torch
# Gradio
import gradio as gr
import moviepy.editor as moviepy
# System and files
import os
import glob
import uuid
# Image manipulation
import numpy as np
import cv2
print("[INFO]: Imported modules!")
human = MMPoseInferencer("human")
hand = MMPoseInferencer("hand")
human3d = MMPoseInferencer(pose3d="human3d")
track_model = YOLO('yolov8n.pt') # Load an official Detect model
if torch.cuda.is_available():
device = "cuda"
else:
device = "cpu"
print("[INFO]: Downloaded models!")
def check_extension(video):
split_tup = os.path.splitext(video)
# extract the file name and extension
file_name = split_tup[0]
file_extension = split_tup[1]
if file_extension != ".mp4":
print("Converting to mp4")
clip = moviepy.VideoFileClip(video)
video = file_name+".mp4"
clip.write_videofile(video)
return video
def tracking(video, model, boxes=True):
print("[INFO] Is cuda available? ", torch.cuda.is_available())
print(device)
print("[INFO] Loading model...")
# Load an official or custom model
# Perform tracking with the model
print("[INFO] Starting tracking!")
# https://docs.ultralytics.com/modes/predict/
annotated_frame = model(video, boxes=boxes, device=device)
return annotated_frame
def show_tracking(video_content):
# https://docs.ultralytics.com/datasets/detect/coco/
video = cv2.VideoCapture(video_content)
# Track
video_track = tracking(video_content, track_model.track)
# Prepare to save video
#out_file = os.path.join(vis_out_dir, "track.mp4")
out_file = "track.mp4"
print("[INFO]: TRACK", out_file)
fourcc = cv2.VideoWriter_fourcc(*"mp4v") # Codec for MP4 video
fps = video.get(cv2.CAP_PROP_FPS)
height, width, _ = video_track[0][0].orig_img.shape
size = (width,height)
out_track = cv2.VideoWriter(out_file, fourcc, fps, size)
# Go through frames and write them
for frame_track in video_track:
result_track = frame_track[0].plot() # plot a BGR numpy array of predictions
out_track.write(result_track)
print("[INFO] Done with frames")
#print(type(result_pose)) numpy ndarray
out_track.release()
video.release()
cv2.destroyAllWindows() # Closing window
return out_file
def pose3d(video):
video = check_extension(video)
print(device)
# Define new unique folder
add_dir = str(uuid.uuid4())
vis_out_dir = os.path.join("/".join(video.split("/")[:-1]), add_dir)
os.makedirs(vis_out_dir)
result_generator = human3d(video,
vis_out_dir = vis_out_dir,
thickness=2,
return_vis=True,
rebase_keypoint_height=True,
device=device)
result = [result for result in result_generator] #next(result_generator)
out_file = glob.glob(os.path.join(vis_out_dir, "*.mp4")) #+ glob.glob(os.path.join(vis_out_dir, "*.webm"))
return "".join(out_file)
def pose2d(video, kpt_threshold):
video = check_extension(video)
print(device)
# Define new unique folder
add_dir = str(uuid.uuid4())
vis_out_dir = os.path.join("/".join(video.split("/")[:-1]), add_dir)
os.makedirs(vis_out_dir)
result_generator = human(video,
vis_out_dir = vis_out_dir,
return_vis=True,
thickness=2,
rebase_keypoint_height=True,
kpt_thr=kpt_threshold,
device=device
)
result = [result for result in result_generator] #next(result_generator)
out_file = glob.glob(os.path.join(vis_out_dir, "*.mp4")) #+ glob.glob(os.path.join(vis_out_dir, "*.webm"))
return "".join(out_file)
def pose2dhand(video, kpt_threshold):
video = check_extension(video)
print(device)
# ultraltics
# Define new unique folder
add_dir = str(uuid.uuid4())
vis_out_dir = os.path.join("/".join(video.split("/")[:-1]), add_dir)
os.makedirs(vis_out_dir)
result_generator = hand(video,
vis_out_dir = vis_out_dir,
return_vis=True,
thickness=2,
rebase_keypoint_height=True,
kpt_thr=kpt_threshold,
device=device)
result = [result for result in result_generator] #next(result_generator)
out_file = glob.glob(os.path.join(vis_out_dir, "*.mp4")) #+ glob.glob(os.path.join(vis_out_dir, "*.webm"))
return "".join(out_file)
def run_UI():
with gr.Blocks() as demo:
with gr.Column():
with gr.Tab("Upload video"):
with gr.Column():
with gr.Row():
with gr.Column():
video_input = gr.Video(source="upload", type="filepath", height=612)
# Insert slider with kpt_thr
file_kpthr = gr.Slider(minimum=0.1, maximum=1, step=20, default=0.3, label='Keypoint threshold')
submit_pose_file = gr.Button("Make 2d pose estimation")
submit_pose3d_file = gr.Button("Make 3d pose estimation")
submit_hand_file = gr.Button("Make 2d hand estimation")
submit_detect_file = gr.Button("Detect and track objects")
with gr.Row():
video_output1 = gr.PlayableVideo(height=512, label = "Estimate human 2d poses", show_label=True)
video_output2 = gr.PlayableVideo(height=512, label = "Estimate human 3d poses", show_label=True)
video_output3 = gr.PlayableVideo(height=512, label = "Estimate human hand poses", show_label=True)
video_output4 = gr.Video(height=512, label = "Detection and tracking", show_label=True, format="mp4")
with gr.Tab("Record video with webcam"):
with gr.Column():
with gr.Row():
with gr.Column():
webcam_input = gr.Video(source="webcam", height=612)
web_kpthr = gr.Slider(minimum=0.1, maximum=1, step=20, default=0.3, label='Keypoint threshold')
submit_pose_web = gr.Button("Make 2d pose estimation")
submit_pose3d_web = gr.Button("Make 3d pose estimation")
submit_hand_web = gr.Button("Make 2d hand estimation")
submit_detect_web = gr.Button("Detect and track objects")
with gr.Row():
webcam_output1 = gr.PlayableVideo(height=512, label = "Estimate human 2d poses", show_label=True)
webcam_output2 = gr.PlayableVideo(height=512, label = "Estimate human 3d poses", show_label=True)
webcam_output3 = gr.PlayableVideo(height=512, label = "Estimate human hand position", show_label=True)
webcam_output4 = gr.Video(height=512, label = "Detection and tracking", show_label=True, format="mp4")
with gr.Tab("General information"):
gr.Markdown("You can load the keypoints in python in the following way: ")
gr.Code(
value="""def hello_world():
return "Hello, world!"
print(hello_world())""",
language="python",
interactive=True,
show_label=False,
)
gr.Markdown("""
\n # Information about the models
\n ## Pose models: All the pose estimation models comes from the library [MMpose](https://github.com/open-mmlab/mmpose). It is a library for human pose estimation that provides pre-trained models for 2D and 3D pose estimation.
\n ### The 2D pose model is used for estimating the 2D coordinates of human body joints from an image or a video frame. The model uses a convolutional neural network (CNN) to predict the joint locations and their confidence scores.
\n ### The 2D hand model is a specialized version of the 2D pose model that is designed for hand pose estimation. It uses a similar CNN architecture to the 2D pose model but is trained specifically for detecting the joints in the hand.
\n ### The 3D pose model is used for estimating the 3D coordinates of human body joints from an image or a video frame. The model uses a combination of 2D pose estimation and depth estimation to infer the 3D joint locations.
\n ### All of these models are pre-trained on large datasets and can be fine-tuned on custom datasets for specific applications.
\n ## Ultralight detection and tracking model: The `track()` method in the Ultralight model is used for object tracking in videos. It takes a video file or a camera stream as input and returns the tracked objects in each frame. The method uses the COCO dataset classes for object detection and tracking.
\n ### The COCO dataset contains 80 classes of objects such as person, car, bicycle, etc. See https://docs.ultralytics.com/datasets/detect/coco/ for all available classes. The `track()` method uses the COCO classes to detect and track the objects in the video frames.
The tracked objects are represented as bounding boxes with labels indicating the class of the object.""")
# From file
submit_pose_file.click(fn=pose2d,
inputs= [video_input, file_kpthr],
outputs = video_output1)
submit_pose3d_file.click(fn=pose3d,
inputs= video_input,
outputs = video_output2)
submit_hand_file.click(fn=pose2dhand,
inputs= [video_input, file_kpthr],
outputs = video_output3)
submit_detect_file.click(fn=show_tracking,
inputs= video_input,
outputs = video_output4)
# Web
submit_pose_web.click(fn=pose2d,
inputs = [webcam_input, web_kpthr],
outputs = webcam_output1)
submit_pose3d_web.click(fn=pose3d,
inputs= webcam_input,
outputs = webcam_output2)
submit_hand_web.click(fn=pose2dhand,
inputs= [webcam_input, web_kpthr],
outputs = webcam_output3)
submit_detect_web.click(fn=show_tracking,
inputs= webcam_input,
outputs = webcam_output4)
demo.launch(server_name="0.0.0.0", server_port=7860)
if __name__ == "__main__":
run_UI()