""" Adapted from: https://github.com/Vision-CAIR/MiniGPT-4/blob/main/demo.py """ import argparse import os import random import numpy as np import torch import torch.backends.cudnn as cudnn import gradio as gr from video_llama.common.config import Config from video_llama.common.dist_utils import get_rank from video_llama.common.registry import registry from video_llama.conversation.conversation_video import Chat, Conversation, default_conversation,SeparatorStyle,conv_llava_llama_2 import decord decord.bridge.set_bridge('torch') #%% # imports modules for registration from video_llama.datasets.builders import * from video_llama.models import * from video_llama.processors import * from video_llama.runners import * from video_llama.tasks import * #%% def parse_args(): parser = argparse.ArgumentParser(description="Demo") parser.add_argument("--cfg-path", default='eval_configs/video_llama_eval_withaudio.yaml', help="path to configuration file.") parser.add_argument("--gpu-id", type=int, default=0, help="specify the gpu to load the model.") parser.add_argument("--model_type", type=str, default='vicuna', help="The type of LLM") parser.add_argument( "--options", nargs="+", help="override some settings in the used config, the key-value pair " "in xxx=yyy format will be merged into config file (deprecate), " "change to --cfg-options instead.", ) args = parser.parse_args() return args def setup_seeds(config): seed = config.run_cfg.seed + get_rank() random.seed(seed) np.random.seed(seed) torch.manual_seed(seed) cudnn.benchmark = False cudnn.deterministic = True # ======================================== # Model Initialization # ======================================== print('Initializing Chat') args = parse_args() cfg = Config(args) model_config = cfg.model_cfg model_config.device_8bit = args.gpu_id model_cls = registry.get_model_class(model_config.arch) model = model_cls.from_config(model_config).to('cuda:{}'.format(args.gpu_id)) model.eval() vis_processor_cfg = cfg.datasets_cfg.webvid.vis_processor.train vis_processor = registry.get_processor_class(vis_processor_cfg.name).from_config(vis_processor_cfg) chat = Chat(model, vis_processor, device='cuda:{}'.format(args.gpu_id)) print('Initialization Finished') # ======================================== # Gradio Setting # ======================================== def gradio_reset(chat_state, img_list): if chat_state is not None: chat_state.messages = [] if img_list is not None: img_list = [] return None, gr.update(value=None, interactive=True), gr.update(value=None, interactive=True), gr.update(placeholder='Please upload your video first', interactive=False),gr.update(value="Upload & Start Chat", interactive=True), chat_state, img_list def upload_imgorvideo(gr_video, gr_img, text_input, chat_state,chatbot,audio_flag): if args.model_type == 'vicuna': chat_state = default_conversation.copy() else: chat_state = conv_llava_llama_2.copy() if gr_img is None and gr_video is None: return None, None, None, gr.update(interactive=True), chat_state, None elif gr_img is not None and gr_video is None: print(gr_img) chatbot = chatbot + [((gr_img,), None)] chat_state.system = "You are able to understand the visual content that the user provides. Follow the instructions carefully and explain your answers in detail." img_list = [] llm_message = chat.upload_img(gr_img, chat_state, img_list) return gr.update(interactive=False), gr.update(interactive=False), gr.update(interactive=True, placeholder='Type and press Enter'), gr.update(value="Start Chatting", interactive=False), chat_state, img_list,chatbot elif gr_video is not None and gr_img is None: print(gr_video) chatbot = chatbot + [((gr_video,), None)] chat_state.system = "" img_list = [] if audio_flag: llm_message = chat.upload_video(gr_video, chat_state, img_list) else: llm_message = chat.upload_video_without_audio(gr_video, chat_state, img_list) return gr.update(interactive=False), gr.update(interactive=False), gr.update(interactive=True, placeholder='Type and press Enter'), gr.update(value="Start Chatting", interactive=False), chat_state, img_list,chatbot else: # img_list = [] return gr.update(interactive=False), gr.update(interactive=False, placeholder='Currently, only one input is supported'), gr.update(value="Currently, only one input is supported", interactive=False), chat_state, None,chatbot def gradio_ask(user_message, chatbot, chat_state): if len(user_message) == 0: return gr.update(interactive=True, placeholder='Input should not be empty!'), chatbot, chat_state chat.ask(user_message, chat_state) chatbot = chatbot + [[user_message, None]] return '', chatbot, chat_state def gradio_answer(chatbot, chat_state, img_list, num_beams, temperature): llm_message = chat.answer(conv=chat_state, img_list=img_list, num_beams=num_beams, temperature=temperature, max_new_tokens=300, max_length=2000)[0] chatbot[-1][1] = llm_message print(chat_state.get_prompt()) print(chat_state) return chatbot, chat_state, img_list title = """

Video-LLaMA

Video-LLaMA: An Instruction-tuned Audio-Visual Language Model for Video Understanding

Introduction: Video-LLaMA is a multi-model large language model that achieves video-grounded conversations between humans and computers \ by connecting language decoder with off-the-shelf unimodal pre-trained models.
Thank you for using the Video-LLaMA Demo Page! If you have any questions or feedback, feel free to contact us. If you find Video-LLaMA interesting, please give us a star on GitHub. Current online demo uses the 7B version of Video-LLaMA due to resource limitations. We have released \ the 13B version on our GitHub repository. """ Note_markdown = (""" ### Note Video-LLaMA is a prototype model and may have limitations in understanding complex scenes, long videos, or specific domains. The output results may be influenced by input quality, limitations of the dataset, and the model's susceptibility to illusions. Please interpret the results with caution. **Copyright 2023 Alibaba DAMO Academy.** """) cite_markdown = (""" ## Citation If you find our project useful, hope you can star our repo and cite our paper as follows: ``` @article{damonlpsg2023videollama, author = {Zhang, Hang and Li, Xin and Bing, Lidong}, title = {Video-LLaMA: An Instruction-tuned Audio-Visual Language Model for Video Understanding}, year = 2023, journal = {arXiv preprint arXiv:2306.02858} url = {https://arxiv.org/abs/2306.02858} } """) case_note_upload = (""" ### We provide some examples at the bottom of the page. Simply click on them to try them out directly. """) #TODO show examples below with gr.Blocks() as demo: gr.Markdown(title) with gr.Row(): with gr.Column(scale=0.5): video = gr.Video() image = gr.Image(type="filepath") gr.Markdown(case_note_upload) upload_button = gr.Button(value="Upload & Start Chat", interactive=True, variant="primary") clear = gr.Button("Restart") num_beams = gr.Slider( minimum=1, maximum=10, value=1, step=1, interactive=True, label="beam search numbers)", ) temperature = gr.Slider( minimum=0.1, maximum=2.0, value=1.0, step=0.1, interactive=True, label="Temperature", ) audio = gr.Checkbox(interactive=True, value=False, label="Audio") gr.Markdown(Note_markdown) with gr.Column(): chat_state = gr.State() img_list = gr.State() chatbot = gr.Chatbot(label='Video-LLaMA') text_input = gr.Textbox(label='User', placeholder='Upload your image/video first, or directly click the examples at the bottom of the page.', interactive=False) gr.Markdown(cite_markdown) upload_button.click(upload_imgorvideo, [video, image, text_input, chat_state,chatbot,audio], [video, image, text_input, upload_button, chat_state, img_list,chatbot]) text_input.submit(gradio_ask, [text_input, chatbot, chat_state], [text_input, chatbot, chat_state]).then( gradio_answer, [chatbot, chat_state, img_list, num_beams, temperature], [chatbot, chat_state, img_list] ) clear.click(gradio_reset, [chat_state, img_list], [chatbot, video, image, text_input, upload_button, chat_state, img_list], queue=False) demo.launch(share=False, enable_queue=True) # %%