import os import re from modules import shared from modules.paths_internal import script_path, cwd def natural_sort_key(s, regex=re.compile('([0-9]+)')): return [int(text) if text.isdigit() else text.lower() for text in regex.split(s)] def listfiles(dirname): filenames = [os.path.join(dirname, x) for x in sorted(os.listdir(dirname), key=natural_sort_key) if not x.startswith(".")] return [file for file in filenames if os.path.isfile(file)] def html_path(filename): return os.path.join(script_path, "html", filename) def html(filename): path = html_path(filename) try: with open(path, encoding="utf8") as file: return file.read() except OSError: return "" def walk_files(path, allowed_extensions=None): if not os.path.exists(path): return if allowed_extensions is not None: allowed_extensions = set(allowed_extensions) items = list(os.walk(path, followlinks=True)) items = sorted(items, key=lambda x: natural_sort_key(x[0])) for root, _, files in items: for filename in sorted(files, key=natural_sort_key): if allowed_extensions is not None: _, ext = os.path.splitext(filename) if ext.lower() not in allowed_extensions: continue if not shared.opts.list_hidden_files and ("/." in root or "\\." in root): continue yield os.path.join(root, filename) def ldm_print(*args, **kwargs): if shared.opts.hide_ldm_prints: return print(*args, **kwargs) def truncate_path(target_path, base_path=cwd): abs_target, abs_base = os.path.abspath(target_path), os.path.abspath(base_path) try: if os.path.commonpath([abs_target, abs_base]) == abs_base: return os.path.relpath(abs_target, abs_base) except ValueError: pass return abs_target class MassFileListerCachedDir: """A class that caches file metadata for a specific directory.""" def __init__(self, dirname): self.files = None self.files_cased = None self.dirname = dirname stats = ((x.name, x.stat(follow_symlinks=False)) for x in os.scandir(self.dirname)) files = [(n, s.st_mtime, s.st_ctime) for n, s in stats] self.files = {x[0].lower(): x for x in files} self.files_cased = {x[0]: x for x in files} def update_entry(self, filename): """Add a file to the cache""" file_path = os.path.join(self.dirname, filename) try: stat = os.stat(file_path) entry = (filename, stat.st_mtime, stat.st_ctime) self.files[filename.lower()] = entry self.files_cased[filename] = entry except FileNotFoundError as e: print(f'MassFileListerCachedDir.add_entry: "{file_path}" {e}') class MassFileLister: """A class that provides a way to check for the existence and mtime/ctile of files without doing more than one stat call per file.""" def __init__(self): self.cached_dirs = {} def find(self, path): """ Find the metadata for a file at the given path. Returns: tuple or None: A tuple of (name, mtime, ctime) if the file exists, or None if it does not. """ dirname, filename = os.path.split(path) cached_dir = self.cached_dirs.get(dirname) if cached_dir is None: cached_dir = MassFileListerCachedDir(dirname) self.cached_dirs[dirname] = cached_dir stats = cached_dir.files_cased.get(filename) if stats is not None: return stats stats = cached_dir.files.get(filename.lower()) if stats is None: return None try: os_stats = os.stat(path, follow_symlinks=False) return filename, os_stats.st_mtime, os_stats.st_ctime except Exception: return None def exists(self, path): """Check if a file exists at the given path.""" return self.find(path) is not None def mctime(self, path): """ Get the modification and creation times for a file at the given path. Returns: tuple: A tuple of (mtime, ctime) if the file exists, or (0, 0) if it does not. """ stats = self.find(path) return (0, 0) if stats is None else stats[1:3] def reset(self): """Clear the cache of all directories.""" self.cached_dirs.clear() def update_file_entry(self, path): """Update the cache for a specific directory.""" dirname, filename = os.path.split(path) if cached_dir := self.cached_dirs.get(dirname): cached_dir.update_entry(filename) def topological_sort(dependencies): """Accepts a dictionary mapping name to its dependencies, returns a list of names ordered according to dependencies. Ignores errors relating to missing dependencies or circular dependencies """ visited = {} result = [] def inner(name): visited[name] = True for dep in dependencies.get(name, []): if dep in dependencies and dep not in visited: inner(dep) result.append(name) for depname in dependencies: if depname not in visited: inner(depname) return result def open_folder(path): """Open a folder in the file manager of the respect OS.""" # import at function level to avoid potential issues import gradio as gr import platform import sys import subprocess if not os.path.exists(path): msg = f'Folder "{path}" does not exist. after you save an image, the folder will be created.' print(msg) gr.Info(msg) return elif not os.path.isdir(path): msg = f""" WARNING An open_folder request was made with an path that is not a folder. This could be an error or a malicious attempt to run code on your computer. Requested path was: {path} """ print(msg, file=sys.stderr) gr.Warning(msg) return path = os.path.normpath(path) if platform.system() == "Windows": os.startfile(path) elif platform.system() == "Darwin": subprocess.Popen(["open", path]) elif "microsoft-standard-WSL2" in platform.uname().release: subprocess.Popen(["explorer.exe", subprocess.check_output(["wslpath", "-w", path])]) else: subprocess.Popen(["xdg-open", path])