from __future__ import annotations import inspect import io import os from dynaconf.utils import deduplicate def _walk_to_root(path, break_at=None): """ Directories starting from the given directory up to the root or break_at """ if not os.path.exists(path): # pragma: no cover raise OSError("Starting path not found") if os.path.isfile(path): # pragma: no cover path = os.path.dirname(path) last_dir = None current_dir = os.path.abspath(path) paths = [] while last_dir != current_dir: paths.append(current_dir) paths.append(os.path.join(current_dir, "config")) if break_at and current_dir == os.path.abspath(break_at): # noqa break parent_dir = os.path.abspath(os.path.join(current_dir, os.path.pardir)) last_dir, current_dir = current_dir, parent_dir return paths SEARCHTREE = [] def find_file(filename=".env", project_root=None, skip_files=None, **kwargs): """Search in increasingly higher folders for the given file Returns path to the file if found, or an empty string otherwise. This function will build a `search_tree` based on: - Project_root if specified - Invoked script location and its parents until root - Current working directory For each path in the `search_tree` it will also look for an additional `./config` folder. """ search_tree = [] try: work_dir = os.getcwd() except FileNotFoundError: return "" skip_files = skip_files or [] # If filename is an absolute path and exists, just return it # if the absolute path does not exist, return empty string so # that it can be joined and avoid IoError if os.path.isabs(filename): return filename if os.path.exists(filename) else "" if project_root is not None: search_tree.extend(_walk_to_root(project_root, break_at=work_dir)) script_dir = os.path.dirname(os.path.abspath(inspect.stack()[-1].filename)) # Path to invoked script and recursively to root with its ./config dirs search_tree.extend(_walk_to_root(script_dir)) # Path to where Python interpreter was invoked and recursively to root search_tree.extend(_walk_to_root(work_dir)) # Don't look the same place twice search_tree = deduplicate(search_tree) global SEARCHTREE SEARCHTREE[:] = search_tree for dirname in search_tree: check_path = os.path.join(dirname, filename) if check_path in skip_files: continue if os.path.exists(check_path): return check_path # First found will return # return empty string if not found so it can still be joined in os.path return "" def read_file(path, **kwargs): content = "" with open(path, **kwargs) as open_file: content = open_file.read().strip() return content def get_local_filename(filename): """Takes a filename like `settings.toml` and returns `settings.local.toml` Arguments: filename {str} -- The filename or complete path Returns: [str] -- The same name or path with `.local.` added. """ name, _, extension = os.path.basename(str(filename)).rpartition( os.path.extsep ) return os.path.join( os.path.dirname(str(filename)), f"{name}.local.{extension}" )