from datetime import datetime import os import platform import re import tempfile import imghdr import subprocess from typing import Dict, List import sys import piexif import piexif.helper import json import zipfile from PIL import Image sd_img_dirs = [ "outdir_txt2img_samples", "outdir_img2img_samples", "outdir_save", "outdir_extras_samples", "outdir_grids", "outdir_img2img_grids", "outdir_samples", "outdir_txt2img_grids", ] is_dev = os.getenv("APP_ENV") == "dev" is_nuitka = "__compiled__" in globals() cwd = os.getcwd() if is_nuitka else os.path.normpath(os.path.join(__file__, "../../../")) is_win = platform.system().lower().find("windows") != -1 try: from dotenv import load_dotenv load_dotenv(os.path.join(cwd, ".env")) except Exception as e: print(e) def get_sd_webui_conf(**kwargs): try: from modules.shared import opts return opts.data except: pass try: sd_conf_path = kwargs.get("sd_webui_config") with open(sd_conf_path, "r") as f: obj = json.loads(f.read()) if kwargs.get("sd_webui_path_relative_to_config"): for dir in sd_img_dirs: if obj[dir] and not os.path.isabs(obj[dir]): obj[dir] = os.path.normpath( os.path.join(sd_conf_path, "../", obj[dir]) ) return obj except: pass return {} def normalize_paths(paths: List[str], base = cwd): """ Normalize a list of paths, ensuring that each path is an absolute path with no redundant components. Args: paths (List[str]): A list of paths to be normalized. Returns: List[str]: A list of normalized paths. """ res: List[str] = [] for path in paths: # Skip empty or blank paths if not path or len(path.strip()) == 0: continue # If the path is already an absolute path, use it as is if os.path.isabs(path): abs_path = path # Otherwise, make the path absolute by joining it with the current working directory else: abs_path = os.path.join(base, path) # If the absolute path exists, add it to the result after normalizing it if os.path.exists(abs_path): res.append(os.path.normpath(abs_path)) return res def to_abs_path(path): if not os.path.isabs(path): path = os.path.join(os.getcwd(), path) return os.path.normpath(path) def get_valid_img_dirs( conf, keys=sd_img_dirs, ): # 获取配置项 paths = [conf.get(key) for key in keys] # 判断路径是否有效并转为绝对路径 abs_paths = [] for path in paths: if not path or len(path.strip()) == 0: continue if os.path.isabs(path): # 已经是绝对路径 abs_path = path else: # 转为绝对路径 abs_path = os.path.join(os.getcwd(), path) if os.path.exists(abs_path): # 判断路径是否存在 abs_paths.append(os.path.normpath(abs_path)) return abs_paths def human_readable_size(size_bytes): """ Converts bytes to a human-readable format. """ # define the size units units = ("B", "KB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB") # calculate the logarithm of the input value with base 1024 size = int(size_bytes) if size == 0: return "0B" i = 0 while size >= 1024 and i < len(units) - 1: size /= 1024 i += 1 # round the result to two decimal points and return as a string return "{:.2f} {}".format(size, units[i]) def get_windows_drives(): drives = [] for drive in range(ord("A"), ord("Z") + 1): drive_name = chr(drive) + ":/" if os.path.exists(drive_name): drives.append(drive_name) return drives pattern = re.compile(r"(\d+\.?\d*)([KMGT]?B)", re.IGNORECASE) def convert_to_bytes(file_size_str): match = re.match(pattern, file_size_str) if match: size_str, unit_str = match.groups() size = float(size_str) unit = unit_str.upper() if unit == "KB": size *= 1024 elif unit == "MB": size *= 1024**2 elif unit == "GB": size *= 1024**3 elif unit == "TB": size *= 1024**4 return int(size) else: raise ValueError(f"Invalid file size string '{file_size_str}'") def is_valid_image_path(path): """ 判断给定的路径是否是图像文件 """ abs_path = os.path.abspath(path) # 转为绝对路径 if not os.path.exists(abs_path): # 判断路径是否存在 return False if not os.path.isfile(abs_path): # 判断是否是文件 return False if not imghdr.what(abs_path): # 判断是否是图像文件 return False return True def create_zip_file(file_paths: List[str], zip_file_name: str): """ 将文件打包成一个压缩包 Args: file_paths: 文件路径的列表 zip_file_name: 压缩包的文件名 Returns: 无返回值 """ with zipfile.ZipFile(zip_file_name, 'w', zipfile.ZIP_DEFLATED) as zip_file: for file_path in file_paths: if os.path.isfile(file_path): zip_file.write(file_path, os.path.basename(file_path)) elif os.path.isdir(file_path): for root, _, files in os.walk(file_path): for file in files: full_path = os.path.join(root, file) zip_file.write(full_path, os.path.relpath(full_path, file_path)) def get_temp_path(): """获取跨平台的临时文件目录路径""" temp_path = None try: # 尝试获取系统环境变量中的临时文件目录路径 temp_path = ( os.environ.get("TMPDIR") or os.environ.get("TMP") or os.environ.get("TEMP") ) except Exception as e: print("获取系统环境变量临时文件目录路径失败,错误信息:", e) # 如果系统环境变量中没有设置临时文件目录路径,则使用 Python 的 tempfile 模块创建临时文件目录 if not temp_path: try: temp_path = tempfile.gettempdir() except Exception as e: print("使用 Python 的 tempfile 模块创建临时文件目录失败,错误信息:", e) # 确保临时文件目录存在 if not os.path.exists(temp_path): try: os.makedirs(temp_path) except Exception as e: print("创建临时文件目录失败,错误信息:", e) return temp_path temp_path = get_temp_path() def get_secret_key_required(): try: from modules.shared import cmd_opts return bool(cmd_opts.gradio_auth) except: return False is_secret_key_required = get_secret_key_required() def get_enable_access_control(): ctrl = os.getenv("IIB_ACCESS_CONTROL") if ctrl == "enable": return True if ctrl == "disable": return False try: from modules.shared import cmd_opts return ( cmd_opts.share or cmd_opts.ngrok or cmd_opts.listen or cmd_opts.server_name ) except: pass return False enable_access_control = get_enable_access_control() def get_locale(): import locale env_lang = os.getenv("IIB_SERVER_LANG") if env_lang in ["zh", "en"]: return env_lang lang, _ = locale.getdefaultlocale() return "zh" if lang and lang.startswith("zh") else "en" locale = get_locale() def get_formatted_date(timestamp: float) -> str: return datetime.fromtimestamp(timestamp).strftime("%Y-%m-%d %H:%M:%S") def get_modified_date(folder_path: str): return get_formatted_date(os.path.getmtime(folder_path)) def get_created_date(folder_path: str): return get_formatted_date(os.path.getctime(folder_path)) def unique_by(seq, key_func=lambda x: x): seen = set() return [x for x in seq if not (key := key_func(x)) in seen and not seen.add(key)] def find(lst, comparator): return next((item for item in lst if comparator(item)), None) def findIndex(lst, comparator): return next((i for i, item in enumerate(lst) if comparator(item)), -1) def get_img_geninfo_txt_path(path: str): txt_path = re.sub(r"\.\w+$", ".txt", path) if os.path.exists(txt_path): return txt_path def is_img_created_by_comfyui(img: Image): return img.info.get('prompt') and img.info.get('workflow') def is_img_created_by_comfyui_with_webui_gen_info(img: Image): return img.info.get('parameters') def get_comfyui_exif_data(img: Image): prompt = img.info.get('prompt') if not prompt: return {} meta_key = '3' data: Dict[str, any] = json.loads(prompt) for i in range(3, 32): try: i = str(i) if data[i]["class_type"].startswith("KSampler"): meta_key = i break except: pass meta = {} KSampler_entry = data[meta_key]["inputs"] meta["Sampler"] = KSampler_entry["sampler_name"] meta["Model"] = data[KSampler_entry["model"][0]]["inputs"]["ckpt_name"] def get_text_from_clip(idx: str) : text = data[idx]["inputs"]["text"] if isinstance(text, list): # type:CLIPTextEncode (NSP) mode:Wildcards text = data[text[0]]["inputs"]["text"] return text.strip() pos_prompt = get_text_from_clip(KSampler_entry["positive"][0]) neg_prompt = get_text_from_clip(KSampler_entry["negative"][0]) pos_prompt_arr = unique_by(parse_prompt(pos_prompt)["pos_prompt"]) return { "meta": meta, "pos_prompt": pos_prompt_arr, "pos_prompt_raw": pos_prompt, "neg_prompt_raw" : neg_prompt } def comfyui_exif_data_to_str(data): res = data["pos_prompt_raw"] + "\nNegative prompt: " + data["neg_prompt_raw"] + "\n" meta_arr = [] for k,v in data["meta"].items(): meta_arr.append(f'{k}: {v}') return res + ", ".join(meta_arr) def read_sd_webui_gen_info_from_image(image: Image, path="") -> str: """ Reads metadata from an image file. Args: image (PIL.Image.Image): The image object to read metadata from. path (str): Optional. The path to the image file. Used to look for a .txt file with additional metadata. Returns: str: The metadata as a string. """ items = image.info or {} geninfo = items.pop("parameters", None) if "exif" in items: exif = piexif.load(items["exif"]) exif_comment = (exif or {}).get("Exif", {}).get(piexif.ExifIFD.UserComment, b"") try: exif_comment = piexif.helper.UserComment.load(exif_comment) except ValueError: exif_comment = exif_comment.decode("utf8", errors="ignore") if exif_comment: items["exif comment"] = exif_comment geninfo = exif_comment if not geninfo and path: try: txt_path = get_img_geninfo_txt_path(path) if txt_path: with open(txt_path) as f: geninfo = f.read() except Exception as e: pass return geninfo re_param_code = r'\s*([\w ]+):\s*("(?:\\"[^,]|\\"|\\|[^\"])+"|[^,]*)(?:,|$)' re_param = re.compile(re_param_code) re_imagesize = re.compile(r"^(\d+)x(\d+)$") re_lora_prompt = re.compile("", re.IGNORECASE) re_lora_extract = re.compile(r"([\w_\s.]+)(?:\d+)?") re_lyco_prompt = re.compile("", re.IGNORECASE) re_parens = re.compile(r"[\\/\[\](){}]+") def lora_extract(lora: str): """ 提取yoshino yoshino(2a79aa5adc4a) """ res = re_lora_extract.match(lora) return res.group(1) if res else lora def parse_prompt(x: str): x = re.sub( re_parens, "", x.replace(",", ",").replace("-", " ").replace("_", " ") ) tag_list = [x.strip() for x in x.split(",")] res = [] lora_list = [] lyco_list = [] for tag in tag_list: if len(tag) == 0: continue idx_colon = tag.find(":") if idx_colon != -1: if re.search(re_lora_prompt, tag): lora_res = re.search(re_lora_prompt, tag) lora_list.append( {"name": lora_res.group(1), "value": float(lora_res.group(2))} ) elif re.search(re_lyco_prompt, tag): lyco_res = re.search(re_lyco_prompt, tag) lyco_list.append( {"name": lyco_res.group(1), "value": float(lyco_res.group(2))} ) else: tag = tag[0:idx_colon] if len(tag): res.append(tag.lower()) else: res.append(tag.lower()) return {"pos_prompt": res, "lora": lora_list, "lyco": lyco_list} def parse_generation_parameters(x: str): res = {} prompt = "" negative_prompt = "" done_with_prompt = False if not x: return {"meta": {}, "pos_prompt": [], "lora": [], "lyco": []} *lines, lastline = x.strip().split("\n") if len(re_param.findall(lastline)) < 3: lines.append(lastline) lastline = "" if len(lines) == 1 and lines[0].startswith("Postprocess"): # 把上面改成<2应该也可以,当时不敢动 lastline = lines[ 0 ] # 把Postprocess upscale by: 4, Postprocess upscaler: R-ESRGAN 4x+ Anime6B 推到res解析 lines = [] for i, line in enumerate(lines): line = line.strip() if line.startswith("Negative prompt:"): done_with_prompt = True line = line[16:].strip() if done_with_prompt: negative_prompt += ("" if negative_prompt == "" else "\n") + line else: prompt += ("" if prompt == "" else "\n") + line for k, v in re_param.findall(lastline): v = v[1:-1] if v[0] == '"' and v[-1] == '"' else v m = re_imagesize.match(v) if m is not None: res[k + "-1"] = m.group(1) res[k + "-2"] = m.group(2) else: res[k] = v prompt_parse_res = parse_prompt(prompt) lora = prompt_parse_res["lora"] for k in res: k_s = str(k) if k_s.startswith("AddNet Module") and str(res[k]).lower() == "lora": model = res[k_s.replace("Module", "Model")] value = res.get(k_s.replace("Module", "Weight A"), "1") lora.append({"name": lora_extract(model), "value": float(value)}) return { "meta": res, "pos_prompt": unique_by(prompt_parse_res["pos_prompt"]), "lora": unique_by(lora, lambda x: x["name"].lower()), "lyco": unique_by(prompt_parse_res["lyco"], lambda x: x["name"].lower()), } tags_translate: Dict[str, str] = {} try: import codecs with codecs.open(os.path.join(cwd, "tags-translate.csv"), "r", "utf-8") as tag: tags_translate_str = tag.read() for line in tags_translate_str.splitlines(): en, mapping = line.split(",") tags_translate[en.strip()] = mapping.strip() except Exception as e: pass def open_folder(folder_path, file_path=None): folder = os.path.realpath(folder_path) if file_path: file = os.path.join(folder, file_path) if os.name == "nt": subprocess.run(["explorer", "/select,", file]) elif sys.platform == "darwin": subprocess.run(["open", "-R", file]) elif os.name == "posix": subprocess.run(["xdg-open", file]) else: if os.name == "nt": subprocess.run(["explorer", folder]) elif sys.platform == "darwin": subprocess.run(["open", folder]) elif os.name == "posix": subprocess.run(["xdg-open", folder])