import codecs import io import re from collections.abc import Iterable from typing import overload # https://mypy.readthedocs.io/en/stable/more_types.html#function-overloading @overload def always_bytes(str_or_bytes: None, *encode_args) -> None: ... @overload def always_bytes(str_or_bytes: str | bytes, *encode_args) -> bytes: ... def always_bytes(str_or_bytes: None | str | bytes, *encode_args) -> None | bytes: if str_or_bytes is None or isinstance(str_or_bytes, bytes): return str_or_bytes elif isinstance(str_or_bytes, str): return str_or_bytes.encode(*encode_args) else: raise TypeError( f"Expected str or bytes, but got {type(str_or_bytes).__name__}." ) @overload def always_str(str_or_bytes: None, *encode_args) -> None: ... @overload def always_str(str_or_bytes: str | bytes, *encode_args) -> str: ... def always_str(str_or_bytes: None | str | bytes, *decode_args) -> None | str: """ Returns, str_or_bytes unmodified, if """ if str_or_bytes is None or isinstance(str_or_bytes, str): return str_or_bytes elif isinstance(str_or_bytes, bytes): return str_or_bytes.decode(*decode_args) else: raise TypeError( f"Expected str or bytes, but got {type(str_or_bytes).__name__}." ) # Translate control characters to "safe" characters. This implementation # initially replaced them with the matching control pictures # (http://unicode.org/charts/PDF/U2400.pdf), but that turned out to render badly # with monospace fonts. We are back to "." therefore. _control_char_trans = { x: ord(".") for x in range(32) # x + 0x2400 for unicode control group pictures } _control_char_trans[127] = ord(".") # 0x2421 _control_char_trans_newline = _control_char_trans.copy() for x in ("\r", "\n", "\t"): del _control_char_trans_newline[ord(x)] _control_char_trans = str.maketrans(_control_char_trans) _control_char_trans_newline = str.maketrans(_control_char_trans_newline) def escape_control_characters(text: str, keep_spacing=True) -> str: """ Replace all unicode C1 control characters from the given text with a single "." Args: keep_spacing: If True, tabs and newlines will not be replaced. """ if not isinstance(text, str): raise ValueError(f"text type must be unicode but is {type(text).__name__}") trans = _control_char_trans_newline if keep_spacing else _control_char_trans return text.translate(trans) def bytes_to_escaped_str( data: bytes, keep_spacing: bool = False, escape_single_quotes: bool = False ) -> str: """ Take bytes and return a safe string that can be displayed to the user. Single quotes are always escaped, double quotes are never escaped: "'" + bytes_to_escaped_str(...) + "'" gives a valid Python string. Args: keep_spacing: If True, tabs and newlines will not be escaped. """ if not isinstance(data, bytes): raise ValueError(f"data must be bytes, but is {data.__class__.__name__}") # We always insert a double-quote here so that we get a single-quoted string back # https://stackoverflow.com/questions/29019340/why-does-python-use-different-quotes-for-representing-strings-depending-on-their ret = repr(b'"' + data).lstrip("b")[2:-1] if not escape_single_quotes: ret = re.sub(r"(? bytes: """ Take an escaped string and return the unescaped bytes equivalent. Raises: ValueError, if the escape sequence is invalid. """ if not isinstance(data, str): raise ValueError(f"data must be str, but is {data.__class__.__name__}") # This one is difficult - we use an undocumented Python API here # as per http://stackoverflow.com/a/23151714/934719 return codecs.escape_decode(data)[0] # type: ignore def is_mostly_bin(s: bytes) -> bool: if not s or len(s) == 0: return False return sum(i < 9 or 13 < i < 32 or 126 < i for i in s[:100]) / len(s[:100]) > 0.3 def is_xml(s: bytes) -> bool: for char in s: if char in (9, 10, 32): # is space? continue return char == 60 # is a "<"? return False def clean_hanging_newline(t): """ Many editors will silently add a newline to the final line of a document (I'm looking at you, Vim). This function fixes this common problem at the risk of removing a hanging newline in the rare cases where the user actually intends it. """ if t and t[-1] == "\n": return t[:-1] return t def hexdump(s): """ Returns: A generator of (offset, hex, str) tuples """ for i in range(0, len(s), 16): offset = f"{i:0=10x}" part = s[i : i + 16] x = " ".join(f"{i:0=2x}" for i in part) x = x.ljust(47) # 16*2 + 15 part_repr = always_str( escape_control_characters( part.decode("ascii", "replace").replace("\ufffd", "."), False ) ) yield (offset, x, part_repr) def _move_to_private_code_plane(matchobj): return chr(ord(matchobj.group(0)) + 0xE000) def _restore_from_private_code_plane(matchobj): return chr(ord(matchobj.group(0)) - 0xE000) NO_ESCAPE = r"(?>> split_special_areas( >>> "test /* don't modify me */ foo", >>> [r"/\\*[\\s\\S]*?\\*/"]) # (regex matching comments) ["test ", "/* don't modify me */", " foo"] "".join(split_special_areas(x, ...)) == x always holds true. """ return re.split("({})".format("|".join(area_delimiter)), data, flags=re.MULTILINE) def escape_special_areas( data: str, area_delimiter: Iterable[str], control_characters, ): """ Escape all control characters present in special areas with UTF8 symbols in the private use plane (U+E000 t+ ord(char)). This is useful so that one can then use regex replacements on the resulting string without interfering with special areas. control_characters must be 0 < ord(x) < 256. Example: >>> print(x) if (true) { console.log('{}'); } >>> x = escape_special_areas(x, "{", ["'" + SINGLELINE_CONTENT + "'"]) >>> print(x) if (true) { console.log('�}'); } >>> x = re.sub(r"\\s*{\\s*", " {\n ", x) >>> x = unescape_special_areas(x) >>> print(x) if (true) { console.log('{}'); } """ buf = io.StringIO() parts = split_special_areas(data, area_delimiter) rex = re.compile(rf"[{control_characters}]") for i, x in enumerate(parts): if i % 2: x = rex.sub(_move_to_private_code_plane, x) buf.write(x) return buf.getvalue() def unescape_special_areas(data: str): """ Invert escape_special_areas. x == unescape_special_areas(escape_special_areas(x)) always holds true. """ return re.sub(r"[\ue000-\ue0ff]", _restore_from_private_code_plane, data)