import gradio as gr from diffusers import ControlNetModel, EulerAncestralDiscreteScheduler import torch import numpy as np from PIL import Image, ImageFilter from extension import CustomStableDiffusionControlNetPipeline negative_prompt = "" device = torch.device('cuda') pipe = None print(gr.__version__) def load(): global pipe controlnet = ControlNetModel.from_pretrained("BlockDetail/PartialSketchControlNet", torch_dtype=torch.float16).to(device) pipe = CustomStableDiffusionControlNetPipeline.from_pretrained( "runwayml/stable-diffusion-v1-5", controlnet=controlnet, torch_dtype=torch.float16 ).to(device) pipe.safety_checker = None pipe.scheduler = EulerAncestralDiscreteScheduler.from_config(pipe.scheduler.config) threshold = 250 curr_num_samples = 2 all_gens = [] num_images = 5 with gr.Blocks() as demo: start_state = [] with gr.Row(): with gr.Column(): with gr.Row(): stroke_type = gr.Radio(["Blocking", "Detail"], value="Detail", label="Stroke Type"), dilation_strength = gr.Slider(7, 117, value=65, step=2, label="Dilation Strength"), canvas = gr.ImageEditor(min_width=512, brush = gr.Brush(colors=["#000000"], default_size = 2, color_mode="fixed"), width=512, height=512) prompt_box = gr.Textbox(label="Prompt") with gr.Row(): btn = gr.Button("Generate") btn2 = gr.Button("Reset") with gr.Column(): num_samples = gr.Slider(1, 5, value=2, step=1, label="Num Samples to Generate"), with gr.Tab("Renoised Images"): gallery0 = gr.Gallery(show_label=False, columns=[num_samples[0].value], rows=[2], object_fit="contain", height="auto", preview=True, interactive=False, width=512) with gr.Tab("Renoised Overlay"): gallery1 = gr.Gallery(show_label=False, columns=[num_samples[0].value], rows=[2], object_fit="contain", height="auto", preview=True, interactive=False, width=512) with gr.Tab("Pre-Renoise Images"): gallery2 = gr.Gallery(show_label=False, columns=[num_samples[0].value], rows=[2], object_fit="contain", height="auto", preview=True, interactive=False, width=512) with gr.Tab("Pre-Renoise Overlay"): gallery3 = gr.Gallery(show_label=False, columns=[num_samples[0].value], rows=[2], object_fit="contain", height="auto", preview=True, interactive=False, width=512) for k in range(num_images): start_state.append([None, None]) sketch_states = gr.State(start_state) checkbox_state = gr.State(True) def sketch(curr_sketch_image, dilation_mask, prompt, seed, num_steps, dilation): global curr_num_samples global pipe generator = torch.Generator(device="cuda:0") generator.manual_seed(seed) negative_prompt = "" guidance_scale = 7 controlnet_conditioning_scale = 1.0 images = pipe([prompt]*curr_num_samples, [curr_sketch_image.convert("RGB").point( lambda p: 256 if p > 128 else 0)]*curr_num_samples, guidance_scale=guidance_scale, controlnet_conditioning_scale = controlnet_conditioning_scale, negative_prompt = [negative_prompt] * curr_num_samples, num_inference_steps=num_steps, generator=generator, key_image=None, neg_mask=None).images # run blended renoising if blocking strokes are provided if dilation_mask is not None: new_images = pipe.collage([prompt] * curr_num_samples, images, [dilation_mask] * curr_num_samples, num_inference_steps=50, strength=0.8)["images"] else: new_images = images return images, new_images def run_sketching(prompt, curr_sketch, sketch_states, dilation, contour_dilation=11): seed = sketch_states[k][1] if seed is None: seed = np.random.randint(1000) sketch_states[k][1] = seed curr_sketch_image = Image.fromarray(curr_sketch[:, :, 0]).resize((512, 512)) curr_construction_image = Image.fromarray(255 - curr_sketch[:, :, 2] + curr_sketch[:, :, 0]) if np.sum(255 - np.array(curr_construction_image)) == 0: curr_construction_image = None curr_detail_image = Image.fromarray(curr_sketch[:, :, 2]).resize((512, 512)) if curr_construction_image is not None: dilation_mask = Image.fromarray(255 - np.array(curr_construction_image)).filter(ImageFilter.MaxFilter(dilation)) dilation_mask = dilation_mask.point( lambda p: 256 if p > 0 else 25).filter(ImageFilter.GaussianBlur(radius = 5)) neg_dilation_mask = Image.fromarray(255 - np.array(curr_detail_image)).filter(ImageFilter.MaxFilter(contour_dilation)) neg_dilation_mask = np.array(neg_dilation_mask.point( lambda p: 256 if p > 0 else 0)) dilation_mask = np.array(dilation_mask) dilation_mask[neg_dilation_mask > 0] = 25 dilation_mask = Image.fromarray(dilation_mask).filter(ImageFilter.GaussianBlur(radius = 5)) else: dilation_mask = None images, new_images = sketch(curr_sketch_image, dilation_mask, prompt, seed, num_steps = 40, dilation = dilation) save_sketch = np.array(Image.fromarray(curr_sketch).convert("RGBA")) save_sketch[:, :, 3][save_sketch[:, :, 0] > 128] = 0 overlays = [] for i in images: background = i.copy() background.putalpha(80) background = Image.alpha_composite(Image.fromarray(255 * np.ones((512, 512)).astype(np.uint8)).convert("RGBA"), background) overlay = Image.alpha_composite(background.resize((512, 512)), Image.fromarray(save_sketch).convert("RGBA")) overlays.append(overlay.convert("RGB")) new_overlays = [] for i in new_images: background = i.copy() background.putalpha(80) background = Image.alpha_composite(Image.fromarray(255 * np.ones((512, 512)).astype(np.uint8)).convert("RGBA"), background) overlay = Image.alpha_composite(background.resize((512, 512)), Image.fromarray(save_sketch).convert("RGBA")) new_overlays.append(overlay.convert("RGB")) global all_gens all_gens = new_images return new_images, new_overlays, images, overlays def reset(sketch_states): for k in range(len(sketch_states)): sketch_states[k] = [None, None] return None, sketch_states def change_color(stroke_type): if stroke_type == "Blocking": color = "#0000FF" else: color = "#000000" return gr.Image(min_width=512, brush = gr.Brush(colors=[color], default_size = 2, color_mode="fixed"), width=512, height=512) def change_background(option): global all_gens if option == "None" or len(all_gens) == 0: return None elif option == "Sample 0": image_overlay = all_gens[0].copy() elif option == "Sample 1": image_overlay = all_gens[0].copy() else: return None image_overlay.putalpha(80) return image_overlay def change_num_samples(change): global curr_num_samples curr_num_samples = change return None btn.click(run_sketching, [prompt_box, canvas, sketch_states, dilation_strength[0]], [gallery0, gallery1, gallery2, gallery3]) btn2.click(reset, sketch_states, [canvas, sketch_states]) stroke_type[0].change(change_color, [stroke_type[0]], canvas) num_samples[0].change(change_num_samples, [num_samples[0]], None) demo.launch(share = True, debug = True)