import sys sys.path.append("../../") import os import json import time import psutil import argparse import cv2 import torch import torchvision import numpy as np import gradio as gr from tools.painter import mask_painter from track_anything import TrackingAnything from model.misc import get_device from utils.download_util import load_file_from_url, download_url_to_file # make sample videos into mp4 as git does not allow mp4 without lfs sample_videos_path = os.path.join('/home/user/app/web-demos/hugging_face/', "test_sample/") download_url_to_file("https://github-production-user-asset-6210df.s3.amazonaws.com/14334509/281805130-e57c7016-5a6d-4d3b-9df9-b4ea6372cc87.mp4", os.path.join(sample_videos_path, "test-sample0.mp4")) download_url_to_file("https://github-production-user-asset-6210df.s3.amazonaws.com/14334509/281828039-5def0fc9-3a22-45b7-838d-6bf78b6772c3.mp4", os.path.join(sample_videos_path, "test-sample1.mp4")) download_url_to_file("https://github-production-user-asset-6210df.s3.amazonaws.com/76810782/281807801-69b9f70c-1e56-428d-9b1b-4870c5e533a7.mp4", os.path.join(sample_videos_path, "test-sample2.mp4")) download_url_to_file("https://github-production-user-asset-6210df.s3.amazonaws.com/76810782/281808625-ad98f03f-99c7-4008-acf1-3d7beb48f13b.mp4", os.path.join(sample_videos_path, "test-sample3.mp4")) download_url_to_file("https://github-production-user-asset-6210df.s3.amazonaws.com/14334509/281828066-ee09ae82-916f-4a2e-a6c7-6fc50645fd20.mp4", os.path.join(sample_videos_path, "test-sample4.mp4")) def parse_augment(): parser = argparse.ArgumentParser() parser.add_argument('--device', type=str, default=None) parser.add_argument('--sam_model_type', type=str, default="vit_h") parser.add_argument('--port', type=int, default=8000, help="only useful when running gradio applications") parser.add_argument('--mask_save', default=False) args = parser.parse_args() if not args.device: args.device = str(get_device()) return args # convert points input to prompt state def get_prompt(click_state, click_input): inputs = json.loads(click_input) points = click_state[0] labels = click_state[1] for input in inputs: points.append(input[:2]) labels.append(input[2]) click_state[0] = points click_state[1] = labels prompt = { "prompt_type":["click"], "input_point":click_state[0], "input_label":click_state[1], "multimask_output":"True", } return prompt # extract frames from upload video def get_frames_from_video(video_input, video_state): """ Args: video_path:str timestamp:float64 Return [[0:nearest_frame], [nearest_frame:], nearest_frame] """ video_path = video_input frames = [] user_name = time.time() status_ok = True operation_log = [("[Must Do]", "Click image"), (": Video uploaded! Try to click the image shown in step2 to add masks.\n", None)] try: cap = cv2.VideoCapture(video_path) fps = cap.get(cv2.CAP_PROP_FPS) length = int(cap.get(cv2.CAP_PROP_FRAME_COUNT)) if length >= 500: operation_log = [("You uploaded a video with more than 500 frames. Stop the video extraction. Kindly lower the video frame rate to a value below 500. We highly recommend deploying the demo locally for long video processing.", "Error")] ret, frame = cap.read() if ret == True: original_h, original_w = frame.shape[:2] scale_factor = min(1, 1280/max(original_h, original_w)) target_h, target_w = int(original_h*scale_factor), int(original_w*scale_factor) frames.append(cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)) status_ok = False else: while cap.isOpened(): ret, frame = cap.read() if ret == True: # resize input image original_h, original_w = frame.shape[:2] scale_factor = min(1, 1280/max(original_h, original_w)) target_h, target_w = int(original_h*scale_factor), int(original_w*scale_factor) if scale_factor != 1: frame = cv2.resize(frame, (target_w, target_h)) frames.append(cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)) else: break t = len(frames) print(f'Inp video shape: t_{t}, s_{original_h}x{original_w} to s_{target_h}x{target_w}') except (OSError, TypeError, ValueError, KeyError, SyntaxError) as e: status_ok = False print("read_frame_source:{} error. {}\n".format(video_path, str(e))) # initialize video_state if frames[0].shape[0] > 720 or frames[0].shape[1] > 720: operation_log = [(f"Video uploaded! Try to click the image shown in step2 to add masks. (You uploaded a video with a size of {original_w}x{original_h}, and the length of its longest edge exceeds 720 pixels. We may resize the input video during processing.)", "Normal")] video_state = { "user_name": user_name, "video_name": os.path.split(video_path)[-1], "origin_images": frames, "painted_images": frames.copy(), "masks": [np.zeros((target_h, target_w), np.uint8)]*len(frames), "logits": [None]*len(frames), "select_frame_number": 0, "fps": fps } video_info = "Video Name: {},\nFPS: {},\nTotal Frames: {},\nImage Size:{}".format(video_state["video_name"], round(video_state["fps"], 0), length, (original_w, original_h)) model.samcontroler.sam_controler.reset_image() model.samcontroler.sam_controler.set_image(video_state["origin_images"][0]) return video_state, video_info, video_state["origin_images"][0], gr.update(visible=status_ok, maximum=len(frames), value=1), gr.update(visible=status_ok, maximum=len(frames), value=len(frames)), \ gr.update(visible=status_ok), gr.update(visible=status_ok), \ gr.update(visible=status_ok), gr.update(visible=status_ok),\ gr.update(visible=status_ok), gr.update(visible=status_ok), \ gr.update(visible=status_ok), gr.update(visible=status_ok), \ gr.update(visible=status_ok), gr.update(visible=status_ok), \ gr.update(visible=status_ok), gr.update(visible=status_ok, choices=[], value=[]), \ gr.update(visible=True, value=operation_log), gr.update(visible=status_ok, value=operation_log) # get the select frame from gradio slider def select_template(image_selection_slider, video_state, interactive_state, mask_dropdown): # images = video_state[1] image_selection_slider -= 1 video_state["select_frame_number"] = image_selection_slider # once select a new template frame, set the image in sam model.samcontroler.sam_controler.reset_image() model.samcontroler.sam_controler.set_image(video_state["origin_images"][image_selection_slider]) operation_log = [("",""), ("Select tracking start frame {}. Try to click the image to add masks for tracking.".format(image_selection_slider),"Normal")] return video_state["painted_images"][image_selection_slider], video_state, interactive_state, operation_log, operation_log # set the tracking end frame def get_end_number(track_pause_number_slider, video_state, interactive_state): interactive_state["track_end_number"] = track_pause_number_slider operation_log = [("",""),("Select tracking finish frame {}.Try to click the image to add masks for tracking.".format(track_pause_number_slider),"Normal")] return video_state["painted_images"][track_pause_number_slider],interactive_state, operation_log, operation_log # use sam to get the mask def sam_refine(video_state, point_prompt, click_state, interactive_state, evt:gr.SelectData): """ Args: template_frame: PIL.Image point_prompt: flag for positive or negative button click click_state: [[points], [labels]] """ if point_prompt == "Positive": coordinate = "[[{},{},1]]".format(evt.index[0], evt.index[1]) interactive_state["positive_click_times"] += 1 else: coordinate = "[[{},{},0]]".format(evt.index[0], evt.index[1]) interactive_state["negative_click_times"] += 1 # prompt for sam model model.samcontroler.sam_controler.reset_image() model.samcontroler.sam_controler.set_image(video_state["origin_images"][video_state["select_frame_number"]]) prompt = get_prompt(click_state=click_state, click_input=coordinate) mask, logit, painted_image = model.first_frame_click( image=video_state["origin_images"][video_state["select_frame_number"]], points=np.array(prompt["input_point"]), labels=np.array(prompt["input_label"]), multimask=prompt["multimask_output"], ) video_state["masks"][video_state["select_frame_number"]] = mask video_state["logits"][video_state["select_frame_number"]] = logit video_state["painted_images"][video_state["select_frame_number"]] = painted_image operation_log = [("[Must Do]", "Add mask"), (": add the current displayed mask for video segmentation.\n", None), ("[Optional]", "Remove mask"), (": remove all added masks.\n", None), ("[Optional]", "Clear clicks"), (": clear current displayed mask.\n", None), ("[Optional]", "Click image"), (": Try to click the image shown in step2 if you want to generate more masks.\n", None)] return painted_image, video_state, interactive_state, operation_log, operation_log def add_multi_mask(video_state, interactive_state, mask_dropdown): try: mask = video_state["masks"][video_state["select_frame_number"]] interactive_state["multi_mask"]["masks"].append(mask) interactive_state["multi_mask"]["mask_names"].append("mask_{:03d}".format(len(interactive_state["multi_mask"]["masks"]))) mask_dropdown.append("mask_{:03d}".format(len(interactive_state["multi_mask"]["masks"]))) select_frame, _, _ = show_mask(video_state, interactive_state, mask_dropdown) operation_log = [("",""),("Added a mask, use the mask select for target tracking or inpainting.","Normal")] except: operation_log = [("Please click the image in step2 to generate masks.", "Error"), ("","")] return interactive_state, gr.update(choices=interactive_state["multi_mask"]["mask_names"], value=mask_dropdown), select_frame, [[],[]], operation_log, operation_log def clear_click(video_state, click_state): click_state = [[],[]] template_frame = video_state["origin_images"][video_state["select_frame_number"]] operation_log = [("",""), ("Cleared points history and refresh the image.","Normal")] return template_frame, click_state, operation_log, operation_log def remove_multi_mask(interactive_state, mask_dropdown): interactive_state["multi_mask"]["mask_names"]= [] interactive_state["multi_mask"]["masks"] = [] operation_log = [("",""), ("Remove all masks. Try to add new masks","Normal")] return interactive_state, gr.update(choices=[],value=[]), operation_log, operation_log def show_mask(video_state, interactive_state, mask_dropdown): mask_dropdown.sort() select_frame = video_state["origin_images"][video_state["select_frame_number"]] for i in range(len(mask_dropdown)): mask_number = int(mask_dropdown[i].split("_")[1]) - 1 mask = interactive_state["multi_mask"]["masks"][mask_number] select_frame = mask_painter(select_frame, mask.astype('uint8'), mask_color=mask_number+2) operation_log = [("",""), ("Added masks {}. If you want to do the inpainting with current masks, please go to step3, and click the Tracking button first and then Inpainting button.".format(mask_dropdown),"Normal")] return select_frame, operation_log, operation_log # tracking vos def vos_tracking_video(video_state, interactive_state, mask_dropdown): operation_log = [("",""), ("Tracking finished! Try to click the Inpainting button to get the inpainting result.","Normal")] model.cutie.clear_memory() if interactive_state["track_end_number"]: following_frames = video_state["origin_images"][video_state["select_frame_number"]:interactive_state["track_end_number"]] else: following_frames = video_state["origin_images"][video_state["select_frame_number"]:] if interactive_state["multi_mask"]["masks"]: if len(mask_dropdown) == 0: mask_dropdown = ["mask_001"] mask_dropdown.sort() template_mask = interactive_state["multi_mask"]["masks"][int(mask_dropdown[0].split("_")[1]) - 1] * (int(mask_dropdown[0].split("_")[1])) for i in range(1,len(mask_dropdown)): mask_number = int(mask_dropdown[i].split("_")[1]) - 1 template_mask = np.clip(template_mask+interactive_state["multi_mask"]["masks"][mask_number]*(mask_number+1), 0, mask_number+1) video_state["masks"][video_state["select_frame_number"]]= template_mask else: template_mask = video_state["masks"][video_state["select_frame_number"]] fps = video_state["fps"] # operation error if len(np.unique(template_mask))==1: template_mask[0][0]=1 operation_log = [("Please add at least one mask to track by clicking the image in step2.","Error"), ("","")] # return video_output, video_state, interactive_state, operation_error masks, logits, painted_images = model.generator(images=following_frames, template_mask=template_mask) # clear GPU memory model.cutie.clear_memory() if interactive_state["track_end_number"]: video_state["masks"][video_state["select_frame_number"]:interactive_state["track_end_number"]] = masks video_state["logits"][video_state["select_frame_number"]:interactive_state["track_end_number"]] = logits video_state["painted_images"][video_state["select_frame_number"]:interactive_state["track_end_number"]] = painted_images else: video_state["masks"][video_state["select_frame_number"]:] = masks video_state["logits"][video_state["select_frame_number"]:] = logits video_state["painted_images"][video_state["select_frame_number"]:] = painted_images video_output = generate_video_from_frames(video_state["painted_images"], output_path="./result/track/{}".format(video_state["video_name"]), fps=fps) # import video_input to name the output video interactive_state["inference_times"] += 1 print("For generating this tracking result, inference times: {}, click times: {}, positive: {}, negative: {}".format(interactive_state["inference_times"], interactive_state["positive_click_times"]+interactive_state["negative_click_times"], interactive_state["positive_click_times"], interactive_state["negative_click_times"])) #### shanggao code for mask save if interactive_state["mask_save"]: if not os.path.exists('./result/mask/{}'.format(video_state["video_name"].split('.')[0])): os.makedirs('./result/mask/{}'.format(video_state["video_name"].split('.')[0])) i = 0 print("save mask") for mask in video_state["masks"]: np.save(os.path.join('./result/mask/{}'.format(video_state["video_name"].split('.')[0]), '{:05d}.npy'.format(i)), mask) i+=1 # save_mask(video_state["masks"], video_state["video_name"]) #### shanggao code for mask save return video_output, video_state, interactive_state, operation_log, operation_log # inpaint def inpaint_video(video_state, resize_ratio_number, dilate_radius_number, raft_iter_number, subvideo_length_number, neighbor_length_number, ref_stride_number, mask_dropdown): operation_log = [("",""), ("Inpainting finished!","Normal")] frames = np.asarray(video_state["origin_images"]) fps = video_state["fps"] inpaint_masks = np.asarray(video_state["masks"]) if len(mask_dropdown) == 0: mask_dropdown = ["mask_001"] mask_dropdown.sort() # convert mask_dropdown to mask numbers inpaint_mask_numbers = [int(mask_dropdown[i].split("_")[1]) for i in range(len(mask_dropdown))] # interate through all masks and remove the masks that are not in mask_dropdown unique_masks = np.unique(inpaint_masks) num_masks = len(unique_masks) - 1 for i in range(1, num_masks + 1): if i in inpaint_mask_numbers: continue inpaint_masks[inpaint_masks==i] = 0 # inpaint for videos inpainted_frames = model.baseinpainter.inpaint(frames, inpaint_masks, ratio=resize_ratio_number, dilate_radius=dilate_radius_number, raft_iter=raft_iter_number, subvideo_length=subvideo_length_number, neighbor_length=neighbor_length_number, ref_stride=ref_stride_number) # numpy array, T, H, W, 3 video_output = generate_video_from_frames(inpainted_frames, output_path="./result/inpaint/{}".format(video_state["video_name"]), fps=fps) # import video_input to name the output video return video_output, operation_log, operation_log # generate video after vos inference def generate_video_from_frames(frames, output_path, fps=30): """ Generates a video from a list of frames. Args: frames (list of numpy arrays): The frames to include in the video. output_path (str): The path to save the generated video. fps (int, optional): The frame rate of the output video. Defaults to 30. """ frames = torch.from_numpy(np.asarray(frames)) if not os.path.exists(os.path.dirname(output_path)): os.makedirs(os.path.dirname(output_path)) torchvision.io.write_video(output_path, frames, fps=fps, video_codec="libx264") return output_path def restart(): operation_log = [("",""), ("Try to upload your video and click the Get video info button to get started! (Kindly ensure that the uploaded video consists of fewer than 500 frames in total)", "Normal")] return { "user_name": "", "video_name": "", "origin_images": None, "painted_images": None, "masks": None, "inpaint_masks": None, "logits": None, "select_frame_number": 0, "fps": 30 }, { "inference_times": 0, "negative_click_times" : 0, "positive_click_times": 0, "mask_save": args.mask_save, "multi_mask": { "mask_names": [], "masks": [] }, "track_end_number": None, }, [[],[]], None, None, None, \ gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False),\ gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), \ gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), \ gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), "", \ gr.update(visible=True, value=operation_log), gr.update(visible=False, value=operation_log) # args, defined in track_anything.py args = parse_augment() pretrain_model_url = 'https://github.com/sczhou/ProPainter/releases/download/v0.1.0/' sam_checkpoint_url_dict = { 'vit_h': "https://dl.fbaipublicfiles.com/segment_anything/sam_vit_h_4b8939.pth", 'vit_l': "https://dl.fbaipublicfiles.com/segment_anything/sam_vit_l_0b3195.pth", 'vit_b': "https://dl.fbaipublicfiles.com/segment_anything/sam_vit_b_01ec64.pth" } checkpoint_fodler = os.path.join('..', '..', 'weights') sam_checkpoint = load_file_from_url(sam_checkpoint_url_dict[args.sam_model_type], checkpoint_fodler) cutie_checkpoint = load_file_from_url(os.path.join(pretrain_model_url, 'cutie-base-mega.pth'), checkpoint_fodler) propainter_checkpoint = load_file_from_url(os.path.join(pretrain_model_url, 'ProPainter.pth'), checkpoint_fodler) raft_checkpoint = load_file_from_url(os.path.join(pretrain_model_url, 'raft-things.pth'), checkpoint_fodler) flow_completion_checkpoint = load_file_from_url(os.path.join(pretrain_model_url, 'recurrent_flow_completion.pth'), checkpoint_fodler) # initialize sam, cutie, propainter models model = TrackingAnything(sam_checkpoint, cutie_checkpoint, propainter_checkpoint, raft_checkpoint, flow_completion_checkpoint, args) title = r"""

ProPainter: Improving Propagation and Transformer for Video Inpainting

""" description = r"""
Propainter logo
Official Gradio demo for Improving Propagation and Transformer for Video Inpainting (ICCV 2023).
🔥 Propainter is a robust inpainting algorithm.
🤗 Try to drop your video, add the masks and get the the inpainting results!
""" article = r""" If ProPainter is helpful, please help to ⭐ the Github Repo. Thanks! [![GitHub Stars](https://img.shields.io/github/stars/sczhou/ProPainter?style=social)](https://github.com/sczhou/ProPainter) --- 📝 **Citation**
If our work is useful for your research, please consider citing: ```bibtex @inproceedings{zhou2023propainter, title={{ProPainter}: Improving Propagation and Transformer for Video Inpainting}, author={Zhou, Shangchen and Li, Chongyi and Chan, Kelvin C.K and Loy, Chen Change}, booktitle={Proceedings of IEEE International Conference on Computer Vision (ICCV)}, year={2023} } ``` 📋 **License**
This project is licensed under S-Lab License 1.0. Redistribution and use for non-commercial purposes should follow this license. 📧 **Contact**
If you have any questions, please feel free to reach me out at shangchenzhou@gmail.com.
🤗 Find Me: Twitter Follow Github Follow
""" css = """ .gradio-container {width: 85% !important} .gr-monochrome-group {border-radius: 5px !important; border: revert-layer !important; border-width: 2px !important; color: black !important;} span.svelte-s1r2yt {font-size: 17px !important; font-weight: bold !important; color: #d30f2f !important;} button {border-radius: 8px !important;} .add_button {background-color: #4CAF50 !important;} .remove_button {background-color: #f44336 !important;} .clear_button {background-color: gray !important;} .mask_button_group {gap: 10px !important;} .video {height: 300px !important;} .image {height: 300px !important;} .video .wrap.svelte-lcpz3o {display: flex !important; align-items: center !important; justify-content: center !important;} .video .wrap.svelte-lcpz3o > :first-child {height: 100% !important;} .margin_center {width: 50% !important; margin: auto !important;} .jc_center {justify-content: center !important;} """ with gr.Blocks(theme=gr.themes.Monochrome(), css=css) as iface: click_state = gr.State([[],[]]) interactive_state = gr.State({ "inference_times": 0, "negative_click_times" : 0, "positive_click_times": 0, "mask_save": args.mask_save, "multi_mask": { "mask_names": [], "masks": [] }, "track_end_number": None, } ) video_state = gr.State( { "user_name": "", "video_name": "", "origin_images": None, "painted_images": None, "masks": None, "inpaint_masks": None, "logits": None, "select_frame_number": 0, "fps": 30 } ) gr.Markdown(title) gr.Markdown(description) with gr.Group(elem_classes="gr-monochrome-group"): with gr.Row(): with gr.Accordion('ProPainter Parameters (click to expand)', open=False): with gr.Row(): resize_ratio_number = gr.Slider(label='Resize ratio', minimum=0.01, maximum=1.0, step=0.01, value=1.0) raft_iter_number = gr.Slider(label='Iterations for RAFT inference.', minimum=5, maximum=20, step=1, value=20,) with gr.Row(): dilate_radius_number = gr.Slider(label='Mask dilation for video and flow masking.', minimum=0, maximum=10, step=1, value=8,) subvideo_length_number = gr.Slider(label='Length of sub-video for long video inference.', minimum=40, maximum=200, step=1, value=80,) with gr.Row(): neighbor_length_number = gr.Slider(label='Length of local neighboring frames.', minimum=5, maximum=20, step=1, value=10,) ref_stride_number = gr.Slider(label='Stride of global reference frames.', minimum=5, maximum=20, step=1, value=10,) with gr.Column(): # input video gr.Markdown("## Step1: Upload video") with gr.Row(equal_height=True): with gr.Column(scale=2): video_input = gr.Video(elem_classes="video") extract_frames_button = gr.Button(value="Get video info", interactive=True, variant="primary") with gr.Column(scale=2): run_status = gr.HighlightedText(value=[("",""), ("Try to upload your video and click the Get video info button to get started! (Kindly ensure that the uploaded video consists of fewer than 500 frames in total)", "Normal")], color_map={"Normal": "green", "Error": "red", "Clear clicks": "gray", "Add mask": "green", "Remove mask": "red"}) video_info = gr.Textbox(label="Video Info") # add masks step2_title = gr.Markdown("---\n## Step2: Add masks", visible=False) with gr.Row(equal_height=True): with gr.Column(scale=2): template_frame = gr.Image(type="pil",interactive=True, elem_id="template_frame", visible=False, elem_classes="image") image_selection_slider = gr.Slider(minimum=1, maximum=100, step=1, value=1, label="Track start frame", visible=False) track_pause_number_slider = gr.Slider(minimum=1, maximum=100, step=1, value=1, label="Track end frame", visible=False) with gr.Column(scale=2, elem_classes="jc_center"): run_status2 = gr.HighlightedText(value=[("",""), ("Try to upload your video and click the Get video info button to get started! (Kindly ensure that the uploaded video consists of fewer than 500 frames in total)", "Normal")], color_map={"Normal": "green", "Error": "red", "Clear clicks": "gray", "Add mask": "green", "Remove mask": "red"}, visible=False) with gr.Column(): point_prompt = gr.Radio( choices=["Positive", "Negative"], value="Positive", label="Point prompt", interactive=True, visible=False, min_width=100, scale=1,) with gr.Row(scale=2, elem_classes="mask_button_group"): Add_mask_button = gr.Button(value="Add mask", interactive=True, visible=False, elem_classes="add_button") remove_mask_button = gr.Button(value="Remove mask", interactive=True, visible=False, elem_classes="remove_button") clear_button_click = gr.Button(value="Clear clicks", interactive=True, visible=False, elem_classes="clear_button") mask_dropdown = gr.Dropdown(multiselect=True, value=[], label="Mask selection", info=".", visible=False) # output video step3_title = gr.Markdown("---\n## Step3: Track masks and get the inpainting result", visible=False) with gr.Row(equal_height=True): with gr.Column(scale=2): tracking_video_output = gr.Video(visible=False, elem_classes="video") tracking_video_predict_button = gr.Button(value="1. Tracking", visible=False, elem_classes="margin_center") with gr.Column(scale=2): inpaiting_video_output = gr.Video(visible=False, elem_classes="video") inpaint_video_predict_button = gr.Button(value="2. Inpainting", visible=False, elem_classes="margin_center") # first step: get the video information extract_frames_button.click( fn=get_frames_from_video, inputs=[ video_input, video_state ], outputs=[video_state, video_info, template_frame, image_selection_slider, track_pause_number_slider,point_prompt, clear_button_click, Add_mask_button, template_frame, tracking_video_predict_button, tracking_video_output, inpaiting_video_output, remove_mask_button, inpaint_video_predict_button, step2_title, step3_title,mask_dropdown, run_status, run_status2] ) # second step: select images from slider image_selection_slider.release(fn=select_template, inputs=[image_selection_slider, video_state, interactive_state], outputs=[template_frame, video_state, interactive_state, run_status, run_status2], api_name="select_image") track_pause_number_slider.release(fn=get_end_number, inputs=[track_pause_number_slider, video_state, interactive_state], outputs=[template_frame, interactive_state, run_status, run_status2], api_name="end_image") # click select image to get mask using sam template_frame.select( fn=sam_refine, inputs=[video_state, point_prompt, click_state, interactive_state], outputs=[template_frame, video_state, interactive_state, run_status, run_status2] ) # add different mask Add_mask_button.click( fn=add_multi_mask, inputs=[video_state, interactive_state, mask_dropdown], outputs=[interactive_state, mask_dropdown, template_frame, click_state, run_status, run_status2] ) remove_mask_button.click( fn=remove_multi_mask, inputs=[interactive_state, mask_dropdown], outputs=[interactive_state, mask_dropdown, run_status, run_status2] ) # tracking video from select image and mask tracking_video_predict_button.click( fn=vos_tracking_video, inputs=[video_state, interactive_state, mask_dropdown], outputs=[tracking_video_output, video_state, interactive_state, run_status, run_status2] ) # inpaint video from select image and mask inpaint_video_predict_button.click( fn=inpaint_video, inputs=[video_state, resize_ratio_number, dilate_radius_number, raft_iter_number, subvideo_length_number, neighbor_length_number, ref_stride_number, mask_dropdown], outputs=[inpaiting_video_output, run_status, run_status2] ) # click to get mask mask_dropdown.change( fn=show_mask, inputs=[video_state, interactive_state, mask_dropdown], outputs=[template_frame, run_status, run_status2] ) # clear input video_input.change( fn=restart, inputs=[], outputs=[ video_state, interactive_state, click_state, tracking_video_output, inpaiting_video_output, template_frame, tracking_video_predict_button, image_selection_slider , track_pause_number_slider,point_prompt, clear_button_click, Add_mask_button, template_frame, tracking_video_predict_button, tracking_video_output, inpaiting_video_output, remove_mask_button,inpaint_video_predict_button, step2_title, step3_title, mask_dropdown, video_info, run_status, run_status2 ], queue=False, show_progress=False) video_input.clear( fn=restart, inputs=[], outputs=[ video_state, interactive_state, click_state, tracking_video_output, inpaiting_video_output, template_frame, tracking_video_predict_button, image_selection_slider , track_pause_number_slider,point_prompt, clear_button_click, Add_mask_button, template_frame, tracking_video_predict_button, tracking_video_output, inpaiting_video_output, remove_mask_button,inpaint_video_predict_button, step2_title, step3_title, mask_dropdown, video_info, run_status, run_status2 ], queue=False, show_progress=False) # points clear clear_button_click.click( fn = clear_click, inputs = [video_state, click_state,], outputs = [template_frame,click_state, run_status, run_status2], ) # set example gr.Markdown("## Examples") gr.Examples( examples=[os.path.join(os.path.dirname(__file__), "./test_sample/", test_sample) for test_sample in ["test-sample0.mp4", "test-sample1.mp4", "test-sample2.mp4", "test-sample3.mp4", "test-sample4.mp4"]], inputs=[video_input], ) gr.Markdown(article) iface.queue(concurrency_count=1) iface.launch(debug=True)