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import os, io, math, random, time
from typing import Tuple
import numpy as np
from PIL import Image, ImageFilter, ImageOps
import torch
from diffusers import StableDiffusionXLInpaintPipeline
import gradio as gr
# -----------------------------
# Settings
# -----------------------------
DEFAULT_PROMPT = "extend the image naturally"
DEFAULT_NEG = (
"text, letters, words, numbers, caption, watermark, logo, signature, frame, border, "
"collage tiles, UI elements, artifacts, deformed, duplicate, blurry"
)
SAFE_MAX = int(os.getenv("SAFE_MAX", 1792)) # макс. сторона генерации
HF_TOKEN = os.getenv("HF_TOKEN", None)
# -----------------------------
# Load pipeline (no xformers)
# -----------------------------
device = "cuda" if torch.cuda.is_available() else "cpu"
pipe = StableDiffusionXLInpaintPipeline.from_pretrained(
"diffusers/stable-diffusion-xl-1.0-inpainting-0.1",
torch_dtype=torch.float16 if device == "cuda" else torch.float32,
use_safetensors=True,
variant="fp16" if device == "cuda" else None,
token=HF_TOKEN,
)
pipe = pipe.to(device)
# включаем SDPA/attention slicing вместо xformers
try:
if device == "cuda":
torch.backends.cuda.matmul.allow_tf32 = True
else:
pipe.enable_attention_slicing("max")
except Exception:
pass
# -----------------------------
# Helpers
# -----------------------------
def _to_pil(img) -> Image.Image:
return img if isinstance(img, Image.Image) else Image.fromarray(img)
def _round64(x: int) -> int:
return int(math.ceil(x / 64) * 64)
def fit_to_safe_max(w: int, h: int, safe_max: int) -> Tuple[int, int, float]:
"""масштабирует (w,h) до safe_max, сохраняя пропорции; возвращает новые w,h и scale"""
s = 1.0
max_side = max(w, h)
if max_side > safe_max:
s = safe_max / max_side
w = int(round(w * s))
h = int(round(h * s))
# SDXL требует кратность 64
w = max(512, _round64(w))
h = max(512, _round64(h))
return w, h, s
def make_square_canvas(img: Image.Image, L: int, R: int, T: int, B: int) -> Tuple[int, int, Tuple[int,int,int,int]]:
"""Считает квадратную сторону и box для вставки оригинала"""
w, h = img.size
tgt_w = w + L + R
tgt_h = h + T + B
side = max(tgt_w, tgt_h)
# центровка оригинала
x0 = (side - w) // 2
y0 = (side - h) // 2
return side, side, (x0, y0, x0 + w, y0 + h)
def build_bg_from_edges(img: Image.Image, side: int) -> Image.Image:
"""Создаёт «умный» фон из повторённых краёв, слегка блюрит."""
arr = np.asarray(img.convert("RGB"))
pad_top = (side - img.height) // 2
pad_bottom = side - img.height - pad_top
pad_left = (side - img.width) // 2
pad_right = side - img.width - pad_left
padded = np.pad(arr, ((pad_top, pad_bottom), (pad_left, pad_right), (0, 0)), mode="edge")
bg = Image.fromarray(padded, mode="RGB").filter(ImageFilter.GaussianBlur(radius=8))
return bg
def build_mask(side: int, orig_box: Tuple[int,int,int,int], feather: int) -> Image.Image:
"""Белое = генерировать, чёрное = сохраняем оригинал"""
mask = Image.new("L", (side, side), 255)
x0, y0, x1, y1 = orig_box
# чёрный прямоугольник по оригиналу
ImageDraw = ImageDraw_ensure()
d = ImageDraw.Draw(mask)
d.rectangle([x0, y0, x1, y1], fill=0)
if feather > 0:
mask = mask.filter(ImageFilter.GaussianBlur(radius=feather))
return mask
def ImageDraw_ensure():
from PIL import ImageDraw
return ImageDraw
def feather_alpha_mask(size: Tuple[int,int], feather: int) -> Image.Image:
"""Белый центр, мягкий край (для вставки оригинала поверх результата)"""
w, h = size
m = Image.new("L", (w, h), 255)
if feather <= 0:
return m
# делаем тёмную рамку и размазываем
d = ImageDraw_ensure().Draw(m)
d.rectangle([0,0,w-1,h-1], outline=0, width=feather*2)
m = m.filter(ImageFilter.GaussianBlur(radius=feather))
# нормализация – центр белее
return m
def paste_center_preserving(base: Image.Image, original: Image.Image, box: Tuple[int,int,int,int], feather: int) -> Image.Image:
"""Вставляет оригинал по box с мягким пером по краям."""
x0, y0, x1, y1 = box
orig_rgba = original.convert("RGBA")
alpha = feather_alpha_mask(original.size, feather)
orig_rgba.putalpha(alpha)
base = base.convert("RGBA")
base.alpha_composite(orig_rgba, dest=(x0, y0))
return base.convert("RGB")
def outpaint_once(
img: Image.Image,
L: int, R: int, T: int, B: int,
prompt: str, neg: str,
steps: int, cfg: float, seed: int,
feather: int, safe_max: int
) -> Tuple[Image.Image, Image.Image, Tuple[int,int,int,int], int]:
"""Генерит квадратное полотно, возвращает (outpaint, original, orig_box, used_seed)"""
img = _to_pil(img).convert("RGB")
# квадрат и позиция оригинала
W, H, orig_box = make_square_canvas(img, L, R, T, B)
# размер генерации с ограничением
gen_w, gen_h, _ = fit_to_safe_max(W, H, safe_max)
side = max(gen_w, gen_h)
# фон и маска
bg = build_bg_from_edges(img, side)
# пересчитываем orig_box под side (если side!=W/H, центруем)
cx, cy = side//2, side//2
x0 = cx - img.width//2
y0 = cy - img.height//2
orig_box_side = (x0, y0, x0 + img.width, y0 + img.height)
# кладём оригинал на фон (как исходник для inpaint)
cond = bg.copy()
cond.paste(img, (x0, y0))
mask = build_mask(side, orig_box_side, feather=max(1, feather//2))
# генерация
if seed is None or seed < 0:
seed = random.randint(0, 2**31-1)
g = torch.Generator(device=device)
if device == "cuda":
g = g.manual_seed(seed)
else:
random.seed(seed)
out = pipe(
prompt=prompt if prompt.strip() else DEFAULT_PROMPT,
negative_prompt=(neg.strip() or DEFAULT_NEG),
image=cond,
mask_image=mask,
num_inference_steps=int(steps),
guidance_scale=float(cfg),
generator=g,
width=side,
height=side,
).images[0]
return out, img, orig_box_side, seed
# -----------------------------
# Gradio core
# -----------------------------
def run(
img, prompt, neg, L, R, T, B,
steps, cfg, seed, feather, safe_max
):
if img is None:
raise gr.Error("Загрузи изображение.")
out, orig, box, used_seed = outpaint_once(
img=img, L=L, R=R, T=T, B=B,
prompt=prompt or DEFAULT_PROMPT,
neg=neg or DEFAULT_NEG,
steps=steps, cfg=cfg, seed=seed,
feather=feather, safe_max=safe_max
)
# поверх возвращаем оригинал (чтобы его качество не менялось)
final = paste_center_preserving(out, orig, box, feather=max(8, feather))
# сохраняем полный PNG
side = final.size[0]
ts = int(time.time())
fname = f"/tmp/outpaint_{side}x{side}_{used_seed}.png"
final.save(fname, "PNG")
return final, fname, used_seed
with gr.Blocks(css="""
#note {opacity:.8}
""") as demo:
gr.Markdown("## Qwen Image — Seamless Background Expand")
with gr.Row():
with gr.Column():
in_img = gr.Image(label="Картинка", type="pil")
prompt = gr.Textbox(label="Prompt", value=DEFAULT_PROMPT, lines=2)
neg = gr.Textbox(label="Negative prompt", value=DEFAULT_NEG, lines=2)
with gr.Row():
L = gr.Number(label="Left (px)", value=256, precision=0)
R = gr.Number(label="Right (px)", value=256, precision=0)
with gr.Row():
T = gr.Number(label="Top (px)", value=256, precision=0)
B = gr.Number(label="Bottom (px)", value=256, precision=0)
with gr.Row():
steps = gr.Slider(10, 60, value=28, step=1, label="Steps")
cfg = gr.Slider(1.0, 12.0, value=5.5, step=0.1, label="Guidance scale")
with gr.Row():
seed = gr.Number(label="Seed (-1=random)", value=-1, precision=0)
feather = gr.Slider(0, 64, value=24, step=1, label="Feather (px)")
safe_max = gr.Slider(1024, 2048, value=1792, step=64, label="Max side for generation (px)")
run_btn = gr.Button("Expand", variant="primary")
with gr.Column():
out_img = gr.Image(label="Результат", interactive=False)
file_out = gr.File(label="Скачать PNG (полный размер)")
used_seed = gr.Number(label="Used seed", interactive=False)
run_btn.click(
fn=run,
inputs=[in_img, prompt, neg, L, R, T, B, steps, cfg, seed, feather, safe_max],
outputs=[out_img, file_out, used_seed],
)
if __name__ == "__main__":
demo.launch(server_name="0.0.0.0", server_port=7860, show_error=True) |