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import io |
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import os |
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import sys |
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from typing import List, Optional |
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from urllib.parse import urlparse |
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import cv2 |
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from PIL import Image, ImageOps, PngImagePlugin |
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import numpy as np |
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import torch |
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from lama_cleaner.const import MPS_SUPPORT_MODELS |
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from loguru import logger |
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from torch.hub import download_url_to_file, get_dir |
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import hashlib |
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def md5sum(filename): |
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md5 = hashlib.md5() |
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with open(filename, "rb") as f: |
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for chunk in iter(lambda: f.read(128 * md5.block_size), b""): |
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md5.update(chunk) |
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return md5.hexdigest() |
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def switch_mps_device(model_name, device): |
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if model_name not in MPS_SUPPORT_MODELS and str(device) == "mps": |
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logger.info(f"{model_name} not support mps, switch to cpu") |
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return torch.device("cpu") |
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return device |
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def get_cache_path_by_url(url): |
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parts = urlparse(url) |
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hub_dir = get_dir() |
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model_dir = os.path.join(hub_dir, "checkpoints") |
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if not os.path.isdir(model_dir): |
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os.makedirs(model_dir) |
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filename = os.path.basename(parts.path) |
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cached_file = os.path.join(model_dir, filename) |
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return cached_file |
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def download_model(url, model_md5: str = None): |
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cached_file = get_cache_path_by_url(url) |
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if not os.path.exists(cached_file): |
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sys.stderr.write('Downloading: "{}" to {}\n'.format(url, cached_file)) |
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hash_prefix = None |
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download_url_to_file(url, cached_file, hash_prefix, progress=True) |
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if model_md5: |
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_md5 = md5sum(cached_file) |
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if model_md5 == _md5: |
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logger.info(f"Download model success, md5: {_md5}") |
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else: |
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try: |
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os.remove(cached_file) |
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logger.error( |
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f"Model md5: {_md5}, expected md5: {model_md5}, wrong model deleted. Please restart lama-cleaner." |
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f"If you still have errors, please try download model manually first https://lama-cleaner-docs.vercel.app/install/download_model_manually.\n" |
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) |
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except: |
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logger.error( |
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f"Model md5: {_md5}, expected md5: {model_md5}, please delete {cached_file} and restart lama-cleaner." |
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) |
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exit(-1) |
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return cached_file |
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def ceil_modulo(x, mod): |
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if x % mod == 0: |
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return x |
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return (x // mod + 1) * mod |
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def handle_error(model_path, model_md5, e): |
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_md5 = md5sum(model_path) |
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if _md5 != model_md5: |
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try: |
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os.remove(model_path) |
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logger.error( |
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f"Model md5: {_md5}, expected md5: {model_md5}, wrong model deleted. Please restart lama-cleaner." |
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f"If you still have errors, please try download model manually first https://lama-cleaner-docs.vercel.app/install/download_model_manually.\n" |
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) |
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except: |
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logger.error( |
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f"Model md5: {_md5}, expected md5: {model_md5}, please delete {model_path} and restart lama-cleaner." |
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) |
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else: |
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logger.error( |
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f"Failed to load model {model_path}," |
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f"please submit an issue at https://github.com/Sanster/lama-cleaner/issues and include a screenshot of the error:\n{e}" |
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) |
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exit(-1) |
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def load_jit_model(url_or_path, device, model_md5: str): |
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if os.path.exists(url_or_path): |
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model_path = url_or_path |
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else: |
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model_path = download_model(url_or_path, model_md5) |
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logger.info(f"Loading model from: {model_path}") |
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try: |
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model = torch.jit.load(model_path, map_location="cpu").to(device) |
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except Exception as e: |
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handle_error(model_path, model_md5, e) |
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model.eval() |
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return model |
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def load_model(model: torch.nn.Module, url_or_path, device, model_md5): |
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if os.path.exists(url_or_path): |
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model_path = url_or_path |
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else: |
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model_path = download_model(url_or_path, model_md5) |
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try: |
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logger.info(f"Loading model from: {model_path}") |
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state_dict = torch.load(model_path, map_location="cpu") |
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model.load_state_dict(state_dict, strict=True) |
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model.to(device) |
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except Exception as e: |
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handle_error(model_path, model_md5, e) |
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model.eval() |
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return model |
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def numpy_to_bytes(image_numpy: np.ndarray, ext: str) -> bytes: |
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data = cv2.imencode( |
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f".{ext}", |
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image_numpy, |
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[int(cv2.IMWRITE_JPEG_QUALITY), 100, int(cv2.IMWRITE_PNG_COMPRESSION), 0], |
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)[1] |
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image_bytes = data.tobytes() |
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return image_bytes |
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def pil_to_bytes(pil_img, ext: str, quality: int = 95, exif_infos={}) -> bytes: |
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with io.BytesIO() as output: |
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kwargs = {k: v for k, v in exif_infos.items() if v is not None} |
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if ext == "png" and "parameters" in kwargs: |
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pnginfo_data = PngImagePlugin.PngInfo() |
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pnginfo_data.add_text("parameters", kwargs["parameters"]) |
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kwargs["pnginfo"] = pnginfo_data |
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pil_img.save( |
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output, |
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format=ext, |
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quality=quality, |
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**kwargs, |
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) |
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image_bytes = output.getvalue() |
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return image_bytes |
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def load_img(img_bytes, gray: bool = False, return_exif: bool = False): |
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alpha_channel = None |
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image = Image.open(io.BytesIO(img_bytes)) |
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if return_exif: |
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info = image.info or {} |
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exif_infos = {"exif": image.getexif(), "parameters": info.get("parameters")} |
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try: |
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image = ImageOps.exif_transpose(image) |
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except: |
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pass |
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if gray: |
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image = image.convert("L") |
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np_img = np.array(image) |
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else: |
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if image.mode == "RGBA": |
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np_img = np.array(image) |
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alpha_channel = np_img[:, :, -1] |
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np_img = cv2.cvtColor(np_img, cv2.COLOR_RGBA2RGB) |
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else: |
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image = image.convert("RGB") |
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np_img = np.array(image) |
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if return_exif: |
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return np_img, alpha_channel, exif_infos |
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return np_img, alpha_channel |
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def norm_img(np_img): |
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if len(np_img.shape) == 2: |
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np_img = np_img[:, :, np.newaxis] |
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np_img = np.transpose(np_img, (2, 0, 1)) |
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np_img = np_img.astype("float32") / 255 |
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return np_img |
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def resize_max_size( |
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np_img, size_limit: int, interpolation=cv2.INTER_CUBIC |
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) -> np.ndarray: |
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h, w = np_img.shape[:2] |
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if max(h, w) > size_limit: |
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ratio = size_limit / max(h, w) |
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new_w = int(w * ratio + 0.5) |
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new_h = int(h * ratio + 0.5) |
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return cv2.resize(np_img, dsize=(new_w, new_h), interpolation=interpolation) |
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else: |
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return np_img |
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def pad_img_to_modulo( |
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img: np.ndarray, mod: int, square: bool = False, min_size: Optional[int] = None |
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): |
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""" |
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Args: |
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img: [H, W, C] |
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mod: |
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square: 是否为正方形 |
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min_size: |
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Returns: |
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""" |
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if len(img.shape) == 2: |
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img = img[:, :, np.newaxis] |
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height, width = img.shape[:2] |
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out_height = ceil_modulo(height, mod) |
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out_width = ceil_modulo(width, mod) |
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if min_size is not None: |
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assert min_size % mod == 0 |
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out_width = max(min_size, out_width) |
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out_height = max(min_size, out_height) |
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if square: |
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max_size = max(out_height, out_width) |
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out_height = max_size |
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out_width = max_size |
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return np.pad( |
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img, |
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((0, out_height - height), (0, out_width - width), (0, 0)), |
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mode="symmetric", |
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) |
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def boxes_from_mask(mask: np.ndarray) -> List[np.ndarray]: |
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""" |
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Args: |
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mask: (h, w, 1) 0~255 |
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Returns: |
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""" |
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height, width = mask.shape[:2] |
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_, thresh = cv2.threshold(mask, 127, 255, 0) |
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contours, _ = cv2.findContours(thresh, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE) |
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boxes = [] |
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for cnt in contours: |
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x, y, w, h = cv2.boundingRect(cnt) |
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box = np.array([x, y, x + w, y + h]).astype(int) |
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box[::2] = np.clip(box[::2], 0, width) |
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box[1::2] = np.clip(box[1::2], 0, height) |
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boxes.append(box) |
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return boxes |
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def only_keep_largest_contour(mask: np.ndarray) -> List[np.ndarray]: |
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""" |
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Args: |
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mask: (h, w) 0~255 |
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Returns: |
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""" |
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_, thresh = cv2.threshold(mask, 127, 255, 0) |
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contours, _ = cv2.findContours(thresh, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE) |
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max_area = 0 |
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max_index = -1 |
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for i, cnt in enumerate(contours): |
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area = cv2.contourArea(cnt) |
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if area > max_area: |
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max_area = area |
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max_index = i |
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if max_index != -1: |
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new_mask = np.zeros_like(mask) |
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return cv2.drawContours(new_mask, contours, max_index, 255, -1) |
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else: |
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return mask |
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