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2 changed files with 192 additions and 2 deletions
10
README.md
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README.md
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@ -136,12 +136,18 @@ To augment the well-established [img2img](https://github.com/CompVis/stable-diff
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Note that the original method for image modification introduces significant semantic changes w.r.t. the initial image.
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Note that the original method for image modification introduces significant semantic changes w.r.t. the initial image.
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If that is not desired, download our [depth-conditional stable diffusion](https://huggingface.co/stabilityai/stable-diffusion-2-depth) model and the `dpt_hybrid` MiDaS [model weights](https://github.com/intel-isl/DPT/releases/download/1_0/dpt_hybrid-midas-501f0c75.pt), place the latter in a folder `midas_models` and sample via
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If that is not desired, download our [depth-conditional stable diffusion](https://huggingface.co/stabilityai/stable-diffusion-2-depth) model and the `dpt_hybrid` MiDaS [model weights](https://github.com/intel-isl/DPT/releases/download/1_0/dpt_hybrid-midas-501f0c75.pt), place the latter in a folder `midas_models` and sample via
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```
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```
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python scripts/streamlit/depth2img.py streamlit run scripts/demo/depth2img.py configs/stable-diffusion/v2-midas-inference.yaml <path-to-ckpt>
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python scripts/gradio/depth2img.py configs/stable-diffusion/v2-midas-inference.yaml <path-to-ckpt>
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```
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or
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```
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streamlit run scripts/streamlit/depth2img.py configs/stable-diffusion/v2-midas-inference.yaml <path-to-ckpt>
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```
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```
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This method can be used on the samples of the base model itself.
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This method can be used on the samples of the base model itself.
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For example, take [this sample](assets/stable-samples/depth2img/old_man.png) generated by an anonymous discord user.
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For example, take [this sample](assets/stable-samples/depth2img/old_man.png) generated by an anonymous discord user.
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Using the [streamlit](https://streamlit.io/) script `depth2img.py`, the MiDaS model first infers a monocular depth estimate given this input,
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Using the [gradio](https://gradio.app) or [streamlit](https://streamlit.io/) script `depth2img.py`, the MiDaS model first infers a monocular depth estimate given this input,
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and the diffusion model is then conditioned on the (relative) depth output.
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and the diffusion model is then conditioned on the (relative) depth output.
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<p align="center">
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<p align="center">
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184
scripts/gradio/depth2img.py
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184
scripts/gradio/depth2img.py
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@ -0,0 +1,184 @@
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import sys
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import torch
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import numpy as np
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import gradio as gr
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from PIL import Image
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from omegaconf import OmegaConf
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from einops import repeat, rearrange
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from pytorch_lightning import seed_everything
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from imwatermark import WatermarkEncoder
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from scripts.txt2img import put_watermark
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from ldm.util import instantiate_from_config
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from ldm.models.diffusion.ddim import DDIMSampler
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from ldm.data.util import AddMiDaS
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torch.set_grad_enabled(False)
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def initialize_model(config, ckpt):
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config = OmegaConf.load(config)
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model = instantiate_from_config(config.model)
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model.load_state_dict(torch.load(ckpt)["state_dict"], strict=False)
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device = torch.device(
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"cuda") if torch.cuda.is_available() else torch.device("cpu")
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model = model.to(device)
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sampler = DDIMSampler(model)
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return sampler
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def make_batch_sd(
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image,
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txt,
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device,
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num_samples=1,
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model_type="dpt_hybrid"
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):
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image = np.array(image.convert("RGB"))
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image = torch.from_numpy(image).to(dtype=torch.float32) / 127.5 - 1.0
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# sample['jpg'] is tensor hwc in [-1, 1] at this point
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midas_trafo = AddMiDaS(model_type=model_type)
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batch = {
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"jpg": image,
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"txt": num_samples * [txt],
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}
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batch = midas_trafo(batch)
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batch["jpg"] = rearrange(batch["jpg"], 'h w c -> 1 c h w')
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batch["jpg"] = repeat(batch["jpg"].to(device=device),
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"1 ... -> n ...", n=num_samples)
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batch["midas_in"] = repeat(torch.from_numpy(batch["midas_in"][None, ...]).to(
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device=device), "1 ... -> n ...", n=num_samples)
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return batch
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def paint(sampler, image, prompt, t_enc, seed, scale, num_samples=1, callback=None,
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do_full_sample=False):
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device = torch.device(
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"cuda") if torch.cuda.is_available() else torch.device("cpu")
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model = sampler.model
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seed_everything(seed)
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print("Creating invisible watermark encoder (see https://github.com/ShieldMnt/invisible-watermark)...")
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wm = "SDV2"
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wm_encoder = WatermarkEncoder()
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wm_encoder.set_watermark('bytes', wm.encode('utf-8'))
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with torch.no_grad(),\
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torch.autocast("cuda"):
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batch = make_batch_sd(
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image, txt=prompt, device=device, num_samples=num_samples)
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z = model.get_first_stage_encoding(model.encode_first_stage(
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batch[model.first_stage_key])) # move to latent space
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c = model.cond_stage_model.encode(batch["txt"])
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c_cat = list()
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for ck in model.concat_keys:
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cc = batch[ck]
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cc = model.depth_model(cc)
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depth_min, depth_max = torch.amin(cc, dim=[1, 2, 3], keepdim=True), torch.amax(cc, dim=[1, 2, 3],
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keepdim=True)
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display_depth = (cc - depth_min) / (depth_max - depth_min)
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depth_image = Image.fromarray(
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(display_depth[0, 0, ...].cpu().numpy() * 255.).astype(np.uint8))
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cc = torch.nn.functional.interpolate(
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cc,
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size=z.shape[2:],
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mode="bicubic",
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align_corners=False,
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)
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depth_min, depth_max = torch.amin(cc, dim=[1, 2, 3], keepdim=True), torch.amax(cc, dim=[1, 2, 3],
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keepdim=True)
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cc = 2. * (cc - depth_min) / (depth_max - depth_min) - 1.
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c_cat.append(cc)
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c_cat = torch.cat(c_cat, dim=1)
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# cond
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cond = {"c_concat": [c_cat], "c_crossattn": [c]}
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# uncond cond
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uc_cross = model.get_unconditional_conditioning(num_samples, "")
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uc_full = {"c_concat": [c_cat], "c_crossattn": [uc_cross]}
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if not do_full_sample:
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# encode (scaled latent)
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z_enc = sampler.stochastic_encode(
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z, torch.tensor([t_enc] * num_samples).to(model.device))
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else:
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z_enc = torch.randn_like(z)
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# decode it
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samples = sampler.decode(z_enc, cond, t_enc, unconditional_guidance_scale=scale,
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unconditional_conditioning=uc_full, callback=callback)
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x_samples_ddim = model.decode_first_stage(samples)
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result = torch.clamp((x_samples_ddim + 1.0) / 2.0, min=0.0, max=1.0)
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result = result.cpu().numpy().transpose(0, 2, 3, 1) * 255
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return [depth_image] + [put_watermark(Image.fromarray(img.astype(np.uint8)), wm_encoder) for img in result]
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def pad_image(input_image):
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pad_w, pad_h = np.max(((2, 2), np.ceil(
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np.array(input_image.size) / 64).astype(int)), axis=0) * 64 - input_image.size
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im_padded = Image.fromarray(
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np.pad(np.array(input_image), ((0, pad_h), (0, pad_w), (0, 0)), mode='edge'))
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return im_padded
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def predict(input_image, prompt, steps, num_samples, scale, seed, eta, strength):
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init_image = input_image.convert("RGB")
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image = pad_image(init_image) # resize to integer multiple of 32
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sampler.make_schedule(steps, ddim_eta=eta, verbose=True)
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assert 0. <= strength <= 1., 'can only work with strength in [0.0, 1.0]'
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do_full_sample = strength == 1.
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t_enc = min(int(strength * steps), steps-1)
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result = paint(
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sampler=sampler,
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image=image,
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prompt=prompt,
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t_enc=t_enc,
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seed=seed,
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scale=scale,
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num_samples=num_samples,
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callback=None,
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do_full_sample=do_full_sample
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)
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return result
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sampler = initialize_model(sys.argv[1], sys.argv[2])
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block = gr.Blocks().queue()
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with block:
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with gr.Row():
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gr.Markdown("## Stable Diffusion Depth2Img")
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with gr.Row():
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with gr.Column():
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input_image = gr.Image(source='upload', type="pil")
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prompt = gr.Textbox(label="Prompt")
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run_button = gr.Button(label="Run")
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with gr.Accordion("Advanced options", open=False):
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num_samples = gr.Slider(
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label="Images", minimum=1, maximum=4, value=1, step=1)
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ddim_steps = gr.Slider(label="Steps", minimum=1,
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maximum=50, value=50, step=1)
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scale = gr.Slider(
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label="Guidance Scale", minimum=0.1, maximum=30.0, value=9.0, step=0.1
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)
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strength = gr.Slider(
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label="Strength", minimum=0.0, maximum=1.0, value=0.9, step=0.01
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)
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seed = gr.Slider(
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label="Seed",
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minimum=0,
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maximum=2147483647,
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step=1,
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randomize=True,
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)
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eta = gr.Number(label="eta (DDIM)", value=0.0)
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with gr.Column():
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gallery = gr.Gallery(label="Generated images", show_label=False).style(
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grid=[2], height="auto")
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run_button.click(fn=predict, inputs=[
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input_image, prompt, ddim_steps, num_samples, scale, seed, eta, strength], outputs=[gallery])
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block.launch()
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