#import spaces import sys import time import os import torch import gradio as gr import numpy as np from PIL import Image, ImageOps, ImageDraw, ImageFont, ImageColor from urllib.request import urlopen #os.environ["HF_HUB_ENABLE_HF_TRANSFER"] = "1" root = os.path.dirname(os.path.abspath(__file__)) static = os.path.join(root, "static") from diffusers import DiffusionPipeline, DPMSolverMultistepScheduler from diffusers.pipelines import TextToVideoSDPipeline from diffusers.utils import export_to_video from TrailBlazer.Misc import ConfigIO from TrailBlazer.Misc import Logger as log from TrailBlazer.Pipeline.TextToVideoSDPipelineCall import ( text_to_video_sd_pipeline_call, ) from TrailBlazer.Pipeline.UNet3DConditionModelCall import ( unet3d_condition_model_forward, ) TextToVideoSDPipeline.__call__ = text_to_video_sd_pipeline_call from diffusers.models.unet_3d_condition import UNet3DConditionModel unet3d_condition_model_forward_copy = UNet3DConditionModel.forward UNet3DConditionModel.forward = unet3d_condition_model_forward model_id = "cerspense/zeroscope_v2_576w" model_path = sys.argv[-1] + model_id pipe = DiffusionPipeline.from_pretrained(model_path, torch_dtype=torch.float16) pipe.scheduler = DPMSolverMultistepScheduler.from_config(pipe.scheduler.config) pipe.to('cuda') #@spaces.GPU(duration=120) def core(bundle): generator = torch.Generator().manual_seed(int(bundle["seed"])) result = pipe( bundle=bundle, height=512, width=512, generator=generator, num_inference_steps=40, progress=gr.Progress(track_tqdm=True), ) return result.frames def clear_btn_fn(): return "", "", "", "" def gen_btn_fn( prompts, bboxes, frames, word_prompt_indices, trailing_length, n_spatial_steps, n_temporal_steps, spatial_strengthen_scale, spatial_weaken_scale, temporal_strengthen_scale, temporal_weaken_scale, rand_seed, progress = gr.Progress(), ): bundle = {} bundle["trailing_length"] = trailing_length bundle["num_dd_spatial_steps"] = n_spatial_steps bundle["num_dd_temporal_steps"] = n_temporal_steps bundle["num_frames"] = 24 bundle["seed"] = rand_seed bundle["spatial_strengthen_scale"] = spatial_strengthen_scale bundle["spatial_weaken_scale"] = spatial_weaken_scale bundle["temp_strengthen_scale"] = temporal_strengthen_scale bundle["temp_weaken_scale"] = temporal_weaken_scale bundle["token_inds"] = [int(v) for v in word_prompt_indices.split(",")] bundle["keyframe"] = [] frames = frames.split(";") bboxes = bboxes.split(";") if ";" in prompts: prompts = prompts.split(";") else: prompts = [prompts for i in range(len(frames))] assert ( len(frames) == len(bboxes) == len(prompts) ), "Inconsistent number of keyframes in the given inputs." frames.pop() bboxes.pop() prompts.pop() for i in range(len(frames)): keyframe = {} keyframe["bbox_ratios"] = [float(v) for v in bboxes[i].split(",")] keyframe["frame"] = int(frames[i]) keyframe["prompt"] = prompts[i] bundle["keyframe"].append(keyframe) print(bundle) result = core(bundle) path = export_to_video(result) return path def save_mask(inputs): layers = inputs["layers"] if not layers: return inputs["background"] mask = layers[0] new_image = Image.new("RGBA", mask.size, color="white") new_image.paste(mask, mask=mask) new_image = new_image.convert("RGB") print("SAve") return ImageOps.invert(new_image) def out_label_cb(im): layers = im["layers"] if not isinstance(layers, list): layers = [layers] img = None text = "Bboxes: " for idx, layer in enumerate(layers): mask = np.array(layer).sum(axis=-1) ys, xs = np.where(mask != 0) h, w = mask.shape if not list(xs) or not list(ys): continue x_min = np.min(xs) x_max = np.max(xs) y_min = np.min(ys) y_max = np.max(ys) text += "{:.2f},{:.2f},{:.2f},{:.2f}".format( x_min * 1.0 / w, y_min * 1.0 / h, x_max * 1.0 / w, y_max * 1.0 / h ) text += ";\n" return text def out_board_cb(im): layers = im["layers"] if not isinstance(layers, list): layers = [layers] img = None for idx, layer in enumerate(layers): mask = np.array(layer).sum(axis=-1) ys, xs = np.where(mask != 0) if not list(xs) or not list(ys): continue h, w = mask.shape if not img: img = Image.new("RGBA", (w, h)) x_min = np.min(xs) x_max = np.max(xs) y_min = np.min(ys) y_max = np.max(ys) # output shape = [(x_min, y_min), (x_max, y_max)] colors = list(ImageColor.colormap.keys()) draw = ImageDraw.Draw(img) draw.rectangle(shape, outline=colors[idx], width=5) text = "Bbox#{}".format(idx) font = ImageFont.load_default() draw.text((x_max - 0.5 * (x_max - x_min), y_max), text, font=font, align="left") return img with gr.Blocks( analytics_enabled=False, title="TrailBlazer Demo", ) as main: description = """

TrailBlazer: Trajectory Control for Diffusion-Based Video Generation

If you like our project, please give us a star ✨ at our Huggingface space, and our Github repository.


[Project Page] [Paper] [GitHub] [Project Video] [Result Video]

Usage: Our Gradio app is implemented based on our executable script CmdTrailBlazer in our github repository. Please see our general information below for a quick guidance, as well as the hints within the app widgets.

For your initial use, it is advisable to select one of the examples provided below and attempt to swap the subject first (e.g., cat -> lion). Subsequently, define the keyframe with the associated bbox/frame/prompt. Please note that our current work is based on the ZeroScope (cerspense/zeroscope_v2_576w) model. Using prompts that are commonly recognized in the ZeroScope model context is recommended.

""" gr.HTML(description) dummy_note = gr.Textbox( interactive=True, label="Note", visible=False ) with gr.Row(): with gr.Column(scale=2): with gr.Row(): with gr.Tab("Main"): text_prompt_tb = gr.Textbox( interactive=True, label="Keyframe: Prompt" ) bboxes_tb = gr.Textbox(interactive=True, label="Keyframe: Bboxes") frame_tb = gr.Textbox( interactive=True, label="Keyframe: frame indices" ) with gr.Row(): word_prompt_indices_tb = gr.Textbox( interactive=True, label="Word prompt indices:" ) text = "Hint: Each keyframe ends with SEMICOLON, and COMMA for separating each value in the keyframe. The prompt field can be a single prompt without semicolon, or multiple prompts ended semicolon. One can use the SketchPadHelper tab to help to design the bboxes field." gr.HTML(text) with gr.Row(): clear_btn = gr.Button(value="Clear") gen_btn = gr.Button(value="Generate") with gr.Accordion("Advanced Options", open=False): text = "Hint: This default value should be sufficient for most tasks. However, it's important to note that our approach is currently implemented on ZeroScope, and its performance may be influenced by the model's characteristics. We plan to conduct experiments on different models in the future." gr.HTML(text) text = "Hint: When the #Spatial edits and #Temporal edits sliders are 0, it means the experiment will run without TrailBlazer but just simply a T2V generation through ZeroScope." gr.HTML(text) with gr.Row(): trailing_length = gr.Slider( minimum=0, maximum=30, step=1, value=13, interactive=True, label="#Trailing", ) n_spatial_steps = gr.Slider( minimum=0, maximum=30, step=1, value=5, interactive=True, label="#Spatial edits", ) n_temporal_steps = gr.Slider( minimum=0, maximum=30, step=1, value=5, interactive=True, label="#Temporal edits", ) with gr.Row(): spatial_strengthen_scale = gr.Slider( minimum=0, maximum=2, step=0.01, value=0.15, interactive=True, label="Spatial Strengthen Scale", ) spatial_weaken_scale = gr.Slider( minimum=0, maximum=1, step=0.01, value=0.001, interactive=True, label="Spatial Weaken Scale", ) temporal_strengthen_scale = gr.Slider( minimum=0, maximum=2, step=0.01, value=0.15, interactive=True, label="Temporal Strengthen Scale", ) temporal_weaken_scale = gr.Slider( minimum=0, maximum=1, step=0.01, value=0.001, interactive=True, label="Temporal Weaken Scale", ) with gr.Row(): guidance_scale = gr.Slider( minimum=0, maximum=50, step=0.5, value=7.5, interactive=True, label="Guidance Scale", ) rand_seed = gr.Slider( minimum=0, maximum=523451232531, step=1, value=0, interactive=True, label="Seed", ) with gr.Tab("SketchPadHelper"): with gr.Row(): user_board = gr.ImageMask(type="pil", label="Draw me") out_board = gr.Image(type="pil", label="Processed bbox") user_board.change( out_board_cb, inputs=[user_board], outputs=[out_board] ) with gr.Row(): text = "Hint: Utilize a black pen with the Draw Button to create a ``rough'' bbox. When you press the green ``Save Changes'' Button, the app calculates the minimum and maximum boundaries. Each ``Layer'', located at the bottom left of the pad, corresponds to one bounding box. Copy the returned value to the bbox textfield in the main tab." gr.HTML(text) with gr.Row(): out_label = gr.Label(label="Converted bboxes string") user_board.change( out_label_cb, inputs=[user_board], outputs=[out_label] ) with gr.Column(scale=1): gr.HTML( 'Generated Video' ) with gr.Row(): out_gen_1 = gr.Video(visible=True, show_label=False) with gr.Row(): gr.Examples( examples=[ [ "A clownfish swimming in a coral reef", "0.5,0.35,1.0,0.65; 0.0,0.35,0.5,0.65;", "0; 24;", "1, 2", "123451232531", "It generates clownfish at right, then move to left", "assets/gradio/fish-RL.mp4", ], [ "A cat is running on the grass", "0.0,0.35,0.4,0.65; 0.6,0.35,1.0,0.65; 0.0,0.35,0.4,0.65;" "0.6,0.35,1.0,0.65; 0.0,0.35,0.4,0.65;", "0; 6; 12; 18; 24;", "1, 2", "123451232530", "The cat will run Left/Right/Left/Right", "assets/gradio/cat-LRLR.mp4", ], [ "A fish swimming in the ocean", "0.0,0.0,0.1,0.1; 0.5,0.5,1.0,1.0;", "0; 24;", "1, 2", "0", "The fish moves from top left to bottom right, from far to near.", "assets/gradio/fish-TL2BR.mp4" ], [ "A tiger walking alone down the street", "0.0,0.0,0.1,0.1; 0.5,0.5,1.0,1.0;", "0; 24;", "1, 2", "0", "Same with the above but now the prompt associates with tiger", "assets/gradio/tiger-TL2BR.mp4" ], [ "A white cat walking on the grass; A yellow dog walking on the grass;", "0.7,0.4,1.0,0.65; 0.0,0.4,0.3,0.65;", "0; 24;", "1,2,3", "123451232531", "The subject will deformed from cat to dog.", "assets/gradio/Cat2Dog.mp4", ], ], inputs=[text_prompt_tb, bboxes_tb, frame_tb, word_prompt_indices_tb, rand_seed, dummy_note, out_gen_1], outputs=None, fn=None, cache_examples=False, ) clear_btn.click( clear_btn_fn, inputs=[], outputs=[text_prompt_tb, bboxes_tb, frame_tb, word_prompt_indices_tb], queue=False, ) gen_btn.click( gen_btn_fn, inputs=[ text_prompt_tb, bboxes_tb, frame_tb, word_prompt_indices_tb, trailing_length, n_spatial_steps, n_temporal_steps, spatial_strengthen_scale, spatial_weaken_scale, temporal_strengthen_scale, temporal_weaken_scale, rand_seed, ], outputs=[out_gen_1], ) main.launch() # main.launch(max_threads=400)