All patches and comments are welcome. Please squash your changes to logical
commits before using git-format-patch and git-send-email to
patches@git.madduck.net.
If you'd read over the Git project's submission guidelines and adhered to them,
I'd be especially grateful.
3 from abc import ABC, abstractmethod
4 from collections import defaultdict
5 from concurrent.futures import Executor, ThreadPoolExecutor, ProcessPoolExecutor
6 from contextlib import contextmanager
7 from datetime import datetime
9 from functools import lru_cache, partial, wraps
13 from multiprocessing import Manager, freeze_support
15 from pathlib import Path
45 from mypy_extensions import mypyc_attr
47 from appdirs import user_cache_dir
48 from dataclasses import dataclass, field, replace
51 from typed_ast import ast3, ast27
52 from pathspec import PathSpec
55 from blib2to3.pytree import Node, Leaf, type_repr
56 from blib2to3 import pygram, pytree
57 from blib2to3.pgen2 import driver, token
58 from blib2to3.pgen2.grammar import Grammar
59 from blib2to3.pgen2.parse import ParseError
61 from _black_version import version as __version__
63 if sys.version_info < (3, 8):
64 from typing_extensions import Final
66 from typing import Final
69 import colorama # noqa: F401
71 DEFAULT_LINE_LENGTH = 88
72 DEFAULT_EXCLUDES = r"/(\.direnv|\.eggs|\.git|\.hg|\.mypy_cache|\.nox|\.tox|\.venv|\.svn|_build|buck-out|build|dist)/" # noqa: B950
73 DEFAULT_INCLUDES = r"\.pyi?$"
74 CACHE_DIR = Path(user_cache_dir("black", version=__version__))
75 STDIN_PLACEHOLDER = "__BLACK_STDIN_FILENAME__"
77 STRING_PREFIX_CHARS: Final = "furbFURB" # All possible string prefix characters.
91 LN = Union[Leaf, Node]
92 Transformer = Callable[["Line", Collection["Feature"]], Iterator["Line"]]
95 CacheInfo = Tuple[Timestamp, FileSize]
96 Cache = Dict[str, CacheInfo]
97 out = partial(click.secho, bold=True, err=True)
98 err = partial(click.secho, fg="red", err=True)
100 pygram.initialize(CACHE_DIR)
101 syms = pygram.python_symbols
104 class NothingChanged(UserWarning):
105 """Raised when reformatted code is the same as source."""
108 class CannotTransform(Exception):
109 """Base class for errors raised by Transformers."""
112 class CannotSplit(CannotTransform):
113 """A readable split that fits the allotted line length is impossible."""
116 class InvalidInput(ValueError):
117 """Raised when input source code fails all parse attempts."""
120 class BracketMatchError(KeyError):
121 """Raised when an opening bracket is unable to be matched to a closing bracket."""
125 E = TypeVar("E", bound=Exception)
128 class Ok(Generic[T]):
129 def __init__(self, value: T) -> None:
136 class Err(Generic[E]):
137 def __init__(self, e: E) -> None:
144 # The 'Result' return type is used to implement an error-handling model heavily
145 # influenced by that used by the Rust programming language
146 # (see https://doc.rust-lang.org/book/ch09-00-error-handling.html).
147 Result = Union[Ok[T], Err[E]]
148 TResult = Result[T, CannotTransform] # (T)ransform Result
149 TMatchResult = TResult[Index]
152 class WriteBack(Enum):
160 def from_configuration(
161 cls, *, check: bool, diff: bool, color: bool = False
163 if check and not diff:
167 return cls.COLOR_DIFF
169 return cls.DIFF if diff else cls.YES
178 class TargetVersion(Enum):
188 def is_python2(self) -> bool:
189 return self is TargetVersion.PY27
193 # All string literals are unicode
196 NUMERIC_UNDERSCORES = 3
197 TRAILING_COMMA_IN_CALL = 4
198 TRAILING_COMMA_IN_DEF = 5
199 # The following two feature-flags are mutually exclusive, and exactly one should be
200 # set for every version of python.
201 ASYNC_IDENTIFIERS = 6
203 ASSIGNMENT_EXPRESSIONS = 8
204 POS_ONLY_ARGUMENTS = 9
205 RELAXED_DECORATORS = 10
206 FORCE_OPTIONAL_PARENTHESES = 50
209 VERSION_TO_FEATURES: Dict[TargetVersion, Set[Feature]] = {
210 TargetVersion.PY27: {Feature.ASYNC_IDENTIFIERS},
211 TargetVersion.PY33: {Feature.UNICODE_LITERALS, Feature.ASYNC_IDENTIFIERS},
212 TargetVersion.PY34: {Feature.UNICODE_LITERALS, Feature.ASYNC_IDENTIFIERS},
213 TargetVersion.PY35: {
214 Feature.UNICODE_LITERALS,
215 Feature.TRAILING_COMMA_IN_CALL,
216 Feature.ASYNC_IDENTIFIERS,
218 TargetVersion.PY36: {
219 Feature.UNICODE_LITERALS,
221 Feature.NUMERIC_UNDERSCORES,
222 Feature.TRAILING_COMMA_IN_CALL,
223 Feature.TRAILING_COMMA_IN_DEF,
224 Feature.ASYNC_IDENTIFIERS,
226 TargetVersion.PY37: {
227 Feature.UNICODE_LITERALS,
229 Feature.NUMERIC_UNDERSCORES,
230 Feature.TRAILING_COMMA_IN_CALL,
231 Feature.TRAILING_COMMA_IN_DEF,
232 Feature.ASYNC_KEYWORDS,
234 TargetVersion.PY38: {
235 Feature.UNICODE_LITERALS,
237 Feature.NUMERIC_UNDERSCORES,
238 Feature.TRAILING_COMMA_IN_CALL,
239 Feature.TRAILING_COMMA_IN_DEF,
240 Feature.ASYNC_KEYWORDS,
241 Feature.ASSIGNMENT_EXPRESSIONS,
242 Feature.POS_ONLY_ARGUMENTS,
244 TargetVersion.PY39: {
245 Feature.UNICODE_LITERALS,
247 Feature.NUMERIC_UNDERSCORES,
248 Feature.TRAILING_COMMA_IN_CALL,
249 Feature.TRAILING_COMMA_IN_DEF,
250 Feature.ASYNC_KEYWORDS,
251 Feature.ASSIGNMENT_EXPRESSIONS,
252 Feature.RELAXED_DECORATORS,
253 Feature.POS_ONLY_ARGUMENTS,
260 target_versions: Set[TargetVersion] = field(default_factory=set)
261 line_length: int = DEFAULT_LINE_LENGTH
262 string_normalization: bool = True
263 magic_trailing_comma: bool = True
264 experimental_string_processing: bool = False
267 def get_cache_key(self) -> str:
268 if self.target_versions:
269 version_str = ",".join(
271 for version in sorted(self.target_versions, key=lambda v: v.value)
277 str(self.line_length),
278 str(int(self.string_normalization)),
279 str(int(self.is_pyi)),
281 return ".".join(parts)
284 # Legacy name, left for integrations.
288 def supports_feature(target_versions: Set[TargetVersion], feature: Feature) -> bool:
289 return all(feature in VERSION_TO_FEATURES[version] for version in target_versions)
292 def find_pyproject_toml(path_search_start: Iterable[str]) -> Optional[str]:
293 """Find the absolute filepath to a pyproject.toml if it exists"""
294 path_project_root = find_project_root(path_search_start)
295 path_pyproject_toml = path_project_root / "pyproject.toml"
296 return str(path_pyproject_toml) if path_pyproject_toml.is_file() else None
299 def parse_pyproject_toml(path_config: str) -> Dict[str, Any]:
300 """Parse a pyproject toml file, pulling out relevant parts for Black
302 If parsing fails, will raise a toml.TomlDecodeError
304 pyproject_toml = toml.load(path_config)
305 config = pyproject_toml.get("tool", {}).get("black", {})
306 return {k.replace("--", "").replace("-", "_"): v for k, v in config.items()}
309 def read_pyproject_toml(
310 ctx: click.Context, param: click.Parameter, value: Optional[str]
312 """Inject Black configuration from "pyproject.toml" into defaults in `ctx`.
314 Returns the path to a successfully found and read configuration file, None
318 value = find_pyproject_toml(ctx.params.get("src", ()))
323 config = parse_pyproject_toml(value)
324 except (toml.TomlDecodeError, OSError) as e:
325 raise click.FileError(
326 filename=value, hint=f"Error reading configuration file: {e}"
332 # Sanitize the values to be Click friendly. For more information please see:
333 # https://github.com/psf/black/issues/1458
334 # https://github.com/pallets/click/issues/1567
336 k: str(v) if not isinstance(v, (list, dict)) else v
337 for k, v in config.items()
340 target_version = config.get("target_version")
341 if target_version is not None and not isinstance(target_version, list):
342 raise click.BadOptionUsage(
343 "target-version", "Config key target-version must be a list"
346 default_map: Dict[str, Any] = {}
348 default_map.update(ctx.default_map)
349 default_map.update(config)
351 ctx.default_map = default_map
355 def target_version_option_callback(
356 c: click.Context, p: Union[click.Option, click.Parameter], v: Tuple[str, ...]
357 ) -> List[TargetVersion]:
358 """Compute the target versions from a --target-version flag.
360 This is its own function because mypy couldn't infer the type correctly
361 when it was a lambda, causing mypyc trouble.
363 return [TargetVersion[val.upper()] for val in v]
366 @click.command(context_settings=dict(help_option_names=["-h", "--help"]))
367 @click.option("-c", "--code", type=str, help="Format the code passed in as a string.")
372 default=DEFAULT_LINE_LENGTH,
373 help="How many characters per line to allow.",
379 type=click.Choice([v.name.lower() for v in TargetVersion]),
380 callback=target_version_option_callback,
383 "Python versions that should be supported by Black's output. [default: per-file"
391 "Format all input files like typing stubs regardless of file extension (useful"
392 " when piping source on standard input)."
397 "--skip-string-normalization",
399 help="Don't normalize string quotes or prefixes.",
403 "--skip-magic-trailing-comma",
405 help="Don't use trailing commas as a reason to split lines.",
408 "--experimental-string-processing",
412 "Experimental option that performs more normalization on string literals."
413 " Currently disabled because it leads to some crashes."
420 "Don't write the files back, just return the status. Return code 0 means"
421 " nothing would change. Return code 1 means some files would be reformatted."
422 " Return code 123 means there was an internal error."
428 help="Don't write the files back, just output a diff for each file on stdout.",
431 "--color/--no-color",
433 help="Show colored diff. Only applies when `--diff` is given.",
438 help="If --fast given, skip temporary sanity checks. [default: --safe]",
443 default=DEFAULT_INCLUDES,
445 "A regular expression that matches files and directories that should be"
446 " included on recursive searches. An empty value means all files are included"
447 " regardless of the name. Use forward slashes for directories on all platforms"
448 " (Windows, too). Exclusions are calculated first, inclusions later."
455 default=DEFAULT_EXCLUDES,
457 "A regular expression that matches files and directories that should be"
458 " excluded on recursive searches. An empty value means no paths are excluded."
459 " Use forward slashes for directories on all platforms (Windows, too). "
460 " Exclusions are calculated first, inclusions later."
468 "Like --exclude, but files and directories matching this regex will be "
469 "excluded even when they are passed explicitly as arguments."
476 "The name of the file when passing it through stdin. Useful to make "
477 "sure Black will respect --force-exclude option on some "
478 "editors that rely on using stdin."
486 "Don't emit non-error messages to stderr. Errors are still emitted; silence"
487 " those with 2>/dev/null."
495 "Also emit messages to stderr about files that were not changed or were ignored"
496 " due to --exclude=."
499 @click.version_option(version=__version__)
504 exists=True, file_okay=True, dir_okay=True, readable=True, allow_dash=True
519 callback=read_pyproject_toml,
520 help="Read configuration from FILE path.",
527 target_version: List[TargetVersion],
533 skip_string_normalization: bool,
534 skip_magic_trailing_comma: bool,
535 experimental_string_processing: bool,
540 force_exclude: Optional[str],
541 stdin_filename: Optional[str],
542 src: Tuple[str, ...],
543 config: Optional[str],
545 """The uncompromising code formatter."""
546 write_back = WriteBack.from_configuration(check=check, diff=diff, color=color)
548 versions = set(target_version)
550 # We'll autodetect later.
553 target_versions=versions,
554 line_length=line_length,
556 string_normalization=not skip_string_normalization,
557 magic_trailing_comma=not skip_magic_trailing_comma,
558 experimental_string_processing=experimental_string_processing,
560 if config and verbose:
561 out(f"Using configuration from {config}.", bold=False, fg="blue")
563 print(format_str(code, mode=mode))
565 report = Report(check=check, diff=diff, quiet=quiet, verbose=verbose)
566 sources = get_sources(
573 force_exclude=force_exclude,
575 stdin_filename=stdin_filename,
580 "No Python files are present to be formatted. Nothing to do 😴",
586 if len(sources) == 1:
590 write_back=write_back,
596 sources=sources, fast=fast, write_back=write_back, mode=mode, report=report
599 if verbose or not quiet:
600 out("Oh no! 💥 💔 💥" if report.return_code else "All done! ✨ 🍰 ✨")
601 click.secho(str(report), err=True)
602 ctx.exit(report.return_code)
608 src: Tuple[str, ...],
613 force_exclude: Optional[str],
615 stdin_filename: Optional[str],
617 """Compute the set of files to be formatted."""
619 include_regex = re_compile_maybe_verbose(include)
621 err(f"Invalid regular expression for include given: {include!r}")
624 exclude_regex = re_compile_maybe_verbose(exclude)
626 err(f"Invalid regular expression for exclude given: {exclude!r}")
629 force_exclude_regex = (
630 re_compile_maybe_verbose(force_exclude) if force_exclude else None
633 err(f"Invalid regular expression for force_exclude given: {force_exclude!r}")
636 root = find_project_root(src)
637 sources: Set[Path] = set()
638 path_empty(src, "No Path provided. Nothing to do 😴", quiet, verbose, ctx)
639 gitignore = get_gitignore(root)
642 if s == "-" and stdin_filename:
643 p = Path(stdin_filename)
649 if is_stdin or p.is_file():
650 normalized_path = normalize_path_maybe_ignore(p, root, report)
651 if normalized_path is None:
654 normalized_path = "/" + normalized_path
655 # Hard-exclude any files that matches the `--force-exclude` regex.
656 if force_exclude_regex:
657 force_exclude_match = force_exclude_regex.search(normalized_path)
659 force_exclude_match = None
660 if force_exclude_match and force_exclude_match.group(0):
661 report.path_ignored(p, "matches the --force-exclude regular expression")
665 p = Path(f"{STDIN_PLACEHOLDER}{str(p)}")
683 err(f"invalid path: {s}")
688 src: Sized, msg: str, quiet: bool, verbose: bool, ctx: click.Context
691 Exit if there is no `src` provided for formatting
693 if not src and (verbose or not quiet):
699 src: Path, fast: bool, write_back: WriteBack, mode: Mode, report: "Report"
701 """Reformat a single file under `src` without spawning child processes.
703 `fast`, `write_back`, and `mode` options are passed to
704 :func:`format_file_in_place` or :func:`format_stdin_to_stdout`.
711 elif str(src).startswith(STDIN_PLACEHOLDER):
713 # Use the original name again in case we want to print something
715 src = Path(str(src)[len(STDIN_PLACEHOLDER) :])
720 if format_stdin_to_stdout(fast=fast, write_back=write_back, mode=mode):
721 changed = Changed.YES
724 if write_back not in (WriteBack.DIFF, WriteBack.COLOR_DIFF):
725 cache = read_cache(mode)
726 res_src = src.resolve()
727 res_src_s = str(res_src)
728 if res_src_s in cache and cache[res_src_s] == get_cache_info(res_src):
729 changed = Changed.CACHED
730 if changed is not Changed.CACHED and format_file_in_place(
731 src, fast=fast, write_back=write_back, mode=mode
733 changed = Changed.YES
734 if (write_back is WriteBack.YES and changed is not Changed.CACHED) or (
735 write_back is WriteBack.CHECK and changed is Changed.NO
737 write_cache(cache, [src], mode)
738 report.done(src, changed)
739 except Exception as exc:
741 traceback.print_exc()
742 report.failed(src, str(exc))
746 sources: Set[Path], fast: bool, write_back: WriteBack, mode: Mode, report: "Report"
748 """Reformat multiple files using a ProcessPoolExecutor."""
750 loop = asyncio.get_event_loop()
751 worker_count = os.cpu_count()
752 if sys.platform == "win32":
753 # Work around https://bugs.python.org/issue26903
754 worker_count = min(worker_count, 60)
756 executor = ProcessPoolExecutor(max_workers=worker_count)
757 except (ImportError, OSError):
758 # we arrive here if the underlying system does not support multi-processing
759 # like in AWS Lambda or Termux, in which case we gracefully fallback to
760 # a ThreadPollExecutor with just a single worker (more workers would not do us
761 # any good due to the Global Interpreter Lock)
762 executor = ThreadPoolExecutor(max_workers=1)
765 loop.run_until_complete(
769 write_back=write_back,
778 if executor is not None:
782 async def schedule_formatting(
785 write_back: WriteBack,
788 loop: asyncio.AbstractEventLoop,
791 """Run formatting of `sources` in parallel using the provided `executor`.
793 (Use ProcessPoolExecutors for actual parallelism.)
795 `write_back`, `fast`, and `mode` options are passed to
796 :func:`format_file_in_place`.
799 if write_back not in (WriteBack.DIFF, WriteBack.COLOR_DIFF):
800 cache = read_cache(mode)
801 sources, cached = filter_cached(cache, sources)
802 for src in sorted(cached):
803 report.done(src, Changed.CACHED)
808 sources_to_cache = []
810 if write_back in (WriteBack.DIFF, WriteBack.COLOR_DIFF):
811 # For diff output, we need locks to ensure we don't interleave output
812 # from different processes.
814 lock = manager.Lock()
816 asyncio.ensure_future(
817 loop.run_in_executor(
818 executor, format_file_in_place, src, fast, mode, write_back, lock
821 for src in sorted(sources)
823 pending: Iterable["asyncio.Future[bool]"] = tasks.keys()
825 loop.add_signal_handler(signal.SIGINT, cancel, pending)
826 loop.add_signal_handler(signal.SIGTERM, cancel, pending)
827 except NotImplementedError:
828 # There are no good alternatives for these on Windows.
831 done, _ = await asyncio.wait(pending, return_when=asyncio.FIRST_COMPLETED)
833 src = tasks.pop(task)
835 cancelled.append(task)
836 elif task.exception():
837 report.failed(src, str(task.exception()))
839 changed = Changed.YES if task.result() else Changed.NO
840 # If the file was written back or was successfully checked as
841 # well-formatted, store this information in the cache.
842 if write_back is WriteBack.YES or (
843 write_back is WriteBack.CHECK and changed is Changed.NO
845 sources_to_cache.append(src)
846 report.done(src, changed)
848 await asyncio.gather(*cancelled, loop=loop, return_exceptions=True)
850 write_cache(cache, sources_to_cache, mode)
853 def format_file_in_place(
857 write_back: WriteBack = WriteBack.NO,
858 lock: Any = None, # multiprocessing.Manager().Lock() is some crazy proxy
860 """Format file under `src` path. Return True if changed.
862 If `write_back` is DIFF, write a diff to stdout. If it is YES, write reformatted
864 `mode` and `fast` options are passed to :func:`format_file_contents`.
866 if src.suffix == ".pyi":
867 mode = replace(mode, is_pyi=True)
869 then = datetime.utcfromtimestamp(src.stat().st_mtime)
870 with open(src, "rb") as buf:
871 src_contents, encoding, newline = decode_bytes(buf.read())
873 dst_contents = format_file_contents(src_contents, fast=fast, mode=mode)
874 except NothingChanged:
877 if write_back == WriteBack.YES:
878 with open(src, "w", encoding=encoding, newline=newline) as f:
879 f.write(dst_contents)
880 elif write_back in (WriteBack.DIFF, WriteBack.COLOR_DIFF):
881 now = datetime.utcnow()
882 src_name = f"{src}\t{then} +0000"
883 dst_name = f"{src}\t{now} +0000"
884 diff_contents = diff(src_contents, dst_contents, src_name, dst_name)
886 if write_back == write_back.COLOR_DIFF:
887 diff_contents = color_diff(diff_contents)
889 with lock or nullcontext():
890 f = io.TextIOWrapper(
896 f = wrap_stream_for_windows(f)
897 f.write(diff_contents)
903 def color_diff(contents: str) -> str:
904 """Inject the ANSI color codes to the diff."""
905 lines = contents.split("\n")
906 for i, line in enumerate(lines):
907 if line.startswith("+++") or line.startswith("---"):
908 line = "\033[1;37m" + line + "\033[0m" # bold white, reset
909 elif line.startswith("@@"):
910 line = "\033[36m" + line + "\033[0m" # cyan, reset
911 elif line.startswith("+"):
912 line = "\033[32m" + line + "\033[0m" # green, reset
913 elif line.startswith("-"):
914 line = "\033[31m" + line + "\033[0m" # red, reset
916 return "\n".join(lines)
919 def wrap_stream_for_windows(
921 ) -> Union[io.TextIOWrapper, "colorama.AnsiToWin32"]:
923 Wrap stream with colorama's wrap_stream so colors are shown on Windows.
925 If `colorama` is unavailable, the original stream is returned unmodified.
926 Otherwise, the `wrap_stream()` function determines whether the stream needs
927 to be wrapped for a Windows environment and will accordingly either return
928 an `AnsiToWin32` wrapper or the original stream.
931 from colorama.initialise import wrap_stream
935 # Set `strip=False` to avoid needing to modify test_express_diff_with_color.
936 return wrap_stream(f, convert=None, strip=False, autoreset=False, wrap=True)
939 def format_stdin_to_stdout(
940 fast: bool, *, write_back: WriteBack = WriteBack.NO, mode: Mode
942 """Format file on stdin. Return True if changed.
944 If `write_back` is YES, write reformatted code back to stdout. If it is DIFF,
945 write a diff to stdout. The `mode` argument is passed to
946 :func:`format_file_contents`.
948 then = datetime.utcnow()
949 src, encoding, newline = decode_bytes(sys.stdin.buffer.read())
952 dst = format_file_contents(src, fast=fast, mode=mode)
955 except NothingChanged:
959 f = io.TextIOWrapper(
960 sys.stdout.buffer, encoding=encoding, newline=newline, write_through=True
962 if write_back == WriteBack.YES:
964 elif write_back in (WriteBack.DIFF, WriteBack.COLOR_DIFF):
965 now = datetime.utcnow()
966 src_name = f"STDIN\t{then} +0000"
967 dst_name = f"STDOUT\t{now} +0000"
968 d = diff(src, dst, src_name, dst_name)
969 if write_back == WriteBack.COLOR_DIFF:
971 f = wrap_stream_for_windows(f)
976 def format_file_contents(src_contents: str, *, fast: bool, mode: Mode) -> FileContent:
977 """Reformat contents of a file and return new contents.
979 If `fast` is False, additionally confirm that the reformatted code is
980 valid by calling :func:`assert_equivalent` and :func:`assert_stable` on it.
981 `mode` is passed to :func:`format_str`.
983 if not src_contents.strip():
986 dst_contents = format_str(src_contents, mode=mode)
987 if src_contents == dst_contents:
991 assert_equivalent(src_contents, dst_contents)
992 assert_stable(src_contents, dst_contents, mode=mode)
996 def format_str(src_contents: str, *, mode: Mode) -> FileContent:
997 """Reformat a string and return new contents.
999 `mode` determines formatting options, such as how many characters per line are
1003 >>> print(black.format_str("def f(arg:str='')->None:...", mode=black.Mode()))
1004 def f(arg: str = "") -> None:
1007 A more complex example:
1010 ... black.format_str(
1011 ... "def f(arg:str='')->None: hey",
1012 ... mode=black.Mode(
1013 ... target_versions={black.TargetVersion.PY36},
1015 ... string_normalization=False,
1026 src_node = lib2to3_parse(src_contents.lstrip(), mode.target_versions)
1028 future_imports = get_future_imports(src_node)
1029 if mode.target_versions:
1030 versions = mode.target_versions
1032 versions = detect_target_versions(src_node)
1033 normalize_fmt_off(src_node)
1034 lines = LineGenerator(
1036 remove_u_prefix="unicode_literals" in future_imports
1037 or supports_feature(versions, Feature.UNICODE_LITERALS),
1039 elt = EmptyLineTracker(is_pyi=mode.is_pyi)
1040 empty_line = Line(mode=mode)
1042 split_line_features = {
1044 for feature in {Feature.TRAILING_COMMA_IN_CALL, Feature.TRAILING_COMMA_IN_DEF}
1045 if supports_feature(versions, feature)
1047 for current_line in lines.visit(src_node):
1048 dst_contents.append(str(empty_line) * after)
1049 before, after = elt.maybe_empty_lines(current_line)
1050 dst_contents.append(str(empty_line) * before)
1051 for line in transform_line(
1052 current_line, mode=mode, features=split_line_features
1054 dst_contents.append(str(line))
1055 return "".join(dst_contents)
1058 def decode_bytes(src: bytes) -> Tuple[FileContent, Encoding, NewLine]:
1059 """Return a tuple of (decoded_contents, encoding, newline).
1061 `newline` is either CRLF or LF but `decoded_contents` is decoded with
1062 universal newlines (i.e. only contains LF).
1064 srcbuf = io.BytesIO(src)
1065 encoding, lines = tokenize.detect_encoding(srcbuf.readline)
1067 return "", encoding, "\n"
1069 newline = "\r\n" if b"\r\n" == lines[0][-2:] else "\n"
1071 with io.TextIOWrapper(srcbuf, encoding) as tiow:
1072 return tiow.read(), encoding, newline
1075 def get_grammars(target_versions: Set[TargetVersion]) -> List[Grammar]:
1076 if not target_versions:
1077 # No target_version specified, so try all grammars.
1080 pygram.python_grammar_no_print_statement_no_exec_statement_async_keywords,
1082 pygram.python_grammar_no_print_statement_no_exec_statement,
1083 # Python 2.7 with future print_function import
1084 pygram.python_grammar_no_print_statement,
1086 pygram.python_grammar,
1089 if all(version.is_python2() for version in target_versions):
1090 # Python 2-only code, so try Python 2 grammars.
1092 # Python 2.7 with future print_function import
1093 pygram.python_grammar_no_print_statement,
1095 pygram.python_grammar,
1098 # Python 3-compatible code, so only try Python 3 grammar.
1100 # If we have to parse both, try to parse async as a keyword first
1101 if not supports_feature(target_versions, Feature.ASYNC_IDENTIFIERS):
1104 pygram.python_grammar_no_print_statement_no_exec_statement_async_keywords
1106 if not supports_feature(target_versions, Feature.ASYNC_KEYWORDS):
1108 grammars.append(pygram.python_grammar_no_print_statement_no_exec_statement)
1109 # At least one of the above branches must have been taken, because every Python
1110 # version has exactly one of the two 'ASYNC_*' flags
1114 def lib2to3_parse(src_txt: str, target_versions: Iterable[TargetVersion] = ()) -> Node:
1115 """Given a string with source, return the lib2to3 Node."""
1116 if not src_txt.endswith("\n"):
1119 for grammar in get_grammars(set(target_versions)):
1120 drv = driver.Driver(grammar, pytree.convert)
1122 result = drv.parse_string(src_txt, True)
1125 except ParseError as pe:
1126 lineno, column = pe.context[1]
1127 lines = src_txt.splitlines()
1129 faulty_line = lines[lineno - 1]
1131 faulty_line = "<line number missing in source>"
1132 exc = InvalidInput(f"Cannot parse: {lineno}:{column}: {faulty_line}")
1136 if isinstance(result, Leaf):
1137 result = Node(syms.file_input, [result])
1141 def lib2to3_unparse(node: Node) -> str:
1142 """Given a lib2to3 node, return its string representation."""
1147 class Visitor(Generic[T]):
1148 """Basic lib2to3 visitor that yields things of type `T` on `visit()`."""
1150 def visit(self, node: LN) -> Iterator[T]:
1151 """Main method to visit `node` and its children.
1153 It tries to find a `visit_*()` method for the given `node.type`, like
1154 `visit_simple_stmt` for Node objects or `visit_INDENT` for Leaf objects.
1155 If no dedicated `visit_*()` method is found, chooses `visit_default()`
1158 Then yields objects of type `T` from the selected visitor.
1161 name = token.tok_name[node.type]
1163 name = str(type_repr(node.type))
1164 # We explicitly branch on whether a visitor exists (instead of
1165 # using self.visit_default as the default arg to getattr) in order
1166 # to save needing to create a bound method object and so mypyc can
1167 # generate a native call to visit_default.
1168 visitf = getattr(self, f"visit_{name}", None)
1170 yield from visitf(node)
1172 yield from self.visit_default(node)
1174 def visit_default(self, node: LN) -> Iterator[T]:
1175 """Default `visit_*()` implementation. Recurses to children of `node`."""
1176 if isinstance(node, Node):
1177 for child in node.children:
1178 yield from self.visit(child)
1182 class DebugVisitor(Visitor[T]):
1185 def visit_default(self, node: LN) -> Iterator[T]:
1186 indent = " " * (2 * self.tree_depth)
1187 if isinstance(node, Node):
1188 _type = type_repr(node.type)
1189 out(f"{indent}{_type}", fg="yellow")
1190 self.tree_depth += 1
1191 for child in node.children:
1192 yield from self.visit(child)
1194 self.tree_depth -= 1
1195 out(f"{indent}/{_type}", fg="yellow", bold=False)
1197 _type = token.tok_name.get(node.type, str(node.type))
1198 out(f"{indent}{_type}", fg="blue", nl=False)
1200 # We don't have to handle prefixes for `Node` objects since
1201 # that delegates to the first child anyway.
1202 out(f" {node.prefix!r}", fg="green", bold=False, nl=False)
1203 out(f" {node.value!r}", fg="blue", bold=False)
1206 def show(cls, code: Union[str, Leaf, Node]) -> None:
1207 """Pretty-print the lib2to3 AST of a given string of `code`.
1209 Convenience method for debugging.
1211 v: DebugVisitor[None] = DebugVisitor()
1212 if isinstance(code, str):
1213 code = lib2to3_parse(code)
1217 WHITESPACE: Final = {token.DEDENT, token.INDENT, token.NEWLINE}
1218 STATEMENT: Final = {
1228 STANDALONE_COMMENT: Final = 153
1229 token.tok_name[STANDALONE_COMMENT] = "STANDALONE_COMMENT"
1230 LOGIC_OPERATORS: Final = {"and", "or"}
1231 COMPARATORS: Final = {
1239 MATH_OPERATORS: Final = {
1255 STARS: Final = {token.STAR, token.DOUBLESTAR}
1256 VARARGS_SPECIALS: Final = STARS | {token.SLASH}
1257 VARARGS_PARENTS: Final = {
1259 syms.argument, # double star in arglist
1260 syms.trailer, # single argument to call
1262 syms.varargslist, # lambdas
1264 UNPACKING_PARENTS: Final = {
1265 syms.atom, # single element of a list or set literal
1269 syms.testlist_star_expr,
1271 TEST_DESCENDANTS: Final = {
1288 ASSIGNMENTS: Final = {
1304 COMPREHENSION_PRIORITY: Final = 20
1305 COMMA_PRIORITY: Final = 18
1306 TERNARY_PRIORITY: Final = 16
1307 LOGIC_PRIORITY: Final = 14
1308 STRING_PRIORITY: Final = 12
1309 COMPARATOR_PRIORITY: Final = 10
1310 MATH_PRIORITIES: Final = {
1312 token.CIRCUMFLEX: 8,
1315 token.RIGHTSHIFT: 6,
1320 token.DOUBLESLASH: 4,
1324 token.DOUBLESTAR: 2,
1326 DOT_PRIORITY: Final = 1
1330 class BracketTracker:
1331 """Keeps track of brackets on a line."""
1334 bracket_match: Dict[Tuple[Depth, NodeType], Leaf] = field(default_factory=dict)
1335 delimiters: Dict[LeafID, Priority] = field(default_factory=dict)
1336 previous: Optional[Leaf] = None
1337 _for_loop_depths: List[int] = field(default_factory=list)
1338 _lambda_argument_depths: List[int] = field(default_factory=list)
1339 invisible: List[Leaf] = field(default_factory=list)
1341 def mark(self, leaf: Leaf) -> None:
1342 """Mark `leaf` with bracket-related metadata. Keep track of delimiters.
1344 All leaves receive an int `bracket_depth` field that stores how deep
1345 within brackets a given leaf is. 0 means there are no enclosing brackets
1346 that started on this line.
1348 If a leaf is itself a closing bracket, it receives an `opening_bracket`
1349 field that it forms a pair with. This is a one-directional link to
1350 avoid reference cycles.
1352 If a leaf is a delimiter (a token on which Black can split the line if
1353 needed) and it's on depth 0, its `id()` is stored in the tracker's
1356 if leaf.type == token.COMMENT:
1359 self.maybe_decrement_after_for_loop_variable(leaf)
1360 self.maybe_decrement_after_lambda_arguments(leaf)
1361 if leaf.type in CLOSING_BRACKETS:
1364 opening_bracket = self.bracket_match.pop((self.depth, leaf.type))
1365 except KeyError as e:
1366 raise BracketMatchError(
1367 "Unable to match a closing bracket to the following opening"
1370 leaf.opening_bracket = opening_bracket
1372 self.invisible.append(leaf)
1373 leaf.bracket_depth = self.depth
1375 delim = is_split_before_delimiter(leaf, self.previous)
1376 if delim and self.previous is not None:
1377 self.delimiters[id(self.previous)] = delim
1379 delim = is_split_after_delimiter(leaf, self.previous)
1381 self.delimiters[id(leaf)] = delim
1382 if leaf.type in OPENING_BRACKETS:
1383 self.bracket_match[self.depth, BRACKET[leaf.type]] = leaf
1386 self.invisible.append(leaf)
1387 self.previous = leaf
1388 self.maybe_increment_lambda_arguments(leaf)
1389 self.maybe_increment_for_loop_variable(leaf)
1391 def any_open_brackets(self) -> bool:
1392 """Return True if there is an yet unmatched open bracket on the line."""
1393 return bool(self.bracket_match)
1395 def max_delimiter_priority(self, exclude: Iterable[LeafID] = ()) -> Priority:
1396 """Return the highest priority of a delimiter found on the line.
1398 Values are consistent with what `is_split_*_delimiter()` return.
1399 Raises ValueError on no delimiters.
1401 return max(v for k, v in self.delimiters.items() if k not in exclude)
1403 def delimiter_count_with_priority(self, priority: Priority = 0) -> int:
1404 """Return the number of delimiters with the given `priority`.
1406 If no `priority` is passed, defaults to max priority on the line.
1408 if not self.delimiters:
1411 priority = priority or self.max_delimiter_priority()
1412 return sum(1 for p in self.delimiters.values() if p == priority)
1414 def maybe_increment_for_loop_variable(self, leaf: Leaf) -> bool:
1415 """In a for loop, or comprehension, the variables are often unpacks.
1417 To avoid splitting on the comma in this situation, increase the depth of
1418 tokens between `for` and `in`.
1420 if leaf.type == token.NAME and leaf.value == "for":
1422 self._for_loop_depths.append(self.depth)
1427 def maybe_decrement_after_for_loop_variable(self, leaf: Leaf) -> bool:
1428 """See `maybe_increment_for_loop_variable` above for explanation."""
1430 self._for_loop_depths
1431 and self._for_loop_depths[-1] == self.depth
1432 and leaf.type == token.NAME
1433 and leaf.value == "in"
1436 self._for_loop_depths.pop()
1441 def maybe_increment_lambda_arguments(self, leaf: Leaf) -> bool:
1442 """In a lambda expression, there might be more than one argument.
1444 To avoid splitting on the comma in this situation, increase the depth of
1445 tokens between `lambda` and `:`.
1447 if leaf.type == token.NAME and leaf.value == "lambda":
1449 self._lambda_argument_depths.append(self.depth)
1454 def maybe_decrement_after_lambda_arguments(self, leaf: Leaf) -> bool:
1455 """See `maybe_increment_lambda_arguments` above for explanation."""
1457 self._lambda_argument_depths
1458 and self._lambda_argument_depths[-1] == self.depth
1459 and leaf.type == token.COLON
1462 self._lambda_argument_depths.pop()
1467 def get_open_lsqb(self) -> Optional[Leaf]:
1468 """Return the most recent opening square bracket (if any)."""
1469 return self.bracket_match.get((self.depth - 1, token.RSQB))
1474 """Holds leaves and comments. Can be printed with `str(line)`."""
1478 leaves: List[Leaf] = field(default_factory=list)
1479 # keys ordered like `leaves`
1480 comments: Dict[LeafID, List[Leaf]] = field(default_factory=dict)
1481 bracket_tracker: BracketTracker = field(default_factory=BracketTracker)
1482 inside_brackets: bool = False
1483 should_split: bool = False
1484 magic_trailing_comma: Optional[Leaf] = None
1486 def append(self, leaf: Leaf, preformatted: bool = False) -> None:
1487 """Add a new `leaf` to the end of the line.
1489 Unless `preformatted` is True, the `leaf` will receive a new consistent
1490 whitespace prefix and metadata applied by :class:`BracketTracker`.
1491 Trailing commas are maybe removed, unpacked for loop variables are
1492 demoted from being delimiters.
1494 Inline comments are put aside.
1496 has_value = leaf.type in BRACKETS or bool(leaf.value.strip())
1500 if token.COLON == leaf.type and self.is_class_paren_empty:
1501 del self.leaves[-2:]
1502 if self.leaves and not preformatted:
1503 # Note: at this point leaf.prefix should be empty except for
1504 # imports, for which we only preserve newlines.
1505 leaf.prefix += whitespace(
1506 leaf, complex_subscript=self.is_complex_subscript(leaf)
1508 if self.inside_brackets or not preformatted:
1509 self.bracket_tracker.mark(leaf)
1510 if self.mode.magic_trailing_comma:
1511 if self.has_magic_trailing_comma(leaf):
1512 self.magic_trailing_comma = leaf
1513 elif self.has_magic_trailing_comma(leaf, ensure_removable=True):
1514 self.remove_trailing_comma()
1515 if not self.append_comment(leaf):
1516 self.leaves.append(leaf)
1518 def append_safe(self, leaf: Leaf, preformatted: bool = False) -> None:
1519 """Like :func:`append()` but disallow invalid standalone comment structure.
1521 Raises ValueError when any `leaf` is appended after a standalone comment
1522 or when a standalone comment is not the first leaf on the line.
1524 if self.bracket_tracker.depth == 0:
1526 raise ValueError("cannot append to standalone comments")
1528 if self.leaves and leaf.type == STANDALONE_COMMENT:
1530 "cannot append standalone comments to a populated line"
1533 self.append(leaf, preformatted=preformatted)
1536 def is_comment(self) -> bool:
1537 """Is this line a standalone comment?"""
1538 return len(self.leaves) == 1 and self.leaves[0].type == STANDALONE_COMMENT
1541 def is_decorator(self) -> bool:
1542 """Is this line a decorator?"""
1543 return bool(self) and self.leaves[0].type == token.AT
1546 def is_import(self) -> bool:
1547 """Is this an import line?"""
1548 return bool(self) and is_import(self.leaves[0])
1551 def is_class(self) -> bool:
1552 """Is this line a class definition?"""
1555 and self.leaves[0].type == token.NAME
1556 and self.leaves[0].value == "class"
1560 def is_stub_class(self) -> bool:
1561 """Is this line a class definition with a body consisting only of "..."?"""
1562 return self.is_class and self.leaves[-3:] == [
1563 Leaf(token.DOT, ".") for _ in range(3)
1567 def is_def(self) -> bool:
1568 """Is this a function definition? (Also returns True for async defs.)"""
1570 first_leaf = self.leaves[0]
1575 second_leaf: Optional[Leaf] = self.leaves[1]
1578 return (first_leaf.type == token.NAME and first_leaf.value == "def") or (
1579 first_leaf.type == token.ASYNC
1580 and second_leaf is not None
1581 and second_leaf.type == token.NAME
1582 and second_leaf.value == "def"
1586 def is_class_paren_empty(self) -> bool:
1587 """Is this a class with no base classes but using parentheses?
1589 Those are unnecessary and should be removed.
1593 and len(self.leaves) == 4
1595 and self.leaves[2].type == token.LPAR
1596 and self.leaves[2].value == "("
1597 and self.leaves[3].type == token.RPAR
1598 and self.leaves[3].value == ")"
1602 def is_triple_quoted_string(self) -> bool:
1603 """Is the line a triple quoted string?"""
1606 and self.leaves[0].type == token.STRING
1607 and self.leaves[0].value.startswith(('"""', "'''"))
1610 def contains_standalone_comments(self, depth_limit: int = sys.maxsize) -> bool:
1611 """If so, needs to be split before emitting."""
1612 for leaf in self.leaves:
1613 if leaf.type == STANDALONE_COMMENT and leaf.bracket_depth <= depth_limit:
1618 def contains_uncollapsable_type_comments(self) -> bool:
1621 last_leaf = self.leaves[-1]
1622 ignored_ids.add(id(last_leaf))
1623 if last_leaf.type == token.COMMA or (
1624 last_leaf.type == token.RPAR and not last_leaf.value
1626 # When trailing commas or optional parens are inserted by Black for
1627 # consistency, comments after the previous last element are not moved
1628 # (they don't have to, rendering will still be correct). So we ignore
1629 # trailing commas and invisible.
1630 last_leaf = self.leaves[-2]
1631 ignored_ids.add(id(last_leaf))
1635 # A type comment is uncollapsable if it is attached to a leaf
1636 # that isn't at the end of the line (since that could cause it
1637 # to get associated to a different argument) or if there are
1638 # comments before it (since that could cause it to get hidden
1640 comment_seen = False
1641 for leaf_id, comments in self.comments.items():
1642 for comment in comments:
1643 if is_type_comment(comment):
1644 if comment_seen or (
1645 not is_type_comment(comment, " ignore")
1646 and leaf_id not in ignored_ids
1654 def contains_unsplittable_type_ignore(self) -> bool:
1658 # If a 'type: ignore' is attached to the end of a line, we
1659 # can't split the line, because we can't know which of the
1660 # subexpressions the ignore was meant to apply to.
1662 # We only want this to apply to actual physical lines from the
1663 # original source, though: we don't want the presence of a
1664 # 'type: ignore' at the end of a multiline expression to
1665 # justify pushing it all onto one line. Thus we
1666 # (unfortunately) need to check the actual source lines and
1667 # only report an unsplittable 'type: ignore' if this line was
1668 # one line in the original code.
1670 # Grab the first and last line numbers, skipping generated leaves
1671 first_line = next((leaf.lineno for leaf in self.leaves if leaf.lineno != 0), 0)
1673 (leaf.lineno for leaf in reversed(self.leaves) if leaf.lineno != 0), 0
1676 if first_line == last_line:
1677 # We look at the last two leaves since a comma or an
1678 # invisible paren could have been added at the end of the
1680 for node in self.leaves[-2:]:
1681 for comment in self.comments.get(id(node), []):
1682 if is_type_comment(comment, " ignore"):
1687 def contains_multiline_strings(self) -> bool:
1688 return any(is_multiline_string(leaf) for leaf in self.leaves)
1690 def has_magic_trailing_comma(
1691 self, closing: Leaf, ensure_removable: bool = False
1693 """Return True if we have a magic trailing comma, that is when:
1694 - there's a trailing comma here
1695 - it's not a one-tuple
1696 Additionally, if ensure_removable:
1697 - it's not from square bracket indexing
1700 closing.type in CLOSING_BRACKETS
1702 and self.leaves[-1].type == token.COMMA
1706 if closing.type == token.RBRACE:
1709 if closing.type == token.RSQB:
1710 if not ensure_removable:
1712 comma = self.leaves[-1]
1713 return bool(comma.parent and comma.parent.type == syms.listmaker)
1718 if not is_one_tuple_between(closing.opening_bracket, closing, self.leaves):
1723 def append_comment(self, comment: Leaf) -> bool:
1724 """Add an inline or standalone comment to the line."""
1726 comment.type == STANDALONE_COMMENT
1727 and self.bracket_tracker.any_open_brackets()
1732 if comment.type != token.COMMENT:
1736 comment.type = STANDALONE_COMMENT
1740 last_leaf = self.leaves[-1]
1742 last_leaf.type == token.RPAR
1743 and not last_leaf.value
1744 and last_leaf.parent
1745 and len(list(last_leaf.parent.leaves())) <= 3
1746 and not is_type_comment(comment)
1748 # Comments on an optional parens wrapping a single leaf should belong to
1749 # the wrapped node except if it's a type comment. Pinning the comment like
1750 # this avoids unstable formatting caused by comment migration.
1751 if len(self.leaves) < 2:
1752 comment.type = STANDALONE_COMMENT
1756 last_leaf = self.leaves[-2]
1757 self.comments.setdefault(id(last_leaf), []).append(comment)
1760 def comments_after(self, leaf: Leaf) -> List[Leaf]:
1761 """Generate comments that should appear directly after `leaf`."""
1762 return self.comments.get(id(leaf), [])
1764 def remove_trailing_comma(self) -> None:
1765 """Remove the trailing comma and moves the comments attached to it."""
1766 trailing_comma = self.leaves.pop()
1767 trailing_comma_comments = self.comments.pop(id(trailing_comma), [])
1768 self.comments.setdefault(id(self.leaves[-1]), []).extend(
1769 trailing_comma_comments
1772 def is_complex_subscript(self, leaf: Leaf) -> bool:
1773 """Return True iff `leaf` is part of a slice with non-trivial exprs."""
1774 open_lsqb = self.bracket_tracker.get_open_lsqb()
1775 if open_lsqb is None:
1778 subscript_start = open_lsqb.next_sibling
1780 if isinstance(subscript_start, Node):
1781 if subscript_start.type == syms.listmaker:
1784 if subscript_start.type == syms.subscriptlist:
1785 subscript_start = child_towards(subscript_start, leaf)
1786 return subscript_start is not None and any(
1787 n.type in TEST_DESCENDANTS for n in subscript_start.pre_order()
1790 def clone(self) -> "Line":
1794 inside_brackets=self.inside_brackets,
1795 should_split=self.should_split,
1796 magic_trailing_comma=self.magic_trailing_comma,
1799 def __str__(self) -> str:
1800 """Render the line."""
1804 indent = " " * self.depth
1805 leaves = iter(self.leaves)
1806 first = next(leaves)
1807 res = f"{first.prefix}{indent}{first.value}"
1810 for comment in itertools.chain.from_iterable(self.comments.values()):
1815 def __bool__(self) -> bool:
1816 """Return True if the line has leaves or comments."""
1817 return bool(self.leaves or self.comments)
1821 class EmptyLineTracker:
1822 """Provides a stateful method that returns the number of potential extra
1823 empty lines needed before and after the currently processed line.
1825 Note: this tracker works on lines that haven't been split yet. It assumes
1826 the prefix of the first leaf consists of optional newlines. Those newlines
1827 are consumed by `maybe_empty_lines()` and included in the computation.
1830 is_pyi: bool = False
1831 previous_line: Optional[Line] = None
1832 previous_after: int = 0
1833 previous_defs: List[int] = field(default_factory=list)
1835 def maybe_empty_lines(self, current_line: Line) -> Tuple[int, int]:
1836 """Return the number of extra empty lines before and after the `current_line`.
1838 This is for separating `def`, `async def` and `class` with extra empty
1839 lines (two on module-level).
1841 before, after = self._maybe_empty_lines(current_line)
1843 # Black should not insert empty lines at the beginning
1846 if self.previous_line is None
1847 else before - self.previous_after
1849 self.previous_after = after
1850 self.previous_line = current_line
1851 return before, after
1853 def _maybe_empty_lines(self, current_line: Line) -> Tuple[int, int]:
1855 if current_line.depth == 0:
1856 max_allowed = 1 if self.is_pyi else 2
1857 if current_line.leaves:
1858 # Consume the first leaf's extra newlines.
1859 first_leaf = current_line.leaves[0]
1860 before = first_leaf.prefix.count("\n")
1861 before = min(before, max_allowed)
1862 first_leaf.prefix = ""
1865 depth = current_line.depth
1866 while self.previous_defs and self.previous_defs[-1] >= depth:
1867 self.previous_defs.pop()
1869 before = 0 if depth else 1
1871 before = 1 if depth else 2
1872 if current_line.is_decorator or current_line.is_def or current_line.is_class:
1873 return self._maybe_empty_lines_for_class_or_def(current_line, before)
1877 and self.previous_line.is_import
1878 and not current_line.is_import
1879 and depth == self.previous_line.depth
1881 return (before or 1), 0
1885 and self.previous_line.is_class
1886 and current_line.is_triple_quoted_string
1892 def _maybe_empty_lines_for_class_or_def(
1893 self, current_line: Line, before: int
1894 ) -> Tuple[int, int]:
1895 if not current_line.is_decorator:
1896 self.previous_defs.append(current_line.depth)
1897 if self.previous_line is None:
1898 # Don't insert empty lines before the first line in the file.
1901 if self.previous_line.is_decorator:
1902 if self.is_pyi and current_line.is_stub_class:
1903 # Insert an empty line after a decorated stub class
1908 if self.previous_line.depth < current_line.depth and (
1909 self.previous_line.is_class or self.previous_line.is_def
1914 self.previous_line.is_comment
1915 and self.previous_line.depth == current_line.depth
1921 if self.previous_line.depth > current_line.depth:
1923 elif current_line.is_class or self.previous_line.is_class:
1924 if current_line.is_stub_class and self.previous_line.is_stub_class:
1925 # No blank line between classes with an empty body
1930 current_line.is_def or current_line.is_decorator
1931 ) and not self.previous_line.is_def:
1932 # Blank line between a block of functions (maybe with preceding
1933 # decorators) and a block of non-functions
1939 if current_line.depth and newlines:
1945 class LineGenerator(Visitor[Line]):
1946 """Generates reformatted Line objects. Empty lines are not emitted.
1948 Note: destroys the tree it's visiting by mutating prefixes of its leaves
1949 in ways that will no longer stringify to valid Python code on the tree.
1953 remove_u_prefix: bool = False
1954 current_line: Line = field(init=False)
1956 def line(self, indent: int = 0) -> Iterator[Line]:
1959 If the line is empty, only emit if it makes sense.
1960 If the line is too long, split it first and then generate.
1962 If any lines were generated, set up a new current_line.
1964 if not self.current_line:
1965 self.current_line.depth += indent
1966 return # Line is empty, don't emit. Creating a new one unnecessary.
1968 complete_line = self.current_line
1969 self.current_line = Line(mode=self.mode, depth=complete_line.depth + indent)
1972 def visit_default(self, node: LN) -> Iterator[Line]:
1973 """Default `visit_*()` implementation. Recurses to children of `node`."""
1974 if isinstance(node, Leaf):
1975 any_open_brackets = self.current_line.bracket_tracker.any_open_brackets()
1976 for comment in generate_comments(node):
1977 if any_open_brackets:
1978 # any comment within brackets is subject to splitting
1979 self.current_line.append(comment)
1980 elif comment.type == token.COMMENT:
1981 # regular trailing comment
1982 self.current_line.append(comment)
1983 yield from self.line()
1986 # regular standalone comment
1987 yield from self.line()
1989 self.current_line.append(comment)
1990 yield from self.line()
1992 normalize_prefix(node, inside_brackets=any_open_brackets)
1993 if self.mode.string_normalization and node.type == token.STRING:
1994 normalize_string_prefix(node, remove_u_prefix=self.remove_u_prefix)
1995 normalize_string_quotes(node)
1996 if node.type == token.NUMBER:
1997 normalize_numeric_literal(node)
1998 if node.type not in WHITESPACE:
1999 self.current_line.append(node)
2000 yield from super().visit_default(node)
2002 def visit_INDENT(self, node: Leaf) -> Iterator[Line]:
2003 """Increase indentation level, maybe yield a line."""
2004 # In blib2to3 INDENT never holds comments.
2005 yield from self.line(+1)
2006 yield from self.visit_default(node)
2008 def visit_DEDENT(self, node: Leaf) -> Iterator[Line]:
2009 """Decrease indentation level, maybe yield a line."""
2010 # The current line might still wait for trailing comments. At DEDENT time
2011 # there won't be any (they would be prefixes on the preceding NEWLINE).
2012 # Emit the line then.
2013 yield from self.line()
2015 # While DEDENT has no value, its prefix may contain standalone comments
2016 # that belong to the current indentation level. Get 'em.
2017 yield from self.visit_default(node)
2019 # Finally, emit the dedent.
2020 yield from self.line(-1)
2023 self, node: Node, keywords: Set[str], parens: Set[str]
2024 ) -> Iterator[Line]:
2025 """Visit a statement.
2027 This implementation is shared for `if`, `while`, `for`, `try`, `except`,
2028 `def`, `with`, `class`, `assert` and assignments.
2030 The relevant Python language `keywords` for a given statement will be
2031 NAME leaves within it. This methods puts those on a separate line.
2033 `parens` holds a set of string leaf values immediately after which
2034 invisible parens should be put.
2036 normalize_invisible_parens(node, parens_after=parens)
2037 for child in node.children:
2038 if child.type == token.NAME and child.value in keywords: # type: ignore
2039 yield from self.line()
2041 yield from self.visit(child)
2043 def visit_suite(self, node: Node) -> Iterator[Line]:
2044 """Visit a suite."""
2045 if self.mode.is_pyi and is_stub_suite(node):
2046 yield from self.visit(node.children[2])
2048 yield from self.visit_default(node)
2050 def visit_simple_stmt(self, node: Node) -> Iterator[Line]:
2051 """Visit a statement without nested statements."""
2052 is_suite_like = node.parent and node.parent.type in STATEMENT
2054 if self.mode.is_pyi and is_stub_body(node):
2055 yield from self.visit_default(node)
2057 yield from self.line(+1)
2058 yield from self.visit_default(node)
2059 yield from self.line(-1)
2063 not self.mode.is_pyi
2065 or not is_stub_suite(node.parent)
2067 yield from self.line()
2068 yield from self.visit_default(node)
2070 def visit_async_stmt(self, node: Node) -> Iterator[Line]:
2071 """Visit `async def`, `async for`, `async with`."""
2072 yield from self.line()
2074 children = iter(node.children)
2075 for child in children:
2076 yield from self.visit(child)
2078 if child.type == token.ASYNC:
2081 internal_stmt = next(children)
2082 for child in internal_stmt.children:
2083 yield from self.visit(child)
2085 def visit_decorators(self, node: Node) -> Iterator[Line]:
2086 """Visit decorators."""
2087 for child in node.children:
2088 yield from self.line()
2089 yield from self.visit(child)
2091 def visit_SEMI(self, leaf: Leaf) -> Iterator[Line]:
2092 """Remove a semicolon and put the other statement on a separate line."""
2093 yield from self.line()
2095 def visit_ENDMARKER(self, leaf: Leaf) -> Iterator[Line]:
2096 """End of file. Process outstanding comments and end with a newline."""
2097 yield from self.visit_default(leaf)
2098 yield from self.line()
2100 def visit_STANDALONE_COMMENT(self, leaf: Leaf) -> Iterator[Line]:
2101 if not self.current_line.bracket_tracker.any_open_brackets():
2102 yield from self.line()
2103 yield from self.visit_default(leaf)
2105 def visit_factor(self, node: Node) -> Iterator[Line]:
2106 """Force parentheses between a unary op and a binary power:
2108 -2 ** 8 -> -(2 ** 8)
2110 _operator, operand = node.children
2112 operand.type == syms.power
2113 and len(operand.children) == 3
2114 and operand.children[1].type == token.DOUBLESTAR
2116 lpar = Leaf(token.LPAR, "(")
2117 rpar = Leaf(token.RPAR, ")")
2118 index = operand.remove() or 0
2119 node.insert_child(index, Node(syms.atom, [lpar, operand, rpar]))
2120 yield from self.visit_default(node)
2122 def visit_STRING(self, leaf: Leaf) -> Iterator[Line]:
2123 if is_docstring(leaf) and "\\\n" not in leaf.value:
2124 # We're ignoring docstrings with backslash newline escapes because changing
2125 # indentation of those changes the AST representation of the code.
2126 prefix = get_string_prefix(leaf.value)
2127 lead_len = len(prefix) + 3
2129 indent = " " * 4 * self.current_line.depth
2130 docstring = fix_docstring(leaf.value[lead_len:tail_len], indent)
2132 if leaf.value[lead_len - 1] == docstring[0]:
2133 docstring = " " + docstring
2134 if leaf.value[tail_len + 1] == docstring[-1]:
2135 docstring = docstring + " "
2136 leaf.value = leaf.value[0:lead_len] + docstring + leaf.value[tail_len:]
2138 yield from self.visit_default(leaf)
2140 def __post_init__(self) -> None:
2141 """You are in a twisty little maze of passages."""
2142 self.current_line = Line(mode=self.mode)
2146 self.visit_assert_stmt = partial(v, keywords={"assert"}, parens={"assert", ","})
2147 self.visit_if_stmt = partial(
2148 v, keywords={"if", "else", "elif"}, parens={"if", "elif"}
2150 self.visit_while_stmt = partial(v, keywords={"while", "else"}, parens={"while"})
2151 self.visit_for_stmt = partial(v, keywords={"for", "else"}, parens={"for", "in"})
2152 self.visit_try_stmt = partial(
2153 v, keywords={"try", "except", "else", "finally"}, parens=Ø
2155 self.visit_except_clause = partial(v, keywords={"except"}, parens=Ø)
2156 self.visit_with_stmt = partial(v, keywords={"with"}, parens=Ø)
2157 self.visit_funcdef = partial(v, keywords={"def"}, parens=Ø)
2158 self.visit_classdef = partial(v, keywords={"class"}, parens=Ø)
2159 self.visit_expr_stmt = partial(v, keywords=Ø, parens=ASSIGNMENTS)
2160 self.visit_return_stmt = partial(v, keywords={"return"}, parens={"return"})
2161 self.visit_import_from = partial(v, keywords=Ø, parens={"import"})
2162 self.visit_del_stmt = partial(v, keywords=Ø, parens={"del"})
2163 self.visit_async_funcdef = self.visit_async_stmt
2164 self.visit_decorated = self.visit_decorators
2167 IMPLICIT_TUPLE = {syms.testlist, syms.testlist_star_expr, syms.exprlist}
2168 BRACKET = {token.LPAR: token.RPAR, token.LSQB: token.RSQB, token.LBRACE: token.RBRACE}
2169 OPENING_BRACKETS = set(BRACKET.keys())
2170 CLOSING_BRACKETS = set(BRACKET.values())
2171 BRACKETS = OPENING_BRACKETS | CLOSING_BRACKETS
2172 ALWAYS_NO_SPACE = CLOSING_BRACKETS | {token.COMMA, STANDALONE_COMMENT}
2175 def whitespace(leaf: Leaf, *, complex_subscript: bool) -> str: # noqa: C901
2176 """Return whitespace prefix if needed for the given `leaf`.
2178 `complex_subscript` signals whether the given leaf is part of a subscription
2179 which has non-trivial arguments, like arithmetic expressions or function calls.
2187 if t in ALWAYS_NO_SPACE:
2190 if t == token.COMMENT:
2193 assert p is not None, f"INTERNAL ERROR: hand-made leaf without parent: {leaf!r}"
2194 if t == token.COLON and p.type not in {
2201 prev = leaf.prev_sibling
2203 prevp = preceding_leaf(p)
2204 if not prevp or prevp.type in OPENING_BRACKETS:
2207 if t == token.COLON:
2208 if prevp.type == token.COLON:
2211 elif prevp.type != token.COMMA and not complex_subscript:
2216 if prevp.type == token.EQUAL:
2218 if prevp.parent.type in {
2226 elif prevp.parent.type == syms.typedargslist:
2227 # A bit hacky: if the equal sign has whitespace, it means we
2228 # previously found it's a typed argument. So, we're using
2232 elif prevp.type in VARARGS_SPECIALS:
2233 if is_vararg(prevp, within=VARARGS_PARENTS | UNPACKING_PARENTS):
2236 elif prevp.type == token.COLON:
2237 if prevp.parent and prevp.parent.type in {syms.subscript, syms.sliceop}:
2238 return SPACE if complex_subscript else NO
2242 and prevp.parent.type == syms.factor
2243 and prevp.type in MATH_OPERATORS
2248 prevp.type == token.RIGHTSHIFT
2250 and prevp.parent.type == syms.shift_expr
2251 and prevp.prev_sibling
2252 and prevp.prev_sibling.type == token.NAME
2253 and prevp.prev_sibling.value == "print" # type: ignore
2255 # Python 2 print chevron
2257 elif prevp.type == token.AT and p.parent and p.parent.type == syms.decorator:
2258 # no space in decorators
2261 elif prev.type in OPENING_BRACKETS:
2264 if p.type in {syms.parameters, syms.arglist}:
2265 # untyped function signatures or calls
2266 if not prev or prev.type != token.COMMA:
2269 elif p.type == syms.varargslist:
2271 if prev and prev.type != token.COMMA:
2274 elif p.type == syms.typedargslist:
2275 # typed function signatures
2279 if t == token.EQUAL:
2280 if prev.type != syms.tname:
2283 elif prev.type == token.EQUAL:
2284 # A bit hacky: if the equal sign has whitespace, it means we
2285 # previously found it's a typed argument. So, we're using that, too.
2288 elif prev.type != token.COMMA:
2291 elif p.type == syms.tname:
2294 prevp = preceding_leaf(p)
2295 if not prevp or prevp.type != token.COMMA:
2298 elif p.type == syms.trailer:
2299 # attributes and calls
2300 if t == token.LPAR or t == token.RPAR:
2305 prevp = preceding_leaf(p)
2306 if not prevp or prevp.type != token.NUMBER:
2309 elif t == token.LSQB:
2312 elif prev.type != token.COMMA:
2315 elif p.type == syms.argument:
2317 if t == token.EQUAL:
2321 prevp = preceding_leaf(p)
2322 if not prevp or prevp.type == token.LPAR:
2325 elif prev.type in {token.EQUAL} | VARARGS_SPECIALS:
2328 elif p.type == syms.decorator:
2332 elif p.type == syms.dotted_name:
2336 prevp = preceding_leaf(p)
2337 if not prevp or prevp.type == token.AT or prevp.type == token.DOT:
2340 elif p.type == syms.classdef:
2344 if prev and prev.type == token.LPAR:
2347 elif p.type in {syms.subscript, syms.sliceop}:
2350 assert p.parent is not None, "subscripts are always parented"
2351 if p.parent.type == syms.subscriptlist:
2356 elif not complex_subscript:
2359 elif p.type == syms.atom:
2360 if prev and t == token.DOT:
2361 # dots, but not the first one.
2364 elif p.type == syms.dictsetmaker:
2366 if prev and prev.type == token.DOUBLESTAR:
2369 elif p.type in {syms.factor, syms.star_expr}:
2372 prevp = preceding_leaf(p)
2373 if not prevp or prevp.type in OPENING_BRACKETS:
2376 prevp_parent = prevp.parent
2377 assert prevp_parent is not None
2378 if prevp.type == token.COLON and prevp_parent.type in {
2384 elif prevp.type == token.EQUAL and prevp_parent.type == syms.argument:
2387 elif t in {token.NAME, token.NUMBER, token.STRING}:
2390 elif p.type == syms.import_from:
2392 if prev and prev.type == token.DOT:
2395 elif t == token.NAME:
2399 if prev and prev.type == token.DOT:
2402 elif p.type == syms.sliceop:
2408 def preceding_leaf(node: Optional[LN]) -> Optional[Leaf]:
2409 """Return the first leaf that precedes `node`, if any."""
2411 res = node.prev_sibling
2413 if isinstance(res, Leaf):
2417 return list(res.leaves())[-1]
2426 def prev_siblings_are(node: Optional[LN], tokens: List[Optional[NodeType]]) -> bool:
2427 """Return if the `node` and its previous siblings match types against the provided
2428 list of tokens; the provided `node`has its type matched against the last element in
2429 the list. `None` can be used as the first element to declare that the start of the
2430 list is anchored at the start of its parent's children."""
2433 if tokens[-1] is None:
2437 if node.type != tokens[-1]:
2439 return prev_siblings_are(node.prev_sibling, tokens[:-1])
2442 def child_towards(ancestor: Node, descendant: LN) -> Optional[LN]:
2443 """Return the child of `ancestor` that contains `descendant`."""
2444 node: Optional[LN] = descendant
2445 while node and node.parent != ancestor:
2450 def container_of(leaf: Leaf) -> LN:
2451 """Return `leaf` or one of its ancestors that is the topmost container of it.
2453 By "container" we mean a node where `leaf` is the very first child.
2455 same_prefix = leaf.prefix
2456 container: LN = leaf
2458 parent = container.parent
2462 if parent.children[0].prefix != same_prefix:
2465 if parent.type == syms.file_input:
2468 if parent.prev_sibling is not None and parent.prev_sibling.type in BRACKETS:
2475 def is_split_after_delimiter(leaf: Leaf, previous: Optional[Leaf] = None) -> Priority:
2476 """Return the priority of the `leaf` delimiter, given a line break after it.
2478 The delimiter priorities returned here are from those delimiters that would
2479 cause a line break after themselves.
2481 Higher numbers are higher priority.
2483 if leaf.type == token.COMMA:
2484 return COMMA_PRIORITY
2489 def is_split_before_delimiter(leaf: Leaf, previous: Optional[Leaf] = None) -> Priority:
2490 """Return the priority of the `leaf` delimiter, given a line break before it.
2492 The delimiter priorities returned here are from those delimiters that would
2493 cause a line break before themselves.
2495 Higher numbers are higher priority.
2497 if is_vararg(leaf, within=VARARGS_PARENTS | UNPACKING_PARENTS):
2498 # * and ** might also be MATH_OPERATORS but in this case they are not.
2499 # Don't treat them as a delimiter.
2503 leaf.type == token.DOT
2505 and leaf.parent.type not in {syms.import_from, syms.dotted_name}
2506 and (previous is None or previous.type in CLOSING_BRACKETS)
2511 leaf.type in MATH_OPERATORS
2513 and leaf.parent.type not in {syms.factor, syms.star_expr}
2515 return MATH_PRIORITIES[leaf.type]
2517 if leaf.type in COMPARATORS:
2518 return COMPARATOR_PRIORITY
2521 leaf.type == token.STRING
2522 and previous is not None
2523 and previous.type == token.STRING
2525 return STRING_PRIORITY
2527 if leaf.type not in {token.NAME, token.ASYNC}:
2533 and leaf.parent.type in {syms.comp_for, syms.old_comp_for}
2534 or leaf.type == token.ASYNC
2537 not isinstance(leaf.prev_sibling, Leaf)
2538 or leaf.prev_sibling.value != "async"
2540 return COMPREHENSION_PRIORITY
2545 and leaf.parent.type in {syms.comp_if, syms.old_comp_if}
2547 return COMPREHENSION_PRIORITY
2549 if leaf.value in {"if", "else"} and leaf.parent and leaf.parent.type == syms.test:
2550 return TERNARY_PRIORITY
2552 if leaf.value == "is":
2553 return COMPARATOR_PRIORITY
2558 and leaf.parent.type in {syms.comp_op, syms.comparison}
2560 previous is not None
2561 and previous.type == token.NAME
2562 and previous.value == "not"
2565 return COMPARATOR_PRIORITY
2570 and leaf.parent.type == syms.comp_op
2572 previous is not None
2573 and previous.type == token.NAME
2574 and previous.value == "is"
2577 return COMPARATOR_PRIORITY
2579 if leaf.value in LOGIC_OPERATORS and leaf.parent:
2580 return LOGIC_PRIORITY
2585 FMT_OFF = {"# fmt: off", "# fmt:off", "# yapf: disable"}
2586 FMT_SKIP = {"# fmt: skip", "# fmt:skip"}
2587 FMT_PASS = {*FMT_OFF, *FMT_SKIP}
2588 FMT_ON = {"# fmt: on", "# fmt:on", "# yapf: enable"}
2591 def generate_comments(leaf: LN) -> Iterator[Leaf]:
2592 """Clean the prefix of the `leaf` and generate comments from it, if any.
2594 Comments in lib2to3 are shoved into the whitespace prefix. This happens
2595 in `pgen2/driver.py:Driver.parse_tokens()`. This was a brilliant implementation
2596 move because it does away with modifying the grammar to include all the
2597 possible places in which comments can be placed.
2599 The sad consequence for us though is that comments don't "belong" anywhere.
2600 This is why this function generates simple parentless Leaf objects for
2601 comments. We simply don't know what the correct parent should be.
2603 No matter though, we can live without this. We really only need to
2604 differentiate between inline and standalone comments. The latter don't
2605 share the line with any code.
2607 Inline comments are emitted as regular token.COMMENT leaves. Standalone
2608 are emitted with a fake STANDALONE_COMMENT token identifier.
2610 for pc in list_comments(leaf.prefix, is_endmarker=leaf.type == token.ENDMARKER):
2611 yield Leaf(pc.type, pc.value, prefix="\n" * pc.newlines)
2616 """Describes a piece of syntax that is a comment.
2618 It's not a :class:`blib2to3.pytree.Leaf` so that:
2620 * it can be cached (`Leaf` objects should not be reused more than once as
2621 they store their lineno, column, prefix, and parent information);
2622 * `newlines` and `consumed` fields are kept separate from the `value`. This
2623 simplifies handling of special marker comments like ``# fmt: off/on``.
2626 type: int # token.COMMENT or STANDALONE_COMMENT
2627 value: str # content of the comment
2628 newlines: int # how many newlines before the comment
2629 consumed: int # how many characters of the original leaf's prefix did we consume
2632 @lru_cache(maxsize=4096)
2633 def list_comments(prefix: str, *, is_endmarker: bool) -> List[ProtoComment]:
2634 """Return a list of :class:`ProtoComment` objects parsed from the given `prefix`."""
2635 result: List[ProtoComment] = []
2636 if not prefix or "#" not in prefix:
2642 for index, line in enumerate(re.split("\r?\n", prefix)):
2643 consumed += len(line) + 1 # adding the length of the split '\n'
2644 line = line.lstrip()
2647 if not line.startswith("#"):
2648 # Escaped newlines outside of a comment are not really newlines at
2649 # all. We treat a single-line comment following an escaped newline
2650 # as a simple trailing comment.
2651 if line.endswith("\\"):
2655 if index == ignored_lines and not is_endmarker:
2656 comment_type = token.COMMENT # simple trailing comment
2658 comment_type = STANDALONE_COMMENT
2659 comment = make_comment(line)
2662 type=comment_type, value=comment, newlines=nlines, consumed=consumed
2669 def make_comment(content: str) -> str:
2670 """Return a consistently formatted comment from the given `content` string.
2672 All comments (except for "##", "#!", "#:", '#'", "#%%") should have a single
2673 space between the hash sign and the content.
2675 If `content` didn't start with a hash sign, one is provided.
2677 content = content.rstrip()
2681 if content[0] == "#":
2682 content = content[1:]
2683 if content and content[0] not in " !:#'%":
2684 content = " " + content
2685 return "#" + content
2689 line: Line, mode: Mode, features: Collection[Feature] = ()
2690 ) -> Iterator[Line]:
2691 """Transform a `line`, potentially splitting it into many lines.
2693 They should fit in the allotted `line_length` but might not be able to.
2695 `features` are syntactical features that may be used in the output.
2701 line_str = line_to_string(line)
2703 def init_st(ST: Type[StringTransformer]) -> StringTransformer:
2704 """Initialize StringTransformer"""
2705 return ST(mode.line_length, mode.string_normalization)
2707 string_merge = init_st(StringMerger)
2708 string_paren_strip = init_st(StringParenStripper)
2709 string_split = init_st(StringSplitter)
2710 string_paren_wrap = init_st(StringParenWrapper)
2712 transformers: List[Transformer]
2714 not line.contains_uncollapsable_type_comments()
2715 and not (line.should_split or line.magic_trailing_comma)
2717 is_line_short_enough(line, line_length=mode.line_length, line_str=line_str)
2718 or line.contains_unsplittable_type_ignore()
2720 and not (line.inside_brackets and line.contains_standalone_comments())
2722 # Only apply basic string preprocessing, since lines shouldn't be split here.
2723 if mode.experimental_string_processing:
2724 transformers = [string_merge, string_paren_strip]
2728 transformers = [left_hand_split]
2731 def rhs(line: Line, features: Collection[Feature]) -> Iterator[Line]:
2732 """Wraps calls to `right_hand_split`.
2734 The calls increasingly `omit` right-hand trailers (bracket pairs with
2735 content), meaning the trailers get glued together to split on another
2736 bracket pair instead.
2738 for omit in generate_trailers_to_omit(line, mode.line_length):
2740 right_hand_split(line, mode.line_length, features, omit=omit)
2742 # Note: this check is only able to figure out if the first line of the
2743 # *current* transformation fits in the line length. This is true only
2744 # for simple cases. All others require running more transforms via
2745 # `transform_line()`. This check doesn't know if those would succeed.
2746 if is_line_short_enough(lines[0], line_length=mode.line_length):
2750 # All splits failed, best effort split with no omits.
2751 # This mostly happens to multiline strings that are by definition
2752 # reported as not fitting a single line, as well as lines that contain
2753 # trailing commas (those have to be exploded).
2754 yield from right_hand_split(
2755 line, line_length=mode.line_length, features=features
2758 if mode.experimental_string_processing:
2759 if line.inside_brackets:
2765 standalone_comment_split,
2778 if line.inside_brackets:
2779 transformers = [delimiter_split, standalone_comment_split, rhs]
2781 transformers = [rhs]
2783 for transform in transformers:
2784 # We are accumulating lines in `result` because we might want to abort
2785 # mission and return the original line in the end, or attempt a different
2788 result = run_transformer(line, transform, mode, features, line_str=line_str)
2789 except CannotTransform:
2799 @dataclass # type: ignore
2800 class StringTransformer(ABC):
2802 An implementation of the Transformer protocol that relies on its
2803 subclasses overriding the template methods `do_match(...)` and
2804 `do_transform(...)`.
2806 This Transformer works exclusively on strings (for example, by merging
2809 The following sections can be found among the docstrings of each concrete
2810 StringTransformer subclass.
2813 Which requirements must be met of the given Line for this
2814 StringTransformer to be applied?
2817 If the given Line meets all of the above requirements, which string
2818 transformations can you expect to be applied to it by this
2822 What contractual agreements does this StringTransformer have with other
2823 StringTransfomers? Such collaborations should be eliminated/minimized
2824 as much as possible.
2828 normalize_strings: bool
2829 __name__ = "StringTransformer"
2832 def do_match(self, line: Line) -> TMatchResult:
2835 * Ok(string_idx) such that `line.leaves[string_idx]` is our target
2836 string, if a match was able to be made.
2838 * Err(CannotTransform), if a match was not able to be made.
2842 def do_transform(self, line: Line, string_idx: int) -> Iterator[TResult[Line]]:
2845 * Ok(new_line) where new_line is the new transformed line.
2847 * Err(CannotTransform) if the transformation failed for some reason. The
2848 `do_match(...)` template method should usually be used to reject
2849 the form of the given Line, but in some cases it is difficult to
2850 know whether or not a Line meets the StringTransformer's
2851 requirements until the transformation is already midway.
2854 This method should NOT mutate @line directly, but it MAY mutate the
2855 Line's underlying Node structure. (WARNING: If the underlying Node
2856 structure IS altered, then this method should NOT be allowed to
2857 yield an CannotTransform after that point.)
2860 def __call__(self, line: Line, _features: Collection[Feature]) -> Iterator[Line]:
2862 StringTransformer instances have a call signature that mirrors that of
2863 the Transformer type.
2866 CannotTransform(...) if the concrete StringTransformer class is unable
2869 # Optimization to avoid calling `self.do_match(...)` when the line does
2870 # not contain any string.
2871 if not any(leaf.type == token.STRING for leaf in line.leaves):
2872 raise CannotTransform("There are no strings in this line.")
2874 match_result = self.do_match(line)
2876 if isinstance(match_result, Err):
2877 cant_transform = match_result.err()
2878 raise CannotTransform(
2879 f"The string transformer {self.__class__.__name__} does not recognize"
2880 " this line as one that it can transform."
2881 ) from cant_transform
2883 string_idx = match_result.ok()
2885 for line_result in self.do_transform(line, string_idx):
2886 if isinstance(line_result, Err):
2887 cant_transform = line_result.err()
2888 raise CannotTransform(
2889 "StringTransformer failed while attempting to transform string."
2890 ) from cant_transform
2891 line = line_result.ok()
2897 """A custom (i.e. manual) string split.
2899 A single CustomSplit instance represents a single substring.
2902 Consider the following string:
2909 This string will correspond to the following three CustomSplit instances:
2911 CustomSplit(False, 16)
2912 CustomSplit(False, 17)
2913 CustomSplit(True, 16)
2921 class CustomSplitMapMixin:
2923 This mixin class is used to map merged strings to a sequence of
2924 CustomSplits, which will then be used to re-split the strings iff none of
2925 the resultant substrings go over the configured max line length.
2928 _Key = Tuple[StringID, str]
2929 _CUSTOM_SPLIT_MAP: Dict[_Key, Tuple[CustomSplit, ...]] = defaultdict(tuple)
2932 def _get_key(string: str) -> "CustomSplitMapMixin._Key":
2935 A unique identifier that is used internally to map @string to a
2936 group of custom splits.
2938 return (id(string), string)
2940 def add_custom_splits(
2941 self, string: str, custom_splits: Iterable[CustomSplit]
2943 """Custom Split Map Setter Method
2946 Adds a mapping from @string to the custom splits @custom_splits.
2948 key = self._get_key(string)
2949 self._CUSTOM_SPLIT_MAP[key] = tuple(custom_splits)
2951 def pop_custom_splits(self, string: str) -> List[CustomSplit]:
2952 """Custom Split Map Getter Method
2955 * A list of the custom splits that are mapped to @string, if any
2961 Deletes the mapping between @string and its associated custom
2962 splits (which are returned to the caller).
2964 key = self._get_key(string)
2966 custom_splits = self._CUSTOM_SPLIT_MAP[key]
2967 del self._CUSTOM_SPLIT_MAP[key]
2969 return list(custom_splits)
2971 def has_custom_splits(self, string: str) -> bool:
2974 True iff @string is associated with a set of custom splits.
2976 key = self._get_key(string)
2977 return key in self._CUSTOM_SPLIT_MAP
2980 class StringMerger(CustomSplitMapMixin, StringTransformer):
2981 """StringTransformer that merges strings together.
2984 (A) The line contains adjacent strings such that ALL of the validation checks
2985 listed in StringMerger.__validate_msg(...)'s docstring pass.
2987 (B) The line contains a string which uses line continuation backslashes.
2990 Depending on which of the two requirements above where met, either:
2992 (A) The string group associated with the target string is merged.
2994 (B) All line-continuation backslashes are removed from the target string.
2997 StringMerger provides custom split information to StringSplitter.
3000 def do_match(self, line: Line) -> TMatchResult:
3003 is_valid_index = is_valid_index_factory(LL)
3005 for (i, leaf) in enumerate(LL):
3007 leaf.type == token.STRING
3008 and is_valid_index(i + 1)
3009 and LL[i + 1].type == token.STRING
3013 if leaf.type == token.STRING and "\\\n" in leaf.value:
3016 return TErr("This line has no strings that need merging.")
3018 def do_transform(self, line: Line, string_idx: int) -> Iterator[TResult[Line]]:
3020 rblc_result = self.__remove_backslash_line_continuation_chars(
3021 new_line, string_idx
3023 if isinstance(rblc_result, Ok):
3024 new_line = rblc_result.ok()
3026 msg_result = self.__merge_string_group(new_line, string_idx)
3027 if isinstance(msg_result, Ok):
3028 new_line = msg_result.ok()
3030 if isinstance(rblc_result, Err) and isinstance(msg_result, Err):
3031 msg_cant_transform = msg_result.err()
3032 rblc_cant_transform = rblc_result.err()
3033 cant_transform = CannotTransform(
3034 "StringMerger failed to merge any strings in this line."
3037 # Chain the errors together using `__cause__`.
3038 msg_cant_transform.__cause__ = rblc_cant_transform
3039 cant_transform.__cause__ = msg_cant_transform
3041 yield Err(cant_transform)
3046 def __remove_backslash_line_continuation_chars(
3047 line: Line, string_idx: int
3050 Merge strings that were split across multiple lines using
3051 line-continuation backslashes.
3054 Ok(new_line), if @line contains backslash line-continuation
3057 Err(CannotTransform), otherwise.
3061 string_leaf = LL[string_idx]
3063 string_leaf.type == token.STRING
3064 and "\\\n" in string_leaf.value
3065 and not has_triple_quotes(string_leaf.value)
3068 f"String leaf {string_leaf} does not contain any backslash line"
3069 " continuation characters."
3072 new_line = line.clone()
3073 new_line.comments = line.comments.copy()
3074 append_leaves(new_line, line, LL)
3076 new_string_leaf = new_line.leaves[string_idx]
3077 new_string_leaf.value = new_string_leaf.value.replace("\\\n", "")
3081 def __merge_string_group(self, line: Line, string_idx: int) -> TResult[Line]:
3083 Merges string group (i.e. set of adjacent strings) where the first
3084 string in the group is `line.leaves[string_idx]`.
3087 Ok(new_line), if ALL of the validation checks found in
3088 __validate_msg(...) pass.
3090 Err(CannotTransform), otherwise.
3094 is_valid_index = is_valid_index_factory(LL)
3096 vresult = self.__validate_msg(line, string_idx)
3097 if isinstance(vresult, Err):
3100 # If the string group is wrapped inside an Atom node, we must make sure
3101 # to later replace that Atom with our new (merged) string leaf.
3102 atom_node = LL[string_idx].parent
3104 # We will place BREAK_MARK in between every two substrings that we
3105 # merge. We will then later go through our final result and use the
3106 # various instances of BREAK_MARK we find to add the right values to
3107 # the custom split map.
3108 BREAK_MARK = "@@@@@ BLACK BREAKPOINT MARKER @@@@@"
3110 QUOTE = LL[string_idx].value[-1]
3112 def make_naked(string: str, string_prefix: str) -> str:
3113 """Strip @string (i.e. make it a "naked" string)
3116 * assert_is_leaf_string(@string)
3119 A string that is identical to @string except that
3120 @string_prefix has been stripped, the surrounding QUOTE
3121 characters have been removed, and any remaining QUOTE
3122 characters have been escaped.
3124 assert_is_leaf_string(string)
3126 RE_EVEN_BACKSLASHES = r"(?:(?<!\\)(?:\\\\)*)"
3127 naked_string = string[len(string_prefix) + 1 : -1]
3128 naked_string = re.sub(
3129 "(" + RE_EVEN_BACKSLASHES + ")" + QUOTE, r"\1\\" + QUOTE, naked_string
3133 # Holds the CustomSplit objects that will later be added to the custom
3137 # Temporary storage for the 'has_prefix' part of the CustomSplit objects.
3140 # Sets the 'prefix' variable. This is the prefix that the final merged
3142 next_str_idx = string_idx
3146 and is_valid_index(next_str_idx)
3147 and LL[next_str_idx].type == token.STRING
3149 prefix = get_string_prefix(LL[next_str_idx].value)
3152 # The next loop merges the string group. The final string will be
3155 # The following convenience variables are used:
3160 # NSS: naked next string
3164 next_str_idx = string_idx
3165 while is_valid_index(next_str_idx) and LL[next_str_idx].type == token.STRING:
3168 SS = LL[next_str_idx].value
3169 next_prefix = get_string_prefix(SS)
3171 # If this is an f-string group but this substring is not prefixed
3173 if "f" in prefix and "f" not in next_prefix:
3174 # Then we must escape any braces contained in this substring.
3175 SS = re.subf(r"(\{|\})", "{1}{1}", SS)
3177 NSS = make_naked(SS, next_prefix)
3179 has_prefix = bool(next_prefix)
3180 prefix_tracker.append(has_prefix)
3182 S = prefix + QUOTE + NS + NSS + BREAK_MARK + QUOTE
3183 NS = make_naked(S, prefix)
3187 S_leaf = Leaf(token.STRING, S)
3188 if self.normalize_strings:
3189 normalize_string_quotes(S_leaf)
3191 # Fill the 'custom_splits' list with the appropriate CustomSplit objects.
3192 temp_string = S_leaf.value[len(prefix) + 1 : -1]
3193 for has_prefix in prefix_tracker:
3194 mark_idx = temp_string.find(BREAK_MARK)
3197 ), "Logic error while filling the custom string breakpoint cache."
3199 temp_string = temp_string[mark_idx + len(BREAK_MARK) :]
3200 breakpoint_idx = mark_idx + (len(prefix) if has_prefix else 0) + 1
3201 custom_splits.append(CustomSplit(has_prefix, breakpoint_idx))
3203 string_leaf = Leaf(token.STRING, S_leaf.value.replace(BREAK_MARK, ""))
3205 if atom_node is not None:
3206 replace_child(atom_node, string_leaf)
3208 # Build the final line ('new_line') that this method will later return.
3209 new_line = line.clone()
3210 for (i, leaf) in enumerate(LL):
3212 new_line.append(string_leaf)
3214 if string_idx <= i < string_idx + num_of_strings:
3215 for comment_leaf in line.comments_after(LL[i]):
3216 new_line.append(comment_leaf, preformatted=True)
3219 append_leaves(new_line, line, [leaf])
3221 self.add_custom_splits(string_leaf.value, custom_splits)
3225 def __validate_msg(line: Line, string_idx: int) -> TResult[None]:
3226 """Validate (M)erge (S)tring (G)roup
3228 Transform-time string validation logic for __merge_string_group(...).
3231 * Ok(None), if ALL validation checks (listed below) pass.
3233 * Err(CannotTransform), if any of the following are true:
3234 - The target string group does not contain ANY stand-alone comments.
3235 - The target string is not in a string group (i.e. it has no
3237 - The string group has more than one inline comment.
3238 - The string group has an inline comment that appears to be a pragma.
3239 - The set of all string prefixes in the string group is of
3240 length greater than one and is not equal to {"", "f"}.
3241 - The string group consists of raw strings.
3243 # We first check for "inner" stand-alone comments (i.e. stand-alone
3244 # comments that have a string leaf before them AND after them).
3247 found_sa_comment = False
3248 is_valid_index = is_valid_index_factory(line.leaves)
3249 while is_valid_index(i) and line.leaves[i].type in [
3253 if line.leaves[i].type == STANDALONE_COMMENT:
3254 found_sa_comment = True
3255 elif found_sa_comment:
3257 "StringMerger does NOT merge string groups which contain "
3258 "stand-alone comments."
3263 num_of_inline_string_comments = 0
3264 set_of_prefixes = set()
3266 for leaf in line.leaves[string_idx:]:
3267 if leaf.type != token.STRING:
3268 # If the string group is trailed by a comma, we count the
3269 # comments trailing the comma to be one of the string group's
3271 if leaf.type == token.COMMA and id(leaf) in line.comments:
3272 num_of_inline_string_comments += 1
3275 if has_triple_quotes(leaf.value):
3276 return TErr("StringMerger does NOT merge multiline strings.")
3279 prefix = get_string_prefix(leaf.value)
3281 return TErr("StringMerger does NOT merge raw strings.")
3283 set_of_prefixes.add(prefix)
3285 if id(leaf) in line.comments:
3286 num_of_inline_string_comments += 1
3287 if contains_pragma_comment(line.comments[id(leaf)]):
3288 return TErr("Cannot merge strings which have pragma comments.")
3290 if num_of_strings < 2:
3292 f"Not enough strings to merge (num_of_strings={num_of_strings})."
3295 if num_of_inline_string_comments > 1:
3297 f"Too many inline string comments ({num_of_inline_string_comments})."
3300 if len(set_of_prefixes) > 1 and set_of_prefixes != {"", "f"}:
3301 return TErr(f"Too many different prefixes ({set_of_prefixes}).")
3306 class StringParenStripper(StringTransformer):
3307 """StringTransformer that strips surrounding parentheses from strings.
3310 The line contains a string which is surrounded by parentheses and:
3311 - The target string is NOT the only argument to a function call.
3312 - The target string is NOT a "pointless" string.
3313 - If the target string contains a PERCENT, the brackets are not
3314 preceeded or followed by an operator with higher precedence than
3318 The parentheses mentioned in the 'Requirements' section are stripped.
3321 StringParenStripper has its own inherent usefulness, but it is also
3322 relied on to clean up the parentheses created by StringParenWrapper (in
3323 the event that they are no longer needed).
3326 def do_match(self, line: Line) -> TMatchResult:
3329 is_valid_index = is_valid_index_factory(LL)
3331 for (idx, leaf) in enumerate(LL):
3332 # Should be a string...
3333 if leaf.type != token.STRING:
3336 # If this is a "pointless" string...
3339 and leaf.parent.parent
3340 and leaf.parent.parent.type == syms.simple_stmt
3344 # Should be preceded by a non-empty LPAR...
3346 not is_valid_index(idx - 1)
3347 or LL[idx - 1].type != token.LPAR
3348 or is_empty_lpar(LL[idx - 1])
3352 # That LPAR should NOT be preceded by a function name or a closing
3353 # bracket (which could be a function which returns a function or a
3354 # list/dictionary that contains a function)...
3355 if is_valid_index(idx - 2) and (
3356 LL[idx - 2].type == token.NAME or LL[idx - 2].type in CLOSING_BRACKETS
3362 # Skip the string trailer, if one exists.
3363 string_parser = StringParser()
3364 next_idx = string_parser.parse(LL, string_idx)
3366 # if the leaves in the parsed string include a PERCENT, we need to
3367 # make sure the initial LPAR is NOT preceded by an operator with
3368 # higher or equal precedence to PERCENT
3369 if is_valid_index(idx - 2):
3370 # mypy can't quite follow unless we name this
3371 before_lpar = LL[idx - 2]
3372 if token.PERCENT in {leaf.type for leaf in LL[idx - 1 : next_idx]} and (
3389 # only unary PLUS/MINUS
3391 and before_lpar.parent.type == syms.factor
3392 and (before_lpar.type in {token.PLUS, token.MINUS})
3397 # Should be followed by a non-empty RPAR...
3399 is_valid_index(next_idx)
3400 and LL[next_idx].type == token.RPAR
3401 and not is_empty_rpar(LL[next_idx])
3403 # That RPAR should NOT be followed by anything with higher
3404 # precedence than PERCENT
3405 if is_valid_index(next_idx + 1) and LL[next_idx + 1].type in {
3413 return Ok(string_idx)
3415 return TErr("This line has no strings wrapped in parens.")
3417 def do_transform(self, line: Line, string_idx: int) -> Iterator[TResult[Line]]:
3420 string_parser = StringParser()
3421 rpar_idx = string_parser.parse(LL, string_idx)
3423 for leaf in (LL[string_idx - 1], LL[rpar_idx]):
3424 if line.comments_after(leaf):
3426 "Will not strip parentheses which have comments attached to them."
3430 new_line = line.clone()
3431 new_line.comments = line.comments.copy()
3433 append_leaves(new_line, line, LL[: string_idx - 1])
3434 except BracketMatchError:
3435 # HACK: I believe there is currently a bug somewhere in
3436 # right_hand_split() that is causing brackets to not be tracked
3437 # properly by a shared BracketTracker.
3438 append_leaves(new_line, line, LL[: string_idx - 1], preformatted=True)
3440 string_leaf = Leaf(token.STRING, LL[string_idx].value)
3441 LL[string_idx - 1].remove()
3442 replace_child(LL[string_idx], string_leaf)
3443 new_line.append(string_leaf)
3446 new_line, line, LL[string_idx + 1 : rpar_idx] + LL[rpar_idx + 1 :]
3449 LL[rpar_idx].remove()
3454 class BaseStringSplitter(StringTransformer):
3456 Abstract class for StringTransformers which transform a Line's strings by splitting
3457 them or placing them on their own lines where necessary to avoid going over
3458 the configured line length.
3461 * The target string value is responsible for the line going over the
3462 line length limit. It follows that after all of black's other line
3463 split methods have been exhausted, this line (or one of the resulting
3464 lines after all line splits are performed) would still be over the
3465 line_length limit unless we split this string.
3467 * The target string is NOT a "pointless" string (i.e. a string that has
3468 no parent or siblings).
3470 * The target string is not followed by an inline comment that appears
3473 * The target string is not a multiline (i.e. triple-quote) string.
3477 def do_splitter_match(self, line: Line) -> TMatchResult:
3479 BaseStringSplitter asks its clients to override this method instead of
3480 `StringTransformer.do_match(...)`.
3482 Follows the same protocol as `StringTransformer.do_match(...)`.
3484 Refer to `help(StringTransformer.do_match)` for more information.
3487 def do_match(self, line: Line) -> TMatchResult:
3488 match_result = self.do_splitter_match(line)
3489 if isinstance(match_result, Err):
3492 string_idx = match_result.ok()
3493 vresult = self.__validate(line, string_idx)
3494 if isinstance(vresult, Err):
3499 def __validate(self, line: Line, string_idx: int) -> TResult[None]:
3501 Checks that @line meets all of the requirements listed in this classes'
3502 docstring. Refer to `help(BaseStringSplitter)` for a detailed
3503 description of those requirements.
3506 * Ok(None), if ALL of the requirements are met.
3508 * Err(CannotTransform), if ANY of the requirements are NOT met.
3512 string_leaf = LL[string_idx]
3514 max_string_length = self.__get_max_string_length(line, string_idx)
3515 if len(string_leaf.value) <= max_string_length:
3517 "The string itself is not what is causing this line to be too long."
3520 if not string_leaf.parent or [L.type for L in string_leaf.parent.children] == [
3525 f"This string ({string_leaf.value}) appears to be pointless (i.e. has"
3529 if id(line.leaves[string_idx]) in line.comments and contains_pragma_comment(
3530 line.comments[id(line.leaves[string_idx])]
3533 "Line appears to end with an inline pragma comment. Splitting the line"
3534 " could modify the pragma's behavior."
3537 if has_triple_quotes(string_leaf.value):
3538 return TErr("We cannot split multiline strings.")
3542 def __get_max_string_length(self, line: Line, string_idx: int) -> int:
3544 Calculates the max string length used when attempting to determine
3545 whether or not the target string is responsible for causing the line to
3546 go over the line length limit.
3548 WARNING: This method is tightly coupled to both StringSplitter and
3549 (especially) StringParenWrapper. There is probably a better way to
3550 accomplish what is being done here.
3553 max_string_length: such that `line.leaves[string_idx].value >
3554 max_string_length` implies that the target string IS responsible
3555 for causing this line to exceed the line length limit.
3559 is_valid_index = is_valid_index_factory(LL)
3561 # We use the shorthand "WMA4" in comments to abbreviate "We must
3562 # account for". When giving examples, we use STRING to mean some/any
3565 # Finally, we use the following convenience variables:
3567 # P: The leaf that is before the target string leaf.
3568 # N: The leaf that is after the target string leaf.
3569 # NN: The leaf that is after N.
3571 # WMA4 the whitespace at the beginning of the line.
3572 offset = line.depth * 4
3574 if is_valid_index(string_idx - 1):
3575 p_idx = string_idx - 1
3577 LL[string_idx - 1].type == token.LPAR
3578 and LL[string_idx - 1].value == ""
3581 # If the previous leaf is an empty LPAR placeholder, we should skip it.
3585 if P.type == token.PLUS:
3586 # WMA4 a space and a '+' character (e.g. `+ STRING`).
3589 if P.type == token.COMMA:
3590 # WMA4 a space, a comma, and a closing bracket [e.g. `), STRING`].
3593 if P.type in [token.COLON, token.EQUAL, token.NAME]:
3594 # This conditional branch is meant to handle dictionary keys,
3595 # variable assignments, 'return STRING' statement lines, and
3596 # 'else STRING' ternary expression lines.
3598 # WMA4 a single space.
3601 # WMA4 the lengths of any leaves that came before that space,
3602 # but after any closing bracket before that space.
3603 for leaf in reversed(LL[: p_idx + 1]):
3604 offset += len(str(leaf))
3605 if leaf.type in CLOSING_BRACKETS:
3608 if is_valid_index(string_idx + 1):
3609 N = LL[string_idx + 1]
3610 if N.type == token.RPAR and N.value == "" and len(LL) > string_idx + 2:
3611 # If the next leaf is an empty RPAR placeholder, we should skip it.
3612 N = LL[string_idx + 2]
3614 if N.type == token.COMMA:
3615 # WMA4 a single comma at the end of the string (e.g `STRING,`).
3618 if is_valid_index(string_idx + 2):
3619 NN = LL[string_idx + 2]
3621 if N.type == token.DOT and NN.type == token.NAME:
3622 # This conditional branch is meant to handle method calls invoked
3623 # off of a string literal up to and including the LPAR character.
3625 # WMA4 the '.' character.
3629 is_valid_index(string_idx + 3)
3630 and LL[string_idx + 3].type == token.LPAR
3632 # WMA4 the left parenthesis character.
3635 # WMA4 the length of the method's name.
3636 offset += len(NN.value)
3638 has_comments = False
3639 for comment_leaf in line.comments_after(LL[string_idx]):
3640 if not has_comments:
3642 # WMA4 two spaces before the '#' character.
3645 # WMA4 the length of the inline comment.
3646 offset += len(comment_leaf.value)
3648 max_string_length = self.line_length - offset
3649 return max_string_length
3652 class StringSplitter(CustomSplitMapMixin, BaseStringSplitter):
3654 StringTransformer that splits "atom" strings (i.e. strings which exist on
3655 lines by themselves).
3658 * The line consists ONLY of a single string (with the exception of a
3659 '+' symbol which MAY exist at the start of the line), MAYBE a string
3660 trailer, and MAYBE a trailing comma.
3662 * All of the requirements listed in BaseStringSplitter's docstring.
3665 The string mentioned in the 'Requirements' section is split into as
3666 many substrings as necessary to adhere to the configured line length.
3668 In the final set of substrings, no substring should be smaller than
3669 MIN_SUBSTR_SIZE characters.
3671 The string will ONLY be split on spaces (i.e. each new substring should
3672 start with a space). Note that the string will NOT be split on a space
3673 which is escaped with a backslash.
3675 If the string is an f-string, it will NOT be split in the middle of an
3676 f-expression (e.g. in f"FooBar: {foo() if x else bar()}", {foo() if x
3677 else bar()} is an f-expression).
3679 If the string that is being split has an associated set of custom split
3680 records and those custom splits will NOT result in any line going over
3681 the configured line length, those custom splits are used. Otherwise the
3682 string is split as late as possible (from left-to-right) while still
3683 adhering to the transformation rules listed above.
3686 StringSplitter relies on StringMerger to construct the appropriate
3687 CustomSplit objects and add them to the custom split map.
3691 # Matches an "f-expression" (e.g. {var}) that might be found in an f-string.
3693 (?<!\{) (?:\{\{)* \{ (?!\{)
3700 (?<!\}) \} (?:\}\})* (?!\})
3703 def do_splitter_match(self, line: Line) -> TMatchResult:
3706 is_valid_index = is_valid_index_factory(LL)
3710 # The first leaf MAY be a '+' symbol...
3711 if is_valid_index(idx) and LL[idx].type == token.PLUS:
3714 # The next/first leaf MAY be an empty LPAR...
3715 if is_valid_index(idx) and is_empty_lpar(LL[idx]):
3718 # The next/first leaf MUST be a string...
3719 if not is_valid_index(idx) or LL[idx].type != token.STRING:
3720 return TErr("Line does not start with a string.")
3724 # Skip the string trailer, if one exists.
3725 string_parser = StringParser()
3726 idx = string_parser.parse(LL, string_idx)
3728 # That string MAY be followed by an empty RPAR...
3729 if is_valid_index(idx) and is_empty_rpar(LL[idx]):
3732 # That string / empty RPAR leaf MAY be followed by a comma...
3733 if is_valid_index(idx) and LL[idx].type == token.COMMA:
3736 # But no more leaves are allowed...
3737 if is_valid_index(idx):
3738 return TErr("This line does not end with a string.")
3740 return Ok(string_idx)
3742 def do_transform(self, line: Line, string_idx: int) -> Iterator[TResult[Line]]:
3745 QUOTE = LL[string_idx].value[-1]
3747 is_valid_index = is_valid_index_factory(LL)
3748 insert_str_child = insert_str_child_factory(LL[string_idx])
3750 prefix = get_string_prefix(LL[string_idx].value)
3752 # We MAY choose to drop the 'f' prefix from substrings that don't
3753 # contain any f-expressions, but ONLY if the original f-string
3754 # contains at least one f-expression. Otherwise, we will alter the AST
3756 drop_pointless_f_prefix = ("f" in prefix) and re.search(
3757 self.RE_FEXPR, LL[string_idx].value, re.VERBOSE
3760 first_string_line = True
3761 starts_with_plus = LL[0].type == token.PLUS
3763 def line_needs_plus() -> bool:
3764 return first_string_line and starts_with_plus
3766 def maybe_append_plus(new_line: Line) -> None:
3769 If @line starts with a plus and this is the first line we are
3770 constructing, this function appends a PLUS leaf to @new_line
3771 and replaces the old PLUS leaf in the node structure. Otherwise
3772 this function does nothing.
3774 if line_needs_plus():
3775 plus_leaf = Leaf(token.PLUS, "+")
3776 replace_child(LL[0], plus_leaf)
3777 new_line.append(plus_leaf)
3780 is_valid_index(string_idx + 1) and LL[string_idx + 1].type == token.COMMA
3783 def max_last_string() -> int:
3786 The max allowed length of the string value used for the last
3787 line we will construct.
3789 result = self.line_length
3790 result -= line.depth * 4
3791 result -= 1 if ends_with_comma else 0
3792 result -= 2 if line_needs_plus() else 0
3795 # --- Calculate Max Break Index (for string value)
3796 # We start with the line length limit
3797 max_break_idx = self.line_length
3798 # The last index of a string of length N is N-1.
3800 # Leading whitespace is not present in the string value (e.g. Leaf.value).
3801 max_break_idx -= line.depth * 4
3802 if max_break_idx < 0:
3804 f"Unable to split {LL[string_idx].value} at such high of a line depth:"
3809 # Check if StringMerger registered any custom splits.
3810 custom_splits = self.pop_custom_splits(LL[string_idx].value)
3811 # We use them ONLY if none of them would produce lines that exceed the
3813 use_custom_breakpoints = bool(
3815 and all(csplit.break_idx <= max_break_idx for csplit in custom_splits)
3818 # Temporary storage for the remaining chunk of the string line that
3819 # can't fit onto the line currently being constructed.
3820 rest_value = LL[string_idx].value
3822 def more_splits_should_be_made() -> bool:
3825 True iff `rest_value` (the remaining string value from the last
3826 split), should be split again.
3828 if use_custom_breakpoints:
3829 return len(custom_splits) > 1
3831 return len(rest_value) > max_last_string()
3833 string_line_results: List[Ok[Line]] = []
3834 while more_splits_should_be_made():
3835 if use_custom_breakpoints:
3836 # Custom User Split (manual)
3837 csplit = custom_splits.pop(0)
3838 break_idx = csplit.break_idx
3840 # Algorithmic Split (automatic)
3841 max_bidx = max_break_idx - 2 if line_needs_plus() else max_break_idx
3842 maybe_break_idx = self.__get_break_idx(rest_value, max_bidx)
3843 if maybe_break_idx is None:
3844 # If we are unable to algorithmically determine a good split
3845 # and this string has custom splits registered to it, we
3846 # fall back to using them--which means we have to start
3847 # over from the beginning.
3849 rest_value = LL[string_idx].value
3850 string_line_results = []
3851 first_string_line = True
3852 use_custom_breakpoints = True
3855 # Otherwise, we stop splitting here.
3858 break_idx = maybe_break_idx
3860 # --- Construct `next_value`
3861 next_value = rest_value[:break_idx] + QUOTE
3863 # Are we allowed to try to drop a pointless 'f' prefix?
3864 drop_pointless_f_prefix
3865 # If we are, will we be successful?
3866 and next_value != self.__normalize_f_string(next_value, prefix)
3868 # If the current custom split did NOT originally use a prefix,
3869 # then `csplit.break_idx` will be off by one after removing
3873 if use_custom_breakpoints and not csplit.has_prefix
3876 next_value = rest_value[:break_idx] + QUOTE
3877 next_value = self.__normalize_f_string(next_value, prefix)
3879 # --- Construct `next_leaf`
3880 next_leaf = Leaf(token.STRING, next_value)
3881 insert_str_child(next_leaf)
3882 self.__maybe_normalize_string_quotes(next_leaf)
3884 # --- Construct `next_line`
3885 next_line = line.clone()
3886 maybe_append_plus(next_line)
3887 next_line.append(next_leaf)
3888 string_line_results.append(Ok(next_line))
3890 rest_value = prefix + QUOTE + rest_value[break_idx:]
3891 first_string_line = False
3893 yield from string_line_results
3895 if drop_pointless_f_prefix:
3896 rest_value = self.__normalize_f_string(rest_value, prefix)
3898 rest_leaf = Leaf(token.STRING, rest_value)
3899 insert_str_child(rest_leaf)
3901 # NOTE: I could not find a test case that verifies that the following
3902 # line is actually necessary, but it seems to be. Otherwise we risk
3903 # not normalizing the last substring, right?
3904 self.__maybe_normalize_string_quotes(rest_leaf)
3906 last_line = line.clone()
3907 maybe_append_plus(last_line)
3909 # If there are any leaves to the right of the target string...
3910 if is_valid_index(string_idx + 1):
3911 # We use `temp_value` here to determine how long the last line
3912 # would be if we were to append all the leaves to the right of the
3913 # target string to the last string line.
3914 temp_value = rest_value
3915 for leaf in LL[string_idx + 1 :]:
3916 temp_value += str(leaf)
3917 if leaf.type == token.LPAR:
3920 # Try to fit them all on the same line with the last substring...
3922 len(temp_value) <= max_last_string()
3923 or LL[string_idx + 1].type == token.COMMA
3925 last_line.append(rest_leaf)
3926 append_leaves(last_line, line, LL[string_idx + 1 :])
3928 # Otherwise, place the last substring on one line and everything
3929 # else on a line below that...
3931 last_line.append(rest_leaf)
3934 non_string_line = line.clone()
3935 append_leaves(non_string_line, line, LL[string_idx + 1 :])
3936 yield Ok(non_string_line)
3937 # Else the target string was the last leaf...
3939 last_line.append(rest_leaf)
3940 last_line.comments = line.comments.copy()
3943 def __get_break_idx(self, string: str, max_break_idx: int) -> Optional[int]:
3945 This method contains the algorithm that StringSplitter uses to
3946 determine which character to split each string at.
3949 @string: The substring that we are attempting to split.
3950 @max_break_idx: The ideal break index. We will return this value if it
3951 meets all the necessary conditions. In the likely event that it
3952 doesn't we will try to find the closest index BELOW @max_break_idx
3953 that does. If that fails, we will expand our search by also
3954 considering all valid indices ABOVE @max_break_idx.
3957 * assert_is_leaf_string(@string)
3958 * 0 <= @max_break_idx < len(@string)
3961 break_idx, if an index is able to be found that meets all of the
3962 conditions listed in the 'Transformations' section of this classes'
3967 is_valid_index = is_valid_index_factory(string)
3969 assert is_valid_index(max_break_idx)
3970 assert_is_leaf_string(string)
3972 _fexpr_slices: Optional[List[Tuple[Index, Index]]] = None
3974 def fexpr_slices() -> Iterator[Tuple[Index, Index]]:
3977 All ranges of @string which, if @string were to be split there,
3978 would result in the splitting of an f-expression (which is NOT
3981 nonlocal _fexpr_slices
3983 if _fexpr_slices is None:
3985 for match in re.finditer(self.RE_FEXPR, string, re.VERBOSE):
3986 _fexpr_slices.append(match.span())
3988 yield from _fexpr_slices
3990 is_fstring = "f" in get_string_prefix(string)
3992 def breaks_fstring_expression(i: Index) -> bool:
3995 True iff returning @i would result in the splitting of an
3996 f-expression (which is NOT allowed).
4001 for (start, end) in fexpr_slices():
4002 if start <= i < end:
4007 def passes_all_checks(i: Index) -> bool:
4010 True iff ALL of the conditions listed in the 'Transformations'
4011 section of this classes' docstring would be be met by returning @i.
4013 is_space = string[i] == " "
4015 is_not_escaped = True
4017 while is_valid_index(j) and string[j] == "\\":
4018 is_not_escaped = not is_not_escaped
4022 len(string[i:]) >= self.MIN_SUBSTR_SIZE
4023 and len(string[:i]) >= self.MIN_SUBSTR_SIZE
4029 and not breaks_fstring_expression(i)
4032 # First, we check all indices BELOW @max_break_idx.
4033 break_idx = max_break_idx
4034 while is_valid_index(break_idx - 1) and not passes_all_checks(break_idx):
4037 if not passes_all_checks(break_idx):
4038 # If that fails, we check all indices ABOVE @max_break_idx.
4040 # If we are able to find a valid index here, the next line is going
4041 # to be longer than the specified line length, but it's probably
4042 # better than doing nothing at all.
4043 break_idx = max_break_idx + 1
4044 while is_valid_index(break_idx + 1) and not passes_all_checks(break_idx):
4047 if not is_valid_index(break_idx) or not passes_all_checks(break_idx):
4052 def __maybe_normalize_string_quotes(self, leaf: Leaf) -> None:
4053 if self.normalize_strings:
4054 normalize_string_quotes(leaf)
4056 def __normalize_f_string(self, string: str, prefix: str) -> str:
4059 * assert_is_leaf_string(@string)
4062 * If @string is an f-string that contains no f-expressions, we
4063 return a string identical to @string except that the 'f' prefix
4064 has been stripped and all double braces (i.e. '{{' or '}}') have
4065 been normalized (i.e. turned into '{' or '}').
4067 * Otherwise, we return @string.
4069 assert_is_leaf_string(string)
4071 if "f" in prefix and not re.search(self.RE_FEXPR, string, re.VERBOSE):
4072 new_prefix = prefix.replace("f", "")
4074 temp = string[len(prefix) :]
4075 temp = re.sub(r"\{\{", "{", temp)
4076 temp = re.sub(r"\}\}", "}", temp)
4079 return f"{new_prefix}{new_string}"
4084 class StringParenWrapper(CustomSplitMapMixin, BaseStringSplitter):
4086 StringTransformer that splits non-"atom" strings (i.e. strings that do not
4087 exist on lines by themselves).
4090 All of the requirements listed in BaseStringSplitter's docstring in
4091 addition to the requirements listed below:
4093 * The line is a return/yield statement, which returns/yields a string.
4095 * The line is part of a ternary expression (e.g. `x = y if cond else
4096 z`) such that the line starts with `else <string>`, where <string> is
4099 * The line is an assert statement, which ends with a string.
4101 * The line is an assignment statement (e.g. `x = <string>` or `x +=
4102 <string>`) such that the variable is being assigned the value of some
4105 * The line is a dictionary key assignment where some valid key is being
4106 assigned the value of some string.
4109 The chosen string is wrapped in parentheses and then split at the LPAR.
4111 We then have one line which ends with an LPAR and another line that
4112 starts with the chosen string. The latter line is then split again at
4113 the RPAR. This results in the RPAR (and possibly a trailing comma)
4114 being placed on its own line.
4116 NOTE: If any leaves exist to the right of the chosen string (except
4117 for a trailing comma, which would be placed after the RPAR), those
4118 leaves are placed inside the parentheses. In effect, the chosen
4119 string is not necessarily being "wrapped" by parentheses. We can,
4120 however, count on the LPAR being placed directly before the chosen
4123 In other words, StringParenWrapper creates "atom" strings. These
4124 can then be split again by StringSplitter, if necessary.
4127 In the event that a string line split by StringParenWrapper is
4128 changed such that it no longer needs to be given its own line,
4129 StringParenWrapper relies on StringParenStripper to clean up the
4130 parentheses it created.
4133 def do_splitter_match(self, line: Line) -> TMatchResult:
4137 self._return_match(LL)
4138 or self._else_match(LL)
4139 or self._assert_match(LL)
4140 or self._assign_match(LL)
4141 or self._dict_match(LL)
4144 if string_idx is not None:
4145 string_value = line.leaves[string_idx].value
4146 # If the string has no spaces...
4147 if " " not in string_value:
4148 # And will still violate the line length limit when split...
4149 max_string_length = self.line_length - ((line.depth + 1) * 4)
4150 if len(string_value) > max_string_length:
4151 # And has no associated custom splits...
4152 if not self.has_custom_splits(string_value):
4153 # Then we should NOT put this string on its own line.
4155 "We do not wrap long strings in parentheses when the"
4156 " resultant line would still be over the specified line"
4157 " length and can't be split further by StringSplitter."
4159 return Ok(string_idx)
4161 return TErr("This line does not contain any non-atomic strings.")
4164 def _return_match(LL: List[Leaf]) -> Optional[int]:
4167 string_idx such that @LL[string_idx] is equal to our target (i.e.
4168 matched) string, if this line matches the return/yield statement
4169 requirements listed in the 'Requirements' section of this classes'
4174 # If this line is apart of a return/yield statement and the first leaf
4175 # contains either the "return" or "yield" keywords...
4176 if parent_type(LL[0]) in [syms.return_stmt, syms.yield_expr] and LL[
4178 ].value in ["return", "yield"]:
4179 is_valid_index = is_valid_index_factory(LL)
4181 idx = 2 if is_valid_index(1) and is_empty_par(LL[1]) else 1
4182 # The next visible leaf MUST contain a string...
4183 if is_valid_index(idx) and LL[idx].type == token.STRING:
4189 def _else_match(LL: List[Leaf]) -> Optional[int]:
4192 string_idx such that @LL[string_idx] is equal to our target (i.e.
4193 matched) string, if this line matches the ternary expression
4194 requirements listed in the 'Requirements' section of this classes'
4199 # If this line is apart of a ternary expression and the first leaf
4200 # contains the "else" keyword...
4202 parent_type(LL[0]) == syms.test
4203 and LL[0].type == token.NAME
4204 and LL[0].value == "else"
4206 is_valid_index = is_valid_index_factory(LL)
4208 idx = 2 if is_valid_index(1) and is_empty_par(LL[1]) else 1
4209 # The next visible leaf MUST contain a string...
4210 if is_valid_index(idx) and LL[idx].type == token.STRING:
4216 def _assert_match(LL: List[Leaf]) -> Optional[int]:
4219 string_idx such that @LL[string_idx] is equal to our target (i.e.
4220 matched) string, if this line matches the assert statement
4221 requirements listed in the 'Requirements' section of this classes'
4226 # If this line is apart of an assert statement and the first leaf
4227 # contains the "assert" keyword...
4228 if parent_type(LL[0]) == syms.assert_stmt and LL[0].value == "assert":
4229 is_valid_index = is_valid_index_factory(LL)
4231 for (i, leaf) in enumerate(LL):
4232 # We MUST find a comma...
4233 if leaf.type == token.COMMA:
4234 idx = i + 2 if is_empty_par(LL[i + 1]) else i + 1
4236 # That comma MUST be followed by a string...
4237 if is_valid_index(idx) and LL[idx].type == token.STRING:
4240 # Skip the string trailer, if one exists.
4241 string_parser = StringParser()
4242 idx = string_parser.parse(LL, string_idx)
4244 # But no more leaves are allowed...
4245 if not is_valid_index(idx):
4251 def _assign_match(LL: List[Leaf]) -> Optional[int]:
4254 string_idx such that @LL[string_idx] is equal to our target (i.e.
4255 matched) string, if this line matches the assignment statement
4256 requirements listed in the 'Requirements' section of this classes'
4261 # If this line is apart of an expression statement or is a function
4262 # argument AND the first leaf contains a variable name...
4264 parent_type(LL[0]) in [syms.expr_stmt, syms.argument, syms.power]
4265 and LL[0].type == token.NAME
4267 is_valid_index = is_valid_index_factory(LL)
4269 for (i, leaf) in enumerate(LL):
4270 # We MUST find either an '=' or '+=' symbol...
4271 if leaf.type in [token.EQUAL, token.PLUSEQUAL]:
4272 idx = i + 2 if is_empty_par(LL[i + 1]) else i + 1
4274 # That symbol MUST be followed by a string...
4275 if is_valid_index(idx) and LL[idx].type == token.STRING:
4278 # Skip the string trailer, if one exists.
4279 string_parser = StringParser()
4280 idx = string_parser.parse(LL, string_idx)
4282 # The next leaf MAY be a comma iff this line is apart
4283 # of a function argument...
4285 parent_type(LL[0]) == syms.argument
4286 and is_valid_index(idx)
4287 and LL[idx].type == token.COMMA
4291 # But no more leaves are allowed...
4292 if not is_valid_index(idx):
4298 def _dict_match(LL: List[Leaf]) -> Optional[int]:
4301 string_idx such that @LL[string_idx] is equal to our target (i.e.
4302 matched) string, if this line matches the dictionary key assignment
4303 statement requirements listed in the 'Requirements' section of this
4308 # If this line is apart of a dictionary key assignment...
4309 if syms.dictsetmaker in [parent_type(LL[0]), parent_type(LL[0].parent)]:
4310 is_valid_index = is_valid_index_factory(LL)
4312 for (i, leaf) in enumerate(LL):
4313 # We MUST find a colon...
4314 if leaf.type == token.COLON:
4315 idx = i + 2 if is_empty_par(LL[i + 1]) else i + 1
4317 # That colon MUST be followed by a string...
4318 if is_valid_index(idx) and LL[idx].type == token.STRING:
4321 # Skip the string trailer, if one exists.
4322 string_parser = StringParser()
4323 idx = string_parser.parse(LL, string_idx)
4325 # That string MAY be followed by a comma...
4326 if is_valid_index(idx) and LL[idx].type == token.COMMA:
4329 # But no more leaves are allowed...
4330 if not is_valid_index(idx):
4335 def do_transform(self, line: Line, string_idx: int) -> Iterator[TResult[Line]]:
4338 is_valid_index = is_valid_index_factory(LL)
4339 insert_str_child = insert_str_child_factory(LL[string_idx])
4342 ends_with_comma = False
4343 if LL[comma_idx].type == token.COMMA:
4344 ends_with_comma = True
4346 leaves_to_steal_comments_from = [LL[string_idx]]
4348 leaves_to_steal_comments_from.append(LL[comma_idx])
4351 first_line = line.clone()
4352 left_leaves = LL[:string_idx]
4354 # We have to remember to account for (possibly invisible) LPAR and RPAR
4355 # leaves that already wrapped the target string. If these leaves do
4356 # exist, we will replace them with our own LPAR and RPAR leaves.
4357 old_parens_exist = False
4358 if left_leaves and left_leaves[-1].type == token.LPAR:
4359 old_parens_exist = True
4360 leaves_to_steal_comments_from.append(left_leaves[-1])
4363 append_leaves(first_line, line, left_leaves)
4365 lpar_leaf = Leaf(token.LPAR, "(")
4366 if old_parens_exist:
4367 replace_child(LL[string_idx - 1], lpar_leaf)
4369 insert_str_child(lpar_leaf)
4370 first_line.append(lpar_leaf)
4372 # We throw inline comments that were originally to the right of the
4373 # target string to the top line. They will now be shown to the right of
4375 for leaf in leaves_to_steal_comments_from:
4376 for comment_leaf in line.comments_after(leaf):
4377 first_line.append(comment_leaf, preformatted=True)
4379 yield Ok(first_line)
4381 # --- Middle (String) Line
4382 # We only need to yield one (possibly too long) string line, since the
4383 # `StringSplitter` will break it down further if necessary.
4384 string_value = LL[string_idx].value
4387 depth=line.depth + 1,
4388 inside_brackets=True,
4389 should_split=line.should_split,
4390 magic_trailing_comma=line.magic_trailing_comma,
4392 string_leaf = Leaf(token.STRING, string_value)
4393 insert_str_child(string_leaf)
4394 string_line.append(string_leaf)
4396 old_rpar_leaf = None
4397 if is_valid_index(string_idx + 1):
4398 right_leaves = LL[string_idx + 1 :]
4402 if old_parens_exist:
4404 right_leaves and right_leaves[-1].type == token.RPAR
4405 ), "Apparently, old parentheses do NOT exist?!"
4406 old_rpar_leaf = right_leaves.pop()
4408 append_leaves(string_line, line, right_leaves)
4410 yield Ok(string_line)
4413 last_line = line.clone()
4414 last_line.bracket_tracker = first_line.bracket_tracker
4416 new_rpar_leaf = Leaf(token.RPAR, ")")
4417 if old_rpar_leaf is not None:
4418 replace_child(old_rpar_leaf, new_rpar_leaf)
4420 insert_str_child(new_rpar_leaf)
4421 last_line.append(new_rpar_leaf)
4423 # If the target string ended with a comma, we place this comma to the
4424 # right of the RPAR on the last line.
4426 comma_leaf = Leaf(token.COMMA, ",")
4427 replace_child(LL[comma_idx], comma_leaf)
4428 last_line.append(comma_leaf)
4435 A state machine that aids in parsing a string's "trailer", which can be
4436 either non-existent, an old-style formatting sequence (e.g. `% varX` or `%
4437 (varX, varY)`), or a method-call / attribute access (e.g. `.format(varX,
4440 NOTE: A new StringParser object MUST be instantiated for each string
4441 trailer we need to parse.
4444 We shall assume that `line` equals the `Line` object that corresponds
4445 to the following line of python code:
4447 x = "Some {}.".format("String") + some_other_string
4450 Furthermore, we will assume that `string_idx` is some index such that:
4452 assert line.leaves[string_idx].value == "Some {}."
4455 The following code snippet then holds:
4457 string_parser = StringParser()
4458 idx = string_parser.parse(line.leaves, string_idx)
4459 assert line.leaves[idx].type == token.PLUS
4465 # String Parser States
4475 # Lookup Table for Next State
4476 _goto: Dict[Tuple[ParserState, NodeType], ParserState] = {
4477 # A string trailer may start with '.' OR '%'.
4478 (START, token.DOT): DOT,
4479 (START, token.PERCENT): PERCENT,
4480 (START, DEFAULT_TOKEN): DONE,
4481 # A '.' MUST be followed by an attribute or method name.
4482 (DOT, token.NAME): NAME,
4483 # A method name MUST be followed by an '(', whereas an attribute name
4484 # is the last symbol in the string trailer.
4485 (NAME, token.LPAR): LPAR,
4486 (NAME, DEFAULT_TOKEN): DONE,
4487 # A '%' symbol can be followed by an '(' or a single argument (e.g. a
4488 # string or variable name).
4489 (PERCENT, token.LPAR): LPAR,
4490 (PERCENT, DEFAULT_TOKEN): SINGLE_FMT_ARG,
4491 # If a '%' symbol is followed by a single argument, that argument is
4492 # the last leaf in the string trailer.
4493 (SINGLE_FMT_ARG, DEFAULT_TOKEN): DONE,
4494 # If present, a ')' symbol is the last symbol in a string trailer.
4495 # (NOTE: LPARS and nested RPARS are not included in this lookup table,
4496 # since they are treated as a special case by the parsing logic in this
4497 # classes' implementation.)
4498 (RPAR, DEFAULT_TOKEN): DONE,
4501 def __init__(self) -> None:
4502 self._state = self.START
4503 self._unmatched_lpars = 0
4505 def parse(self, leaves: List[Leaf], string_idx: int) -> int:
4508 * @leaves[@string_idx].type == token.STRING
4511 The index directly after the last leaf which is apart of the string
4512 trailer, if a "trailer" exists.
4514 @string_idx + 1, if no string "trailer" exists.
4516 assert leaves[string_idx].type == token.STRING
4518 idx = string_idx + 1
4519 while idx < len(leaves) and self._next_state(leaves[idx]):
4523 def _next_state(self, leaf: Leaf) -> bool:
4526 * On the first call to this function, @leaf MUST be the leaf that
4527 was directly after the string leaf in question (e.g. if our target
4528 string is `line.leaves[i]` then the first call to this method must
4529 be `line.leaves[i + 1]`).
4530 * On the next call to this function, the leaf parameter passed in
4531 MUST be the leaf directly following @leaf.
4534 True iff @leaf is apart of the string's trailer.
4536 # We ignore empty LPAR or RPAR leaves.
4537 if is_empty_par(leaf):
4540 next_token = leaf.type
4541 if next_token == token.LPAR:
4542 self._unmatched_lpars += 1
4544 current_state = self._state
4546 # The LPAR parser state is a special case. We will return True until we
4547 # find the matching RPAR token.
4548 if current_state == self.LPAR:
4549 if next_token == token.RPAR:
4550 self._unmatched_lpars -= 1
4551 if self._unmatched_lpars == 0:
4552 self._state = self.RPAR
4553 # Otherwise, we use a lookup table to determine the next state.
4555 # If the lookup table matches the current state to the next
4556 # token, we use the lookup table.
4557 if (current_state, next_token) in self._goto:
4558 self._state = self._goto[current_state, next_token]
4560 # Otherwise, we check if a the current state was assigned a
4562 if (current_state, self.DEFAULT_TOKEN) in self._goto:
4563 self._state = self._goto[current_state, self.DEFAULT_TOKEN]
4564 # If no default has been assigned, then this parser has a logic
4567 raise RuntimeError(f"{self.__class__.__name__} LOGIC ERROR!")
4569 if self._state == self.DONE:
4575 def TErr(err_msg: str) -> Err[CannotTransform]:
4578 Convenience function used when working with the TResult type.
4580 cant_transform = CannotTransform(err_msg)
4581 return Err(cant_transform)
4584 def contains_pragma_comment(comment_list: List[Leaf]) -> bool:
4587 True iff one of the comments in @comment_list is a pragma used by one
4588 of the more common static analysis tools for python (e.g. mypy, flake8,
4591 for comment in comment_list:
4592 if comment.value.startswith(("# type:", "# noqa", "# pylint:")):
4598 def insert_str_child_factory(string_leaf: Leaf) -> Callable[[LN], None]:
4600 Factory for a convenience function that is used to orphan @string_leaf
4601 and then insert multiple new leaves into the same part of the node
4602 structure that @string_leaf had originally occupied.
4605 Let `string_leaf = Leaf(token.STRING, '"foo"')` and `N =
4606 string_leaf.parent`. Assume the node `N` has the following
4613 Leaf(STRING, '"foo"'),
4617 We then run the code snippet shown below.
4619 insert_str_child = insert_str_child_factory(string_leaf)
4621 lpar = Leaf(token.LPAR, '(')
4622 insert_str_child(lpar)
4624 bar = Leaf(token.STRING, '"bar"')
4625 insert_str_child(bar)
4627 rpar = Leaf(token.RPAR, ')')
4628 insert_str_child(rpar)
4631 After which point, it follows that `string_leaf.parent is None` and
4632 the node `N` now has the following structure:
4639 Leaf(STRING, '"bar"'),
4644 string_parent = string_leaf.parent
4645 string_child_idx = string_leaf.remove()
4647 def insert_str_child(child: LN) -> None:
4648 nonlocal string_child_idx
4650 assert string_parent is not None
4651 assert string_child_idx is not None
4653 string_parent.insert_child(string_child_idx, child)
4654 string_child_idx += 1
4656 return insert_str_child
4659 def has_triple_quotes(string: str) -> bool:
4662 True iff @string starts with three quotation characters.
4664 raw_string = string.lstrip(STRING_PREFIX_CHARS)
4665 return raw_string[:3] in {'"""', "'''"}
4668 def parent_type(node: Optional[LN]) -> Optional[NodeType]:
4671 @node.parent.type, if @node is not None and has a parent.
4675 if node is None or node.parent is None:
4678 return node.parent.type
4681 def is_empty_par(leaf: Leaf) -> bool:
4682 return is_empty_lpar(leaf) or is_empty_rpar(leaf)
4685 def is_empty_lpar(leaf: Leaf) -> bool:
4686 return leaf.type == token.LPAR and leaf.value == ""
4689 def is_empty_rpar(leaf: Leaf) -> bool:
4690 return leaf.type == token.RPAR and leaf.value == ""
4693 def is_valid_index_factory(seq: Sequence[Any]) -> Callable[[int], bool]:
4699 is_valid_index = is_valid_index_factory(my_list)
4701 assert is_valid_index(0)
4702 assert is_valid_index(2)
4704 assert not is_valid_index(3)
4705 assert not is_valid_index(-1)
4709 def is_valid_index(idx: int) -> bool:
4712 True iff @idx is positive AND seq[@idx] does NOT raise an
4715 return 0 <= idx < len(seq)
4717 return is_valid_index
4720 def line_to_string(line: Line) -> str:
4721 """Returns the string representation of @line.
4723 WARNING: This is known to be computationally expensive.
4725 return str(line).strip("\n")
4729 new_line: Line, old_line: Line, leaves: List[Leaf], preformatted: bool = False
4732 Append leaves (taken from @old_line) to @new_line, making sure to fix the
4733 underlying Node structure where appropriate.
4735 All of the leaves in @leaves are duplicated. The duplicates are then
4736 appended to @new_line and used to replace their originals in the underlying
4737 Node structure. Any comments attached to the old leaves are reattached to
4741 set(@leaves) is a subset of set(@old_line.leaves).
4743 for old_leaf in leaves:
4744 new_leaf = Leaf(old_leaf.type, old_leaf.value)
4745 replace_child(old_leaf, new_leaf)
4746 new_line.append(new_leaf, preformatted=preformatted)
4748 for comment_leaf in old_line.comments_after(old_leaf):
4749 new_line.append(comment_leaf, preformatted=True)
4752 def replace_child(old_child: LN, new_child: LN) -> None:
4755 * If @old_child.parent is set, replace @old_child with @new_child in
4756 @old_child's underlying Node structure.
4758 * Otherwise, this function does nothing.
4760 parent = old_child.parent
4764 child_idx = old_child.remove()
4765 if child_idx is not None:
4766 parent.insert_child(child_idx, new_child)
4769 def get_string_prefix(string: str) -> str:
4772 * assert_is_leaf_string(@string)
4775 @string's prefix (e.g. '', 'r', 'f', or 'rf').
4777 assert_is_leaf_string(string)
4781 while string[prefix_idx] in STRING_PREFIX_CHARS:
4782 prefix += string[prefix_idx].lower()
4788 def assert_is_leaf_string(string: str) -> None:
4790 Checks the pre-condition that @string has the format that you would expect
4791 of `leaf.value` where `leaf` is some Leaf such that `leaf.type ==
4792 token.STRING`. A more precise description of the pre-conditions that are
4793 checked are listed below.
4796 * @string starts with either ', ", <prefix>', or <prefix>" where
4797 `set(<prefix>)` is some subset of `set(STRING_PREFIX_CHARS)`.
4798 * @string ends with a quote character (' or ").
4801 AssertionError(...) if the pre-conditions listed above are not
4804 dquote_idx = string.find('"')
4805 squote_idx = string.find("'")
4806 if -1 in [dquote_idx, squote_idx]:
4807 quote_idx = max(dquote_idx, squote_idx)
4809 quote_idx = min(squote_idx, dquote_idx)
4812 0 <= quote_idx < len(string) - 1
4813 ), f"{string!r} is missing a starting quote character (' or \")."
4814 assert string[-1] in (
4817 ), f"{string!r} is missing an ending quote character (' or \")."
4818 assert set(string[:quote_idx]).issubset(
4819 set(STRING_PREFIX_CHARS)
4820 ), f"{set(string[:quote_idx])} is NOT a subset of {set(STRING_PREFIX_CHARS)}."
4823 def left_hand_split(line: Line, _features: Collection[Feature] = ()) -> Iterator[Line]:
4824 """Split line into many lines, starting with the first matching bracket pair.
4826 Note: this usually looks weird, only use this for function definitions.
4827 Prefer RHS otherwise. This is why this function is not symmetrical with
4828 :func:`right_hand_split` which also handles optional parentheses.
4830 tail_leaves: List[Leaf] = []
4831 body_leaves: List[Leaf] = []
4832 head_leaves: List[Leaf] = []
4833 current_leaves = head_leaves
4834 matching_bracket: Optional[Leaf] = None
4835 for leaf in line.leaves:
4837 current_leaves is body_leaves
4838 and leaf.type in CLOSING_BRACKETS
4839 and leaf.opening_bracket is matching_bracket
4841 current_leaves = tail_leaves if body_leaves else head_leaves
4842 current_leaves.append(leaf)
4843 if current_leaves is head_leaves:
4844 if leaf.type in OPENING_BRACKETS:
4845 matching_bracket = leaf
4846 current_leaves = body_leaves
4847 if not matching_bracket:
4848 raise CannotSplit("No brackets found")
4850 head = bracket_split_build_line(head_leaves, line, matching_bracket)
4851 body = bracket_split_build_line(body_leaves, line, matching_bracket, is_body=True)
4852 tail = bracket_split_build_line(tail_leaves, line, matching_bracket)
4853 bracket_split_succeeded_or_raise(head, body, tail)
4854 for result in (head, body, tail):
4859 def right_hand_split(
4862 features: Collection[Feature] = (),
4863 omit: Collection[LeafID] = (),
4864 ) -> Iterator[Line]:
4865 """Split line into many lines, starting with the last matching bracket pair.
4867 If the split was by optional parentheses, attempt splitting without them, too.
4868 `omit` is a collection of closing bracket IDs that shouldn't be considered for
4871 Note: running this function modifies `bracket_depth` on the leaves of `line`.
4873 tail_leaves: List[Leaf] = []
4874 body_leaves: List[Leaf] = []
4875 head_leaves: List[Leaf] = []
4876 current_leaves = tail_leaves
4877 opening_bracket: Optional[Leaf] = None
4878 closing_bracket: Optional[Leaf] = None
4879 for leaf in reversed(line.leaves):
4880 if current_leaves is body_leaves:
4881 if leaf is opening_bracket:
4882 current_leaves = head_leaves if body_leaves else tail_leaves
4883 current_leaves.append(leaf)
4884 if current_leaves is tail_leaves:
4885 if leaf.type in CLOSING_BRACKETS and id(leaf) not in omit:
4886 opening_bracket = leaf.opening_bracket
4887 closing_bracket = leaf
4888 current_leaves = body_leaves
4889 if not (opening_bracket and closing_bracket and head_leaves):
4890 # If there is no opening or closing_bracket that means the split failed and
4891 # all content is in the tail. Otherwise, if `head_leaves` are empty, it means
4892 # the matching `opening_bracket` wasn't available on `line` anymore.
4893 raise CannotSplit("No brackets found")
4895 tail_leaves.reverse()
4896 body_leaves.reverse()
4897 head_leaves.reverse()
4898 head = bracket_split_build_line(head_leaves, line, opening_bracket)
4899 body = bracket_split_build_line(body_leaves, line, opening_bracket, is_body=True)
4900 tail = bracket_split_build_line(tail_leaves, line, opening_bracket)
4901 bracket_split_succeeded_or_raise(head, body, tail)
4903 Feature.FORCE_OPTIONAL_PARENTHESES not in features
4904 # the opening bracket is an optional paren
4905 and opening_bracket.type == token.LPAR
4906 and not opening_bracket.value
4907 # the closing bracket is an optional paren
4908 and closing_bracket.type == token.RPAR
4909 and not closing_bracket.value
4910 # it's not an import (optional parens are the only thing we can split on
4911 # in this case; attempting a split without them is a waste of time)
4912 and not line.is_import
4913 # there are no standalone comments in the body
4914 and not body.contains_standalone_comments(0)
4915 # and we can actually remove the parens
4916 and can_omit_invisible_parens(body, line_length, omit_on_explode=omit)
4918 omit = {id(closing_bracket), *omit}
4920 yield from right_hand_split(line, line_length, features=features, omit=omit)
4926 or is_line_short_enough(body, line_length=line_length)
4929 "Splitting failed, body is still too long and can't be split."
4932 elif head.contains_multiline_strings() or tail.contains_multiline_strings():
4934 "The current optional pair of parentheses is bound to fail to"
4935 " satisfy the splitting algorithm because the head or the tail"
4936 " contains multiline strings which by definition never fit one"
4940 ensure_visible(opening_bracket)
4941 ensure_visible(closing_bracket)
4942 for result in (head, body, tail):
4947 def bracket_split_succeeded_or_raise(head: Line, body: Line, tail: Line) -> None:
4948 """Raise :exc:`CannotSplit` if the last left- or right-hand split failed.
4950 Do nothing otherwise.
4952 A left- or right-hand split is based on a pair of brackets. Content before
4953 (and including) the opening bracket is left on one line, content inside the
4954 brackets is put on a separate line, and finally content starting with and
4955 following the closing bracket is put on a separate line.
4957 Those are called `head`, `body`, and `tail`, respectively. If the split
4958 produced the same line (all content in `head`) or ended up with an empty `body`
4959 and the `tail` is just the closing bracket, then it's considered failed.
4961 tail_len = len(str(tail).strip())
4964 raise CannotSplit("Splitting brackets produced the same line")
4968 f"Splitting brackets on an empty body to save {tail_len} characters is"
4973 def bracket_split_build_line(
4974 leaves: List[Leaf], original: Line, opening_bracket: Leaf, *, is_body: bool = False
4976 """Return a new line with given `leaves` and respective comments from `original`.
4978 If `is_body` is True, the result line is one-indented inside brackets and as such
4979 has its first leaf's prefix normalized and a trailing comma added when expected.
4981 result = Line(mode=original.mode, depth=original.depth)
4983 result.inside_brackets = True
4986 # Since body is a new indent level, remove spurious leading whitespace.
4987 normalize_prefix(leaves[0], inside_brackets=True)
4988 # Ensure a trailing comma for imports and standalone function arguments, but
4989 # be careful not to add one after any comments or within type annotations.
4992 and opening_bracket.value == "("
4993 and not any(leaf.type == token.COMMA for leaf in leaves)
4996 if original.is_import or no_commas:
4997 for i in range(len(leaves) - 1, -1, -1):
4998 if leaves[i].type == STANDALONE_COMMENT:
5001 if leaves[i].type != token.COMMA:
5002 new_comma = Leaf(token.COMMA, ",")
5003 leaves.insert(i + 1, new_comma)
5008 result.append(leaf, preformatted=True)
5009 for comment_after in original.comments_after(leaf):
5010 result.append(comment_after, preformatted=True)
5011 if is_body and should_split_line(result, opening_bracket):
5012 result.should_split = True
5016 def dont_increase_indentation(split_func: Transformer) -> Transformer:
5017 """Normalize prefix of the first leaf in every line returned by `split_func`.
5019 This is a decorator over relevant split functions.
5023 def split_wrapper(line: Line, features: Collection[Feature] = ()) -> Iterator[Line]:
5024 for line in split_func(line, features):
5025 normalize_prefix(line.leaves[0], inside_brackets=True)
5028 return split_wrapper
5031 @dont_increase_indentation
5032 def delimiter_split(line: Line, features: Collection[Feature] = ()) -> Iterator[Line]:
5033 """Split according to delimiters of the highest priority.
5035 If the appropriate Features are given, the split will add trailing commas
5036 also in function signatures and calls that contain `*` and `**`.
5039 last_leaf = line.leaves[-1]
5041 raise CannotSplit("Line empty")
5043 bt = line.bracket_tracker
5045 delimiter_priority = bt.max_delimiter_priority(exclude={id(last_leaf)})
5047 raise CannotSplit("No delimiters found")
5049 if delimiter_priority == DOT_PRIORITY:
5050 if bt.delimiter_count_with_priority(delimiter_priority) == 1:
5051 raise CannotSplit("Splitting a single attribute from its owner looks wrong")
5053 current_line = Line(
5054 mode=line.mode, depth=line.depth, inside_brackets=line.inside_brackets
5056 lowest_depth = sys.maxsize
5057 trailing_comma_safe = True
5059 def append_to_line(leaf: Leaf) -> Iterator[Line]:
5060 """Append `leaf` to current line or to new line if appending impossible."""
5061 nonlocal current_line
5063 current_line.append_safe(leaf, preformatted=True)
5067 current_line = Line(
5068 mode=line.mode, depth=line.depth, inside_brackets=line.inside_brackets
5070 current_line.append(leaf)
5072 for leaf in line.leaves:
5073 yield from append_to_line(leaf)
5075 for comment_after in line.comments_after(leaf):
5076 yield from append_to_line(comment_after)
5078 lowest_depth = min(lowest_depth, leaf.bracket_depth)
5079 if leaf.bracket_depth == lowest_depth:
5080 if is_vararg(leaf, within={syms.typedargslist}):
5081 trailing_comma_safe = (
5082 trailing_comma_safe and Feature.TRAILING_COMMA_IN_DEF in features
5084 elif is_vararg(leaf, within={syms.arglist, syms.argument}):
5085 trailing_comma_safe = (
5086 trailing_comma_safe and Feature.TRAILING_COMMA_IN_CALL in features
5089 leaf_priority = bt.delimiters.get(id(leaf))
5090 if leaf_priority == delimiter_priority:
5093 current_line = Line(
5094 mode=line.mode, depth=line.depth, inside_brackets=line.inside_brackets
5099 and delimiter_priority == COMMA_PRIORITY
5100 and current_line.leaves[-1].type != token.COMMA
5101 and current_line.leaves[-1].type != STANDALONE_COMMENT
5103 new_comma = Leaf(token.COMMA, ",")
5104 current_line.append(new_comma)
5108 @dont_increase_indentation
5109 def standalone_comment_split(
5110 line: Line, features: Collection[Feature] = ()
5111 ) -> Iterator[Line]:
5112 """Split standalone comments from the rest of the line."""
5113 if not line.contains_standalone_comments(0):
5114 raise CannotSplit("Line does not have any standalone comments")
5116 current_line = Line(
5117 mode=line.mode, depth=line.depth, inside_brackets=line.inside_brackets
5120 def append_to_line(leaf: Leaf) -> Iterator[Line]:
5121 """Append `leaf` to current line or to new line if appending impossible."""
5122 nonlocal current_line
5124 current_line.append_safe(leaf, preformatted=True)
5128 current_line = Line(
5129 line.mode, depth=line.depth, inside_brackets=line.inside_brackets
5131 current_line.append(leaf)
5133 for leaf in line.leaves:
5134 yield from append_to_line(leaf)
5136 for comment_after in line.comments_after(leaf):
5137 yield from append_to_line(comment_after)
5143 def is_import(leaf: Leaf) -> bool:
5144 """Return True if the given leaf starts an import statement."""
5151 (v == "import" and p and p.type == syms.import_name)
5152 or (v == "from" and p and p.type == syms.import_from)
5157 def is_type_comment(leaf: Leaf, suffix: str = "") -> bool:
5158 """Return True if the given leaf is a special comment.
5159 Only returns true for type comments for now."""
5162 return t in {token.COMMENT, STANDALONE_COMMENT} and v.startswith("# type:" + suffix)
5165 def normalize_prefix(leaf: Leaf, *, inside_brackets: bool) -> None:
5166 """Leave existing extra newlines if not `inside_brackets`. Remove everything
5169 Note: don't use backslashes for formatting or you'll lose your voting rights.
5171 if not inside_brackets:
5172 spl = leaf.prefix.split("#")
5173 if "\\" not in spl[0]:
5174 nl_count = spl[-1].count("\n")
5177 leaf.prefix = "\n" * nl_count
5183 def normalize_string_prefix(leaf: Leaf, remove_u_prefix: bool = False) -> None:
5184 """Make all string prefixes lowercase.
5186 If remove_u_prefix is given, also removes any u prefix from the string.
5188 Note: Mutates its argument.
5190 match = re.match(r"^([" + STRING_PREFIX_CHARS + r"]*)(.*)$", leaf.value, re.DOTALL)
5191 assert match is not None, f"failed to match string {leaf.value!r}"
5192 orig_prefix = match.group(1)
5193 new_prefix = orig_prefix.replace("F", "f").replace("B", "b").replace("U", "u")
5195 new_prefix = new_prefix.replace("u", "")
5196 leaf.value = f"{new_prefix}{match.group(2)}"
5199 def normalize_string_quotes(leaf: Leaf) -> None:
5200 """Prefer double quotes but only if it doesn't cause more escaping.
5202 Adds or removes backslashes as appropriate. Doesn't parse and fix
5203 strings nested in f-strings (yet).
5205 Note: Mutates its argument.
5207 value = leaf.value.lstrip(STRING_PREFIX_CHARS)
5208 if value[:3] == '"""':
5211 elif value[:3] == "'''":
5214 elif value[0] == '"':
5220 first_quote_pos = leaf.value.find(orig_quote)
5221 if first_quote_pos == -1:
5222 return # There's an internal error
5224 prefix = leaf.value[:first_quote_pos]
5225 unescaped_new_quote = re.compile(rf"(([^\\]|^)(\\\\)*){new_quote}")
5226 escaped_new_quote = re.compile(rf"([^\\]|^)\\((?:\\\\)*){new_quote}")
5227 escaped_orig_quote = re.compile(rf"([^\\]|^)\\((?:\\\\)*){orig_quote}")
5228 body = leaf.value[first_quote_pos + len(orig_quote) : -len(orig_quote)]
5229 if "r" in prefix.casefold():
5230 if unescaped_new_quote.search(body):
5231 # There's at least one unescaped new_quote in this raw string
5232 # so converting is impossible
5235 # Do not introduce or remove backslashes in raw strings
5238 # remove unnecessary escapes
5239 new_body = sub_twice(escaped_new_quote, rf"\1\2{new_quote}", body)
5240 if body != new_body:
5241 # Consider the string without unnecessary escapes as the original
5243 leaf.value = f"{prefix}{orig_quote}{body}{orig_quote}"
5244 new_body = sub_twice(escaped_orig_quote, rf"\1\2{orig_quote}", new_body)
5245 new_body = sub_twice(unescaped_new_quote, rf"\1\\{new_quote}", new_body)
5246 if "f" in prefix.casefold():
5247 matches = re.findall(
5249 (?:[^{]|^)\{ # start of the string or a non-{ followed by a single {
5250 ([^{].*?) # contents of the brackets except if begins with {{
5251 \}(?:[^}]|$) # A } followed by end of the string or a non-}
5258 # Do not introduce backslashes in interpolated expressions
5261 if new_quote == '"""' and new_body[-1:] == '"':
5263 new_body = new_body[:-1] + '\\"'
5264 orig_escape_count = body.count("\\")
5265 new_escape_count = new_body.count("\\")
5266 if new_escape_count > orig_escape_count:
5267 return # Do not introduce more escaping
5269 if new_escape_count == orig_escape_count and orig_quote == '"':
5270 return # Prefer double quotes
5272 leaf.value = f"{prefix}{new_quote}{new_body}{new_quote}"
5275 def normalize_numeric_literal(leaf: Leaf) -> None:
5276 """Normalizes numeric (float, int, and complex) literals.
5278 All letters used in the representation are normalized to lowercase (except
5279 in Python 2 long literals).
5281 text = leaf.value.lower()
5282 if text.startswith(("0o", "0b")):
5283 # Leave octal and binary literals alone.
5285 elif text.startswith("0x"):
5286 text = format_hex(text)
5288 text = format_scientific_notation(text)
5289 elif text.endswith(("j", "l")):
5290 text = format_long_or_complex_number(text)
5292 text = format_float_or_int_string(text)
5296 def format_hex(text: str) -> str:
5298 Formats a hexadecimal string like "0x12b3"
5300 Uses lowercase because of similarity between "B" and "8", which
5301 can cause security issues.
5302 see: https://github.com/psf/black/issues/1692
5305 before, after = text[:2], text[2:]
5306 return f"{before}{after.lower()}"
5309 def format_scientific_notation(text: str) -> str:
5310 """Formats a numeric string utilizing scentific notation"""
5311 before, after = text.split("e")
5313 if after.startswith("-"):
5316 elif after.startswith("+"):
5318 before = format_float_or_int_string(before)
5319 return f"{before}e{sign}{after}"
5322 def format_long_or_complex_number(text: str) -> str:
5323 """Formats a long or complex string like `10L` or `10j`"""
5326 # Capitalize in "2L" because "l" looks too similar to "1".
5329 return f"{format_float_or_int_string(number)}{suffix}"
5332 def format_float_or_int_string(text: str) -> str:
5333 """Formats a float string like "1.0"."""
5337 before, after = text.split(".")
5338 return f"{before or 0}.{after or 0}"
5341 def normalize_invisible_parens(node: Node, parens_after: Set[str]) -> None:
5342 """Make existing optional parentheses invisible or create new ones.
5344 `parens_after` is a set of string leaf values immediately after which parens
5347 Standardizes on visible parentheses for single-element tuples, and keeps
5348 existing visible parentheses for other tuples and generator expressions.
5350 for pc in list_comments(node.prefix, is_endmarker=False):
5351 if pc.value in FMT_OFF:
5352 # This `node` has a prefix with `# fmt: off`, don't mess with parens.
5355 for index, child in enumerate(list(node.children)):
5356 # Fixes a bug where invisible parens are not properly stripped from
5357 # assignment statements that contain type annotations.
5358 if isinstance(child, Node) and child.type == syms.annassign:
5359 normalize_invisible_parens(child, parens_after=parens_after)
5361 # Add parentheses around long tuple unpacking in assignments.
5364 and isinstance(child, Node)
5365 and child.type == syms.testlist_star_expr
5370 if is_walrus_assignment(child):
5373 elif child.type == syms.atom:
5374 if maybe_make_parens_invisible_in_atom(child, parent=node):
5375 wrap_in_parentheses(node, child, visible=False)
5376 elif is_one_tuple(child):
5377 wrap_in_parentheses(node, child, visible=True)
5378 elif node.type == syms.import_from:
5379 # "import from" nodes store parentheses directly as part of
5381 if child.type == token.LPAR:
5382 # make parentheses invisible
5383 child.value = "" # type: ignore
5384 node.children[-1].value = "" # type: ignore
5385 elif child.type != token.STAR:
5386 # insert invisible parentheses
5387 node.insert_child(index, Leaf(token.LPAR, ""))
5388 node.append_child(Leaf(token.RPAR, ""))
5391 elif not (isinstance(child, Leaf) and is_multiline_string(child)):
5392 wrap_in_parentheses(node, child, visible=False)
5394 check_lpar = isinstance(child, Leaf) and child.value in parens_after
5397 def normalize_fmt_off(node: Node) -> None:
5398 """Convert content between `# fmt: off`/`# fmt: on` into standalone comments."""
5401 try_again = convert_one_fmt_off_pair(node)
5404 def convert_one_fmt_off_pair(node: Node) -> bool:
5405 """Convert content of a single `# fmt: off`/`# fmt: on` into a standalone comment.
5407 Returns True if a pair was converted.
5409 for leaf in node.leaves():
5410 previous_consumed = 0
5411 for comment in list_comments(leaf.prefix, is_endmarker=False):
5412 if comment.value not in FMT_PASS:
5413 previous_consumed = comment.consumed
5415 # We only want standalone comments. If there's no previous leaf or
5416 # the previous leaf is indentation, it's a standalone comment in
5418 if comment.value in FMT_PASS and comment.type != STANDALONE_COMMENT:
5419 prev = preceding_leaf(leaf)
5421 if comment.value in FMT_OFF and prev.type not in WHITESPACE:
5423 if comment.value in FMT_SKIP and prev.type in WHITESPACE:
5426 ignored_nodes = list(generate_ignored_nodes(leaf, comment))
5427 if not ignored_nodes:
5430 first = ignored_nodes[0] # Can be a container node with the `leaf`.
5431 parent = first.parent
5432 prefix = first.prefix
5433 first.prefix = prefix[comment.consumed :]
5434 hidden_value = "".join(str(n) for n in ignored_nodes)
5435 if comment.value in FMT_OFF:
5436 hidden_value = comment.value + "\n" + hidden_value
5437 if comment.value in FMT_SKIP:
5438 hidden_value += " " + comment.value
5439 if hidden_value.endswith("\n"):
5440 # That happens when one of the `ignored_nodes` ended with a NEWLINE
5441 # leaf (possibly followed by a DEDENT).
5442 hidden_value = hidden_value[:-1]
5443 first_idx: Optional[int] = None
5444 for ignored in ignored_nodes:
5445 index = ignored.remove()
5446 if first_idx is None:
5448 assert parent is not None, "INTERNAL ERROR: fmt: on/off handling (1)"
5449 assert first_idx is not None, "INTERNAL ERROR: fmt: on/off handling (2)"
5450 parent.insert_child(
5455 prefix=prefix[:previous_consumed] + "\n" * comment.newlines,
5463 def generate_ignored_nodes(leaf: Leaf, comment: ProtoComment) -> Iterator[LN]:
5464 """Starting from the container of `leaf`, generate all leaves until `# fmt: on`.
5466 If comment is skip, returns leaf only.
5467 Stops at the end of the block.
5469 container: Optional[LN] = container_of(leaf)
5470 if comment.value in FMT_SKIP:
5471 prev_sibling = leaf.prev_sibling
5472 if comment.value in leaf.prefix and prev_sibling is not None:
5473 leaf.prefix = leaf.prefix.replace(comment.value, "")
5474 siblings = [prev_sibling]
5476 "\n" not in prev_sibling.prefix
5477 and prev_sibling.prev_sibling is not None
5479 prev_sibling = prev_sibling.prev_sibling
5480 siblings.insert(0, prev_sibling)
5481 for sibling in siblings:
5483 elif leaf.parent is not None:
5486 while container is not None and container.type != token.ENDMARKER:
5487 if is_fmt_on(container):
5490 # fix for fmt: on in children
5491 if contains_fmt_on_at_column(container, leaf.column):
5492 for child in container.children:
5493 if contains_fmt_on_at_column(child, leaf.column):
5498 container = container.next_sibling
5501 def is_fmt_on(container: LN) -> bool:
5502 """Determine whether formatting is switched on within a container.
5503 Determined by whether the last `# fmt:` comment is `on` or `off`.
5506 for comment in list_comments(container.prefix, is_endmarker=False):
5507 if comment.value in FMT_ON:
5509 elif comment.value in FMT_OFF:
5514 def contains_fmt_on_at_column(container: LN, column: int) -> bool:
5515 """Determine if children at a given column have formatting switched on."""
5516 for child in container.children:
5518 isinstance(child, Node)
5519 and first_leaf_column(child) == column
5520 or isinstance(child, Leaf)
5521 and child.column == column
5523 if is_fmt_on(child):
5529 def first_leaf_column(node: Node) -> Optional[int]:
5530 """Returns the column of the first leaf child of a node."""
5531 for child in node.children:
5532 if isinstance(child, Leaf):
5537 def maybe_make_parens_invisible_in_atom(node: LN, parent: LN) -> bool:
5538 """If it's safe, make the parens in the atom `node` invisible, recursively.
5539 Additionally, remove repeated, adjacent invisible parens from the atom `node`
5540 as they are redundant.
5542 Returns whether the node should itself be wrapped in invisible parentheses.
5546 node.type != syms.atom
5547 or is_empty_tuple(node)
5548 or is_one_tuple(node)
5549 or (is_yield(node) and parent.type != syms.expr_stmt)
5550 or max_delimiter_priority_in_atom(node) >= COMMA_PRIORITY
5554 first = node.children[0]
5555 last = node.children[-1]
5556 if first.type == token.LPAR and last.type == token.RPAR:
5557 middle = node.children[1]
5558 # make parentheses invisible
5559 first.value = "" # type: ignore
5560 last.value = "" # type: ignore
5561 maybe_make_parens_invisible_in_atom(middle, parent=parent)
5563 if is_atom_with_invisible_parens(middle):
5564 # Strip the invisible parens from `middle` by replacing
5565 # it with the child in-between the invisible parens
5566 middle.replace(middle.children[1])
5573 def is_atom_with_invisible_parens(node: LN) -> bool:
5574 """Given a `LN`, determines whether it's an atom `node` with invisible
5575 parens. Useful in dedupe-ing and normalizing parens.
5577 if isinstance(node, Leaf) or node.type != syms.atom:
5580 first, last = node.children[0], node.children[-1]
5582 isinstance(first, Leaf)
5583 and first.type == token.LPAR
5584 and first.value == ""
5585 and isinstance(last, Leaf)
5586 and last.type == token.RPAR
5587 and last.value == ""
5591 def is_empty_tuple(node: LN) -> bool:
5592 """Return True if `node` holds an empty tuple."""
5594 node.type == syms.atom
5595 and len(node.children) == 2
5596 and node.children[0].type == token.LPAR
5597 and node.children[1].type == token.RPAR
5601 def unwrap_singleton_parenthesis(node: LN) -> Optional[LN]:
5602 """Returns `wrapped` if `node` is of the shape ( wrapped ).
5604 Parenthesis can be optional. Returns None otherwise"""
5605 if len(node.children) != 3:
5608 lpar, wrapped, rpar = node.children
5609 if not (lpar.type == token.LPAR and rpar.type == token.RPAR):
5615 def wrap_in_parentheses(parent: Node, child: LN, *, visible: bool = True) -> None:
5616 """Wrap `child` in parentheses.
5618 This replaces `child` with an atom holding the parentheses and the old
5619 child. That requires moving the prefix.
5621 If `visible` is False, the leaves will be valueless (and thus invisible).
5623 lpar = Leaf(token.LPAR, "(" if visible else "")
5624 rpar = Leaf(token.RPAR, ")" if visible else "")
5625 prefix = child.prefix
5627 index = child.remove() or 0
5628 new_child = Node(syms.atom, [lpar, child, rpar])
5629 new_child.prefix = prefix
5630 parent.insert_child(index, new_child)
5633 def is_one_tuple(node: LN) -> bool:
5634 """Return True if `node` holds a tuple with one element, with or without parens."""
5635 if node.type == syms.atom:
5636 gexp = unwrap_singleton_parenthesis(node)
5637 if gexp is None or gexp.type != syms.testlist_gexp:
5640 return len(gexp.children) == 2 and gexp.children[1].type == token.COMMA
5643 node.type in IMPLICIT_TUPLE
5644 and len(node.children) == 2
5645 and node.children[1].type == token.COMMA
5649 def is_walrus_assignment(node: LN) -> bool:
5650 """Return True iff `node` is of the shape ( test := test )"""
5651 inner = unwrap_singleton_parenthesis(node)
5652 return inner is not None and inner.type == syms.namedexpr_test
5655 def is_simple_decorator_trailer(node: LN, last: bool = False) -> bool:
5656 """Return True iff `node` is a trailer valid in a simple decorator"""
5657 return node.type == syms.trailer and (
5659 len(node.children) == 2
5660 and node.children[0].type == token.DOT
5661 and node.children[1].type == token.NAME
5663 # last trailer can be arguments
5666 and len(node.children) == 3
5667 and node.children[0].type == token.LPAR
5668 # and node.children[1].type == syms.argument
5669 and node.children[2].type == token.RPAR
5674 def is_simple_decorator_expression(node: LN) -> bool:
5675 """Return True iff `node` could be a 'dotted name' decorator
5677 This function takes the node of the 'namedexpr_test' of the new decorator
5678 grammar and test if it would be valid under the old decorator grammar.
5680 The old grammar was: decorator: @ dotted_name [arguments] NEWLINE
5681 The new grammar is : decorator: @ namedexpr_test NEWLINE
5683 if node.type == token.NAME:
5685 if node.type == syms.power:
5688 node.children[0].type == token.NAME
5689 and all(map(is_simple_decorator_trailer, node.children[1:-1]))
5691 len(node.children) < 2
5692 or is_simple_decorator_trailer(node.children[-1], last=True)
5698 def is_yield(node: LN) -> bool:
5699 """Return True if `node` holds a `yield` or `yield from` expression."""
5700 if node.type == syms.yield_expr:
5703 if node.type == token.NAME and node.value == "yield": # type: ignore
5706 if node.type != syms.atom:
5709 if len(node.children) != 3:
5712 lpar, expr, rpar = node.children
5713 if lpar.type == token.LPAR and rpar.type == token.RPAR:
5714 return is_yield(expr)
5719 def is_vararg(leaf: Leaf, within: Set[NodeType]) -> bool:
5720 """Return True if `leaf` is a star or double star in a vararg or kwarg.
5722 If `within` includes VARARGS_PARENTS, this applies to function signatures.
5723 If `within` includes UNPACKING_PARENTS, it applies to right hand-side
5724 extended iterable unpacking (PEP 3132) and additional unpacking
5725 generalizations (PEP 448).
5727 if leaf.type not in VARARGS_SPECIALS or not leaf.parent:
5731 if p.type == syms.star_expr:
5732 # Star expressions are also used as assignment targets in extended
5733 # iterable unpacking (PEP 3132). See what its parent is instead.
5739 return p.type in within
5742 def is_multiline_string(leaf: Leaf) -> bool:
5743 """Return True if `leaf` is a multiline string that actually spans many lines."""
5744 return has_triple_quotes(leaf.value) and "\n" in leaf.value
5747 def is_stub_suite(node: Node) -> bool:
5748 """Return True if `node` is a suite with a stub body."""
5750 len(node.children) != 4
5751 or node.children[0].type != token.NEWLINE
5752 or node.children[1].type != token.INDENT
5753 or node.children[3].type != token.DEDENT
5757 return is_stub_body(node.children[2])
5760 def is_stub_body(node: LN) -> bool:
5761 """Return True if `node` is a simple statement containing an ellipsis."""
5762 if not isinstance(node, Node) or node.type != syms.simple_stmt:
5765 if len(node.children) != 2:
5768 child = node.children[0]
5770 child.type == syms.atom
5771 and len(child.children) == 3
5772 and all(leaf == Leaf(token.DOT, ".") for leaf in child.children)
5776 def max_delimiter_priority_in_atom(node: LN) -> Priority:
5777 """Return maximum delimiter priority inside `node`.
5779 This is specific to atoms with contents contained in a pair of parentheses.
5780 If `node` isn't an atom or there are no enclosing parentheses, returns 0.
5782 if node.type != syms.atom:
5785 first = node.children[0]
5786 last = node.children[-1]
5787 if not (first.type == token.LPAR and last.type == token.RPAR):
5790 bt = BracketTracker()
5791 for c in node.children[1:-1]:
5792 if isinstance(c, Leaf):
5795 for leaf in c.leaves():
5798 return bt.max_delimiter_priority()
5804 def ensure_visible(leaf: Leaf) -> None:
5805 """Make sure parentheses are visible.
5807 They could be invisible as part of some statements (see
5808 :func:`normalize_invisible_parens` and :func:`visit_import_from`).
5810 if leaf.type == token.LPAR:
5812 elif leaf.type == token.RPAR:
5816 def should_split_line(line: Line, opening_bracket: Leaf) -> bool:
5817 """Should `line` be immediately split with `delimiter_split()` after RHS?"""
5819 if not (opening_bracket.parent and opening_bracket.value in "[{("):
5822 # We're essentially checking if the body is delimited by commas and there's more
5823 # than one of them (we're excluding the trailing comma and if the delimiter priority
5824 # is still commas, that means there's more).
5826 trailing_comma = False
5828 last_leaf = line.leaves[-1]
5829 if last_leaf.type == token.COMMA:
5830 trailing_comma = True
5831 exclude.add(id(last_leaf))
5832 max_priority = line.bracket_tracker.max_delimiter_priority(exclude=exclude)
5833 except (IndexError, ValueError):
5836 return max_priority == COMMA_PRIORITY and (
5837 (line.mode.magic_trailing_comma and trailing_comma)
5838 # always explode imports
5839 or opening_bracket.parent.type in {syms.atom, syms.import_from}
5843 def is_one_tuple_between(opening: Leaf, closing: Leaf, leaves: List[Leaf]) -> bool:
5844 """Return True if content between `opening` and `closing` looks like a one-tuple."""
5845 if opening.type != token.LPAR and closing.type != token.RPAR:
5848 depth = closing.bracket_depth + 1
5849 for _opening_index, leaf in enumerate(leaves):
5854 raise LookupError("Opening paren not found in `leaves`")
5858 for leaf in leaves[_opening_index:]:
5862 bracket_depth = leaf.bracket_depth
5863 if bracket_depth == depth and leaf.type == token.COMMA:
5865 if leaf.parent and leaf.parent.type in {
5875 def get_features_used(node: Node) -> Set[Feature]:
5876 """Return a set of (relatively) new Python features used in this file.
5878 Currently looking for:
5880 - underscores in numeric literals;
5881 - trailing commas after * or ** in function signatures and calls;
5882 - positional only arguments in function signatures and lambdas;
5883 - assignment expression;
5884 - relaxed decorator syntax;
5886 features: Set[Feature] = set()
5887 for n in node.pre_order():
5888 if n.type == token.STRING:
5889 value_head = n.value[:2] # type: ignore
5890 if value_head in {'f"', 'F"', "f'", "F'", "rf", "fr", "RF", "FR"}:
5891 features.add(Feature.F_STRINGS)
5893 elif n.type == token.NUMBER:
5894 if "_" in n.value: # type: ignore
5895 features.add(Feature.NUMERIC_UNDERSCORES)
5897 elif n.type == token.SLASH:
5898 if n.parent and n.parent.type in {syms.typedargslist, syms.arglist}:
5899 features.add(Feature.POS_ONLY_ARGUMENTS)
5901 elif n.type == token.COLONEQUAL:
5902 features.add(Feature.ASSIGNMENT_EXPRESSIONS)
5904 elif n.type == syms.decorator:
5905 if len(n.children) > 1 and not is_simple_decorator_expression(
5908 features.add(Feature.RELAXED_DECORATORS)
5911 n.type in {syms.typedargslist, syms.arglist}
5913 and n.children[-1].type == token.COMMA
5915 if n.type == syms.typedargslist:
5916 feature = Feature.TRAILING_COMMA_IN_DEF
5918 feature = Feature.TRAILING_COMMA_IN_CALL
5920 for ch in n.children:
5921 if ch.type in STARS:
5922 features.add(feature)
5924 if ch.type == syms.argument:
5925 for argch in ch.children:
5926 if argch.type in STARS:
5927 features.add(feature)
5932 def detect_target_versions(node: Node) -> Set[TargetVersion]:
5933 """Detect the version to target based on the nodes used."""
5934 features = get_features_used(node)
5936 version for version in TargetVersion if features <= VERSION_TO_FEATURES[version]
5940 def generate_trailers_to_omit(line: Line, line_length: int) -> Iterator[Set[LeafID]]:
5941 """Generate sets of closing bracket IDs that should be omitted in a RHS.
5943 Brackets can be omitted if the entire trailer up to and including
5944 a preceding closing bracket fits in one line.
5946 Yielded sets are cumulative (contain results of previous yields, too). First
5947 set is empty, unless the line should explode, in which case bracket pairs until
5948 the one that needs to explode are omitted.
5951 omit: Set[LeafID] = set()
5952 if not line.should_split and not line.magic_trailing_comma:
5955 length = 4 * line.depth
5956 opening_bracket: Optional[Leaf] = None
5957 closing_bracket: Optional[Leaf] = None
5958 inner_brackets: Set[LeafID] = set()
5959 for index, leaf, leaf_length in enumerate_with_length(line, reversed=True):
5960 length += leaf_length
5961 if length > line_length:
5964 has_inline_comment = leaf_length > len(leaf.value) + len(leaf.prefix)
5965 if leaf.type == STANDALONE_COMMENT or has_inline_comment:
5969 if leaf is opening_bracket:
5970 opening_bracket = None
5971 elif leaf.type in CLOSING_BRACKETS:
5972 prev = line.leaves[index - 1] if index > 0 else None
5974 line.magic_trailing_comma
5976 and prev.type == token.COMMA
5977 and not is_one_tuple_between(
5978 leaf.opening_bracket, leaf, line.leaves
5981 # Never omit bracket pairs with trailing commas.
5982 # We need to explode on those.
5985 inner_brackets.add(id(leaf))
5986 elif leaf.type in CLOSING_BRACKETS:
5987 prev = line.leaves[index - 1] if index > 0 else None
5988 if prev and prev.type in OPENING_BRACKETS:
5989 # Empty brackets would fail a split so treat them as "inner"
5990 # brackets (e.g. only add them to the `omit` set if another
5991 # pair of brackets was good enough.
5992 inner_brackets.add(id(leaf))
5996 omit.add(id(closing_bracket))
5997 omit.update(inner_brackets)
5998 inner_brackets.clear()
6002 line.magic_trailing_comma
6004 and prev.type == token.COMMA
6005 and not is_one_tuple_between(leaf.opening_bracket, leaf, line.leaves)
6007 # Never omit bracket pairs with trailing commas.
6008 # We need to explode on those.
6012 opening_bracket = leaf.opening_bracket
6013 closing_bracket = leaf
6016 def get_future_imports(node: Node) -> Set[str]:
6017 """Return a set of __future__ imports in the file."""
6018 imports: Set[str] = set()
6020 def get_imports_from_children(children: List[LN]) -> Generator[str, None, None]:
6021 for child in children:
6022 if isinstance(child, Leaf):
6023 if child.type == token.NAME:
6026 elif child.type == syms.import_as_name:
6027 orig_name = child.children[0]
6028 assert isinstance(orig_name, Leaf), "Invalid syntax parsing imports"
6029 assert orig_name.type == token.NAME, "Invalid syntax parsing imports"
6030 yield orig_name.value
6032 elif child.type == syms.import_as_names:
6033 yield from get_imports_from_children(child.children)
6036 raise AssertionError("Invalid syntax parsing imports")
6038 for child in node.children:
6039 if child.type != syms.simple_stmt:
6042 first_child = child.children[0]
6043 if isinstance(first_child, Leaf):
6044 # Continue looking if we see a docstring; otherwise stop.
6046 len(child.children) == 2
6047 and first_child.type == token.STRING
6048 and child.children[1].type == token.NEWLINE
6054 elif first_child.type == syms.import_from:
6055 module_name = first_child.children[1]
6056 if not isinstance(module_name, Leaf) or module_name.value != "__future__":
6059 imports |= set(get_imports_from_children(first_child.children[3:]))
6067 def get_gitignore(root: Path) -> PathSpec:
6068 """ Return a PathSpec matching gitignore content if present."""
6069 gitignore = root / ".gitignore"
6070 lines: List[str] = []
6071 if gitignore.is_file():
6072 with gitignore.open() as gf:
6073 lines = gf.readlines()
6074 return PathSpec.from_lines("gitwildmatch", lines)
6077 def normalize_path_maybe_ignore(
6078 path: Path, root: Path, report: "Report"
6080 """Normalize `path`. May return `None` if `path` was ignored.
6082 `report` is where "path ignored" output goes.
6085 abspath = path if path.is_absolute() else Path.cwd() / path
6086 normalized_path = abspath.resolve().relative_to(root).as_posix()
6087 except OSError as e:
6088 report.path_ignored(path, f"cannot be read because {e}")
6092 if path.is_symlink():
6093 report.path_ignored(path, f"is a symbolic link that points outside {root}")
6098 return normalized_path
6101 def gen_python_files(
6102 paths: Iterable[Path],
6104 include: Optional[Pattern[str]],
6105 exclude: Pattern[str],
6106 force_exclude: Optional[Pattern[str]],
6108 gitignore: PathSpec,
6109 ) -> Iterator[Path]:
6110 """Generate all files under `path` whose paths are not excluded by the
6111 `exclude_regex` or `force_exclude` regexes, but are included by the `include` regex.
6113 Symbolic links pointing outside of the `root` directory are ignored.
6115 `report` is where output about exclusions goes.
6117 assert root.is_absolute(), f"INTERNAL ERROR: `root` must be absolute but is {root}"
6119 normalized_path = normalize_path_maybe_ignore(child, root, report)
6120 if normalized_path is None:
6123 # First ignore files matching .gitignore
6124 if gitignore.match_file(normalized_path):
6125 report.path_ignored(child, "matches the .gitignore file content")
6128 # Then ignore with `--exclude` and `--force-exclude` options.
6129 normalized_path = "/" + normalized_path
6131 normalized_path += "/"
6133 exclude_match = exclude.search(normalized_path) if exclude else None
6134 if exclude_match and exclude_match.group(0):
6135 report.path_ignored(child, "matches the --exclude regular expression")
6138 force_exclude_match = (
6139 force_exclude.search(normalized_path) if force_exclude else None
6141 if force_exclude_match and force_exclude_match.group(0):
6142 report.path_ignored(child, "matches the --force-exclude regular expression")
6146 yield from gen_python_files(
6156 elif child.is_file():
6157 include_match = include.search(normalized_path) if include else True
6163 def find_project_root(srcs: Iterable[str]) -> Path:
6164 """Return a directory containing .git, .hg, or pyproject.toml.
6166 That directory will be a common parent of all files and directories
6169 If no directory in the tree contains a marker that would specify it's the
6170 project root, the root of the file system is returned.
6173 return Path("/").resolve()
6175 path_srcs = [Path(Path.cwd(), src).resolve() for src in srcs]
6177 # A list of lists of parents for each 'src'. 'src' is included as a
6178 # "parent" of itself if it is a directory
6180 list(path.parents) + ([path] if path.is_dir() else []) for path in path_srcs
6184 set.intersection(*(set(parents) for parents in src_parents)),
6185 key=lambda path: path.parts,
6188 for directory in (common_base, *common_base.parents):
6189 if (directory / ".git").exists():
6192 if (directory / ".hg").is_dir():
6195 if (directory / "pyproject.toml").is_file():
6203 """Provides a reformatting counter. Can be rendered with `str(report)`."""
6208 verbose: bool = False
6209 change_count: int = 0
6211 failure_count: int = 0
6213 def done(self, src: Path, changed: Changed) -> None:
6214 """Increment the counter for successful reformatting. Write out a message."""
6215 if changed is Changed.YES:
6216 reformatted = "would reformat" if self.check or self.diff else "reformatted"
6217 if self.verbose or not self.quiet:
6218 out(f"{reformatted} {src}")
6219 self.change_count += 1
6222 if changed is Changed.NO:
6223 msg = f"{src} already well formatted, good job."
6225 msg = f"{src} wasn't modified on disk since last run."
6226 out(msg, bold=False)
6227 self.same_count += 1
6229 def failed(self, src: Path, message: str) -> None:
6230 """Increment the counter for failed reformatting. Write out a message."""
6231 err(f"error: cannot format {src}: {message}")
6232 self.failure_count += 1
6234 def path_ignored(self, path: Path, message: str) -> None:
6236 out(f"{path} ignored: {message}", bold=False)
6239 def return_code(self) -> int:
6240 """Return the exit code that the app should use.
6242 This considers the current state of changed files and failures:
6243 - if there were any failures, return 123;
6244 - if any files were changed and --check is being used, return 1;
6245 - otherwise return 0.
6247 # According to http://tldp.org/LDP/abs/html/exitcodes.html starting with
6248 # 126 we have special return codes reserved by the shell.
6249 if self.failure_count:
6252 elif self.change_count and self.check:
6257 def __str__(self) -> str:
6258 """Render a color report of the current state.
6260 Use `click.unstyle` to remove colors.
6262 if self.check or self.diff:
6263 reformatted = "would be reformatted"
6264 unchanged = "would be left unchanged"
6265 failed = "would fail to reformat"
6267 reformatted = "reformatted"
6268 unchanged = "left unchanged"
6269 failed = "failed to reformat"
6271 if self.change_count:
6272 s = "s" if self.change_count > 1 else ""
6274 click.style(f"{self.change_count} file{s} {reformatted}", bold=True)
6277 s = "s" if self.same_count > 1 else ""
6278 report.append(f"{self.same_count} file{s} {unchanged}")
6279 if self.failure_count:
6280 s = "s" if self.failure_count > 1 else ""
6282 click.style(f"{self.failure_count} file{s} {failed}", fg="red")
6284 return ", ".join(report) + "."
6287 def parse_ast(src: str) -> Union[ast.AST, ast3.AST, ast27.AST]:
6288 filename = "<unknown>"
6289 if sys.version_info >= (3, 8):
6290 # TODO: support Python 4+ ;)
6291 for minor_version in range(sys.version_info[1], 4, -1):
6293 return ast.parse(src, filename, feature_version=(3, minor_version))
6297 for feature_version in (7, 6):
6299 return ast3.parse(src, filename, feature_version=feature_version)
6303 return ast27.parse(src)
6306 def _fixup_ast_constants(
6307 node: Union[ast.AST, ast3.AST, ast27.AST]
6308 ) -> Union[ast.AST, ast3.AST, ast27.AST]:
6309 """Map ast nodes deprecated in 3.8 to Constant."""
6310 if isinstance(node, (ast.Str, ast3.Str, ast27.Str, ast.Bytes, ast3.Bytes)):
6311 return ast.Constant(value=node.s)
6313 if isinstance(node, (ast.Num, ast3.Num, ast27.Num)):
6314 return ast.Constant(value=node.n)
6316 if isinstance(node, (ast.NameConstant, ast3.NameConstant)):
6317 return ast.Constant(value=node.value)
6323 node: Union[ast.AST, ast3.AST, ast27.AST], depth: int = 0
6325 """Simple visitor generating strings to compare ASTs by content."""
6327 node = _fixup_ast_constants(node)
6329 yield f"{' ' * depth}{node.__class__.__name__}("
6331 for field in sorted(node._fields): # noqa: F402
6332 # TypeIgnore has only one field 'lineno' which breaks this comparison
6333 type_ignore_classes = (ast3.TypeIgnore, ast27.TypeIgnore)
6334 if sys.version_info >= (3, 8):
6335 type_ignore_classes += (ast.TypeIgnore,)
6336 if isinstance(node, type_ignore_classes):
6340 value = getattr(node, field)
6341 except AttributeError:
6344 yield f"{' ' * (depth+1)}{field}="
6346 if isinstance(value, list):
6348 # Ignore nested tuples within del statements, because we may insert
6349 # parentheses and they change the AST.
6352 and isinstance(node, (ast.Delete, ast3.Delete, ast27.Delete))
6353 and isinstance(item, (ast.Tuple, ast3.Tuple, ast27.Tuple))
6355 for item in item.elts:
6356 yield from _stringify_ast(item, depth + 2)
6358 elif isinstance(item, (ast.AST, ast3.AST, ast27.AST)):
6359 yield from _stringify_ast(item, depth + 2)
6361 elif isinstance(value, (ast.AST, ast3.AST, ast27.AST)):
6362 yield from _stringify_ast(value, depth + 2)
6365 # Constant strings may be indented across newlines, if they are
6366 # docstrings; fold spaces after newlines when comparing. Similarly,
6367 # trailing and leading space may be removed.
6369 isinstance(node, ast.Constant)
6370 and field == "value"
6371 and isinstance(value, str)
6373 normalized = re.sub(r" *\n[ \t]*", "\n", value).strip()
6376 yield f"{' ' * (depth+2)}{normalized!r}, # {value.__class__.__name__}"
6378 yield f"{' ' * depth}) # /{node.__class__.__name__}"
6381 def assert_equivalent(src: str, dst: str) -> None:
6382 """Raise AssertionError if `src` and `dst` aren't equivalent."""
6384 src_ast = parse_ast(src)
6385 except Exception as exc:
6386 raise AssertionError(
6387 "cannot use --safe with this file; failed to parse source file. AST"
6388 f" error message: {exc}"
6392 dst_ast = parse_ast(dst)
6393 except Exception as exc:
6394 log = dump_to_file("".join(traceback.format_tb(exc.__traceback__)), dst)
6395 raise AssertionError(
6396 f"INTERNAL ERROR: Black produced invalid code: {exc}. Please report a bug"
6397 " on https://github.com/psf/black/issues. This invalid output might be"
6401 src_ast_str = "\n".join(_stringify_ast(src_ast))
6402 dst_ast_str = "\n".join(_stringify_ast(dst_ast))
6403 if src_ast_str != dst_ast_str:
6404 log = dump_to_file(diff(src_ast_str, dst_ast_str, "src", "dst"))
6405 raise AssertionError(
6406 "INTERNAL ERROR: Black produced code that is not equivalent to the"
6407 " source. Please report a bug on https://github.com/psf/black/issues. "
6408 f" This diff might be helpful: {log}"
6412 def assert_stable(src: str, dst: str, mode: Mode) -> None:
6413 """Raise AssertionError if `dst` reformats differently the second time."""
6414 newdst = format_str(dst, mode=mode)
6418 diff(src, dst, "source", "first pass"),
6419 diff(dst, newdst, "first pass", "second pass"),
6421 raise AssertionError(
6422 "INTERNAL ERROR: Black produced different code on the second pass of the"
6423 " formatter. Please report a bug on https://github.com/psf/black/issues."
6424 f" This diff might be helpful: {log}"
6428 @mypyc_attr(patchable=True)
6429 def dump_to_file(*output: str) -> str:
6430 """Dump `output` to a temporary file. Return path to the file."""
6431 with tempfile.NamedTemporaryFile(
6432 mode="w", prefix="blk_", suffix=".log", delete=False, encoding="utf8"
6434 for lines in output:
6436 if lines and lines[-1] != "\n":
6442 def nullcontext() -> Iterator[None]:
6443 """Return an empty context manager.
6445 To be used like `nullcontext` in Python 3.7.
6450 def diff(a: str, b: str, a_name: str, b_name: str) -> str:
6451 """Return a unified diff string between strings `a` and `b`."""
6454 a_lines = [line + "\n" for line in a.splitlines()]
6455 b_lines = [line + "\n" for line in b.splitlines()]
6457 difflib.unified_diff(a_lines, b_lines, fromfile=a_name, tofile=b_name, n=5)
6461 def cancel(tasks: Iterable["asyncio.Task[Any]"]) -> None:
6462 """asyncio signal handler that cancels all `tasks` and reports to stderr."""
6468 def shutdown(loop: asyncio.AbstractEventLoop) -> None:
6469 """Cancel all pending tasks on `loop`, wait for them, and close the loop."""
6471 if sys.version_info[:2] >= (3, 7):
6472 all_tasks = asyncio.all_tasks
6474 all_tasks = asyncio.Task.all_tasks
6475 # This part is borrowed from asyncio/runners.py in Python 3.7b2.
6476 to_cancel = [task for task in all_tasks(loop) if not task.done()]
6480 for task in to_cancel:
6482 loop.run_until_complete(
6483 asyncio.gather(*to_cancel, loop=loop, return_exceptions=True)
6486 # `concurrent.futures.Future` objects cannot be cancelled once they
6487 # are already running. There might be some when the `shutdown()` happened.
6488 # Silence their logger's spew about the event loop being closed.
6489 cf_logger = logging.getLogger("concurrent.futures")
6490 cf_logger.setLevel(logging.CRITICAL)
6494 def sub_twice(regex: Pattern[str], replacement: str, original: str) -> str:
6495 """Replace `regex` with `replacement` twice on `original`.
6497 This is used by string normalization to perform replaces on
6498 overlapping matches.
6500 return regex.sub(replacement, regex.sub(replacement, original))
6503 def re_compile_maybe_verbose(regex: str) -> Pattern[str]:
6504 """Compile a regular expression string in `regex`.
6506 If it contains newlines, use verbose mode.
6509 regex = "(?x)" + regex
6510 compiled: Pattern[str] = re.compile(regex)
6514 def enumerate_reversed(sequence: Sequence[T]) -> Iterator[Tuple[Index, T]]:
6515 """Like `reversed(enumerate(sequence))` if that were possible."""
6516 index = len(sequence) - 1
6517 for element in reversed(sequence):
6518 yield (index, element)
6522 def enumerate_with_length(
6523 line: Line, reversed: bool = False
6524 ) -> Iterator[Tuple[Index, Leaf, int]]:
6525 """Return an enumeration of leaves with their length.
6527 Stops prematurely on multiline strings and standalone comments.
6530 Callable[[Sequence[Leaf]], Iterator[Tuple[Index, Leaf]]],
6531 enumerate_reversed if reversed else enumerate,
6533 for index, leaf in op(line.leaves):
6534 length = len(leaf.prefix) + len(leaf.value)
6535 if "\n" in leaf.value:
6536 return # Multiline strings, we can't continue.
6538 for comment in line.comments_after(leaf):
6539 length += len(comment.value)
6541 yield index, leaf, length
6544 def is_line_short_enough(line: Line, *, line_length: int, line_str: str = "") -> bool:
6545 """Return True if `line` is no longer than `line_length`.
6547 Uses the provided `line_str` rendering, if any, otherwise computes a new one.
6550 line_str = line_to_string(line)
6552 len(line_str) <= line_length
6553 and "\n" not in line_str # multiline strings
6554 and not line.contains_standalone_comments()
6558 def can_be_split(line: Line) -> bool:
6559 """Return False if the line cannot be split *for sure*.
6561 This is not an exhaustive search but a cheap heuristic that we can use to
6562 avoid some unfortunate formattings (mostly around wrapping unsplittable code
6563 in unnecessary parentheses).
6565 leaves = line.leaves
6569 if leaves[0].type == token.STRING and leaves[1].type == token.DOT:
6573 for leaf in leaves[-2::-1]:
6574 if leaf.type in OPENING_BRACKETS:
6575 if next.type not in CLOSING_BRACKETS:
6579 elif leaf.type == token.DOT:
6581 elif leaf.type == token.NAME:
6582 if not (next.type == token.DOT or next.type in OPENING_BRACKETS):
6585 elif leaf.type not in CLOSING_BRACKETS:
6588 if dot_count > 1 and call_count > 1:
6594 def can_omit_invisible_parens(
6597 omit_on_explode: Collection[LeafID] = (),
6599 """Does `line` have a shape safe to reformat without optional parens around it?
6601 Returns True for only a subset of potentially nice looking formattings but
6602 the point is to not return false positives that end up producing lines that
6605 bt = line.bracket_tracker
6606 if not bt.delimiters:
6607 # Without delimiters the optional parentheses are useless.
6610 max_priority = bt.max_delimiter_priority()
6611 if bt.delimiter_count_with_priority(max_priority) > 1:
6612 # With more than one delimiter of a kind the optional parentheses read better.
6615 if max_priority == DOT_PRIORITY:
6616 # A single stranded method call doesn't require optional parentheses.
6619 assert len(line.leaves) >= 2, "Stranded delimiter"
6621 # With a single delimiter, omit if the expression starts or ends with
6623 first = line.leaves[0]
6624 second = line.leaves[1]
6625 if first.type in OPENING_BRACKETS and second.type not in CLOSING_BRACKETS:
6626 if _can_omit_opening_paren(line, first=first, line_length=line_length):
6629 # Note: we are not returning False here because a line might have *both*
6630 # a leading opening bracket and a trailing closing bracket. If the
6631 # opening bracket doesn't match our rule, maybe the closing will.
6633 penultimate = line.leaves[-2]
6634 last = line.leaves[-1]
6635 if line.should_split or line.magic_trailing_comma:
6637 penultimate, last = last_two_except(line.leaves, omit=omit_on_explode)
6639 # Turns out we'd omit everything. We cannot skip the optional parentheses.
6643 last.type == token.RPAR
6644 or last.type == token.RBRACE
6646 # don't use indexing for omitting optional parentheses;
6648 last.type == token.RSQB
6650 and last.parent.type != syms.trailer
6653 if penultimate.type in OPENING_BRACKETS:
6654 # Empty brackets don't help.
6657 if is_multiline_string(first):
6658 # Additional wrapping of a multiline string in this situation is
6662 if line.magic_trailing_comma and penultimate.type == token.COMMA:
6663 # The rightmost non-omitted bracket pair is the one we want to explode on.
6666 if _can_omit_closing_paren(line, last=last, line_length=line_length):
6672 def _can_omit_opening_paren(line: Line, *, first: Leaf, line_length: int) -> bool:
6673 """See `can_omit_invisible_parens`."""
6675 length = 4 * line.depth
6677 for _index, leaf, leaf_length in enumerate_with_length(line):
6678 if leaf.type in CLOSING_BRACKETS and leaf.opening_bracket is first:
6681 length += leaf_length
6682 if length > line_length:
6685 if leaf.type in OPENING_BRACKETS:
6686 # There are brackets we can further split on.
6690 # checked the entire string and line length wasn't exceeded
6691 if len(line.leaves) == _index + 1:
6697 def _can_omit_closing_paren(line: Line, *, last: Leaf, line_length: int) -> bool:
6698 """See `can_omit_invisible_parens`."""
6699 length = 4 * line.depth
6700 seen_other_brackets = False
6701 for _index, leaf, leaf_length in enumerate_with_length(line):
6702 length += leaf_length
6703 if leaf is last.opening_bracket:
6704 if seen_other_brackets or length <= line_length:
6707 elif leaf.type in OPENING_BRACKETS:
6708 # There are brackets we can further split on.
6709 seen_other_brackets = True
6714 def last_two_except(leaves: List[Leaf], omit: Collection[LeafID]) -> Tuple[Leaf, Leaf]:
6715 """Return (penultimate, last) leaves skipping brackets in `omit` and contents."""
6718 for leaf in reversed(leaves):
6720 if leaf is stop_after:
6727 if id(leaf) in omit:
6728 stop_after = leaf.opening_bracket
6732 raise LookupError("Last two leaves were also skipped")
6735 def run_transformer(
6737 transform: Transformer,
6739 features: Collection[Feature],
6744 line_str = line_to_string(line)
6745 result: List[Line] = []
6746 for transformed_line in transform(line, features):
6747 if str(transformed_line).strip("\n") == line_str:
6748 raise CannotTransform("Line transformer returned an unchanged result")
6750 result.extend(transform_line(transformed_line, mode=mode, features=features))
6753 transform.__name__ == "rhs"
6754 and line.bracket_tracker.invisible
6755 and not any(bracket.value for bracket in line.bracket_tracker.invisible)
6756 and not line.contains_multiline_strings()
6757 and not result[0].contains_uncollapsable_type_comments()
6758 and not result[0].contains_unsplittable_type_ignore()
6759 and not is_line_short_enough(result[0], line_length=mode.line_length)
6763 line_copy = line.clone()
6764 append_leaves(line_copy, line, line.leaves)
6765 features_fop = set(features) | {Feature.FORCE_OPTIONAL_PARENTHESES}
6766 second_opinion = run_transformer(
6767 line_copy, transform, mode, features_fop, line_str=line_str
6770 is_line_short_enough(ln, line_length=mode.line_length) for ln in second_opinion
6772 result = second_opinion
6776 def get_cache_file(mode: Mode) -> Path:
6777 return CACHE_DIR / f"cache.{mode.get_cache_key()}.pickle"
6780 def read_cache(mode: Mode) -> Cache:
6781 """Read the cache if it exists and is well formed.
6783 If it is not well formed, the call to write_cache later should resolve the issue.
6785 cache_file = get_cache_file(mode)
6786 if not cache_file.exists():
6789 with cache_file.open("rb") as fobj:
6791 cache: Cache = pickle.load(fobj)
6792 except (pickle.UnpicklingError, ValueError):
6798 def get_cache_info(path: Path) -> CacheInfo:
6799 """Return the information used to check if a file is already formatted or not."""
6801 return stat.st_mtime, stat.st_size
6804 def filter_cached(cache: Cache, sources: Iterable[Path]) -> Tuple[Set[Path], Set[Path]]:
6805 """Split an iterable of paths in `sources` into two sets.
6807 The first contains paths of files that modified on disk or are not in the
6808 cache. The other contains paths to non-modified files.
6810 todo, done = set(), set()
6812 res_src = src.resolve()
6813 if cache.get(str(res_src)) != get_cache_info(res_src):
6820 def write_cache(cache: Cache, sources: Iterable[Path], mode: Mode) -> None:
6821 """Update the cache file."""
6822 cache_file = get_cache_file(mode)
6824 CACHE_DIR.mkdir(parents=True, exist_ok=True)
6827 **{str(src.resolve()): get_cache_info(src) for src in sources},
6829 with tempfile.NamedTemporaryFile(dir=str(cache_file.parent), delete=False) as f:
6830 pickle.dump(new_cache, f, protocol=4)
6831 os.replace(f.name, cache_file)
6836 def patch_click() -> None:
6837 """Make Click not crash.
6839 On certain misconfigured environments, Python 3 selects the ASCII encoding as the
6840 default which restricts paths that it can access during the lifetime of the
6841 application. Click refuses to work in this scenario by raising a RuntimeError.
6843 In case of Black the likelihood that non-ASCII characters are going to be used in
6844 file paths is minimal since it's Python source code. Moreover, this crash was
6845 spurious on Python 3.7 thanks to PEP 538 and PEP 540.
6848 from click import core
6849 from click import _unicodefun # type: ignore
6850 except ModuleNotFoundError:
6853 for module in (core, _unicodefun):
6854 if hasattr(module, "_verify_python3_env"):
6855 module._verify_python3_env = lambda: None
6858 def patched_main() -> None:
6864 def is_docstring(leaf: Leaf) -> bool:
6865 if not is_multiline_string(leaf):
6866 # For the purposes of docstring re-indentation, we don't need to do anything
6867 # with single-line docstrings.
6870 if prev_siblings_are(
6871 leaf.parent, [None, token.NEWLINE, token.INDENT, syms.simple_stmt]
6875 # Multiline docstring on the same line as the `def`.
6876 if prev_siblings_are(leaf.parent, [syms.parameters, token.COLON, syms.simple_stmt]):
6877 # `syms.parameters` is only used in funcdefs and async_funcdefs in the Python
6878 # grammar. We're safe to return True without further checks.
6884 def lines_with_leading_tabs_expanded(s: str) -> List[str]:
6886 Splits string into lines and expands only leading tabs (following the normal
6890 for line in s.splitlines():
6891 # Find the index of the first non-whitespace character after a string of
6892 # whitespace that includes at least one tab
6893 match = re.match(r"\s*\t+\s*(\S)", line)
6895 first_non_whitespace_idx = match.start(1)
6898 line[:first_non_whitespace_idx].expandtabs()
6899 + line[first_non_whitespace_idx:]
6906 def fix_docstring(docstring: str, prefix: str) -> str:
6907 # https://www.python.org/dev/peps/pep-0257/#handling-docstring-indentation
6910 lines = lines_with_leading_tabs_expanded(docstring)
6911 # Determine minimum indentation (first line doesn't count):
6912 indent = sys.maxsize
6913 for line in lines[1:]:
6914 stripped = line.lstrip()
6916 indent = min(indent, len(line) - len(stripped))
6917 # Remove indentation (first line is special):
6918 trimmed = [lines[0].strip()]
6919 if indent < sys.maxsize:
6920 last_line_idx = len(lines) - 2
6921 for i, line in enumerate(lines[1:]):
6922 stripped_line = line[indent:].rstrip()
6923 if stripped_line or i == last_line_idx:
6924 trimmed.append(prefix + stripped_line)
6927 return "\n".join(trimmed)
6930 if __name__ == "__main__":