import os import sys import unittest from contextlib import contextmanager from dataclasses import replace from functools import partial from pathlib import Path from typing import Any, Iterator, List, Optional, Tuple import black from black.debug import DebugVisitor from black.mode import TargetVersion from black.output import diff, err, out PYTHON_SUFFIX = ".py" ALLOWED_SUFFIXES = (PYTHON_SUFFIX, ".pyi", ".out", ".diff", ".ipynb") THIS_DIR = Path(__file__).parent DATA_DIR = THIS_DIR / "data" PROJECT_ROOT = THIS_DIR.parent EMPTY_LINE = "# EMPTY LINE WITH WHITESPACE" + " (this comment will be removed)" DETERMINISTIC_HEADER = "[Deterministic header]" PY36_VERSIONS = { TargetVersion.PY36, TargetVersion.PY37, TargetVersion.PY38, TargetVersion.PY39, } DEFAULT_MODE = black.Mode() ff = partial(black.format_file_in_place, mode=DEFAULT_MODE, fast=True) fs = partial(black.format_str, mode=DEFAULT_MODE) def _assert_format_equal(expected: str, actual: str) -> None: if actual != expected and not os.environ.get("SKIP_AST_PRINT"): bdv: DebugVisitor[Any] out("Expected tree:", fg="green") try: exp_node = black.lib2to3_parse(expected) bdv = DebugVisitor() list(bdv.visit(exp_node)) except Exception as ve: err(str(ve)) out("Actual tree:", fg="red") try: exp_node = black.lib2to3_parse(actual) bdv = DebugVisitor() list(bdv.visit(exp_node)) except Exception as ve: err(str(ve)) if actual != expected: out(diff(expected, actual, "expected", "actual")) assert actual == expected class FormatFailure(Exception): """Used to wrap failures when assert_format() runs in an extra mode.""" def assert_format( source: str, expected: str, mode: black.Mode = DEFAULT_MODE, *, fast: bool = False, minimum_version: Optional[Tuple[int, int]] = None, ) -> None: """Convenience function to check that Black formats as expected. You can pass @minimum_version if you're passing code with newer syntax to guard safety guards so they don't just crash with a SyntaxError. Please note this is separate from TargetVerson Mode configuration. """ _assert_format_inner( source, expected, mode, fast=fast, minimum_version=minimum_version ) # For both preview and non-preview tests, ensure that Black doesn't crash on # this code, but don't pass "expected" because the precise output may differ. try: _assert_format_inner( source, None, replace(mode, preview=not mode.preview), fast=fast, minimum_version=minimum_version, ) except Exception as e: text = "non-preview" if mode.preview else "preview" raise FormatFailure( f"Black crashed formatting this case in {text} mode." ) from e # Similarly, setting line length to 1 is a good way to catch # stability bugs. But only in non-preview mode because preview mode # currently has a lot of line length 1 bugs. try: _assert_format_inner( source, None, replace(mode, preview=False, line_length=1), fast=fast, minimum_version=minimum_version, ) except Exception as e: raise FormatFailure( "Black crashed formatting this case with line-length set to 1." ) from e def _assert_format_inner( source: str, expected: Optional[str] = None, mode: black.Mode = DEFAULT_MODE, *, fast: bool = False, minimum_version: Optional[Tuple[int, int]] = None, ) -> None: actual = black.format_str(source, mode=mode) if expected is not None: _assert_format_equal(expected, actual) # It's not useful to run safety checks if we're expecting no changes anyway. The # assertion right above will raise if reality does actually make changes. This just # avoids wasted CPU cycles. if not fast and source != actual: # Unfortunately the AST equivalence check relies on the built-in ast module # being able to parse the code being formatted. This doesn't always work out # when checking modern code on older versions. if minimum_version is None or sys.version_info >= minimum_version: black.assert_equivalent(source, actual) black.assert_stable(source, actual, mode=mode) def dump_to_stderr(*output: str) -> str: return "\n" + "\n".join(output) + "\n" class BlackBaseTestCase(unittest.TestCase): def assertFormatEqual(self, expected: str, actual: str) -> None: _assert_format_equal(expected, actual) def get_base_dir(data: bool) -> Path: return DATA_DIR if data else PROJECT_ROOT def all_data_cases(subdir_name: str, data: bool = True) -> List[str]: cases_dir = get_base_dir(data) / subdir_name assert cases_dir.is_dir() return [case_path.stem for case_path in cases_dir.iterdir()] def get_case_path( subdir_name: str, name: str, data: bool = True, suffix: str = PYTHON_SUFFIX ) -> Path: """Get case path from name""" case_path = get_base_dir(data) / subdir_name / name if not name.endswith(ALLOWED_SUFFIXES): case_path = case_path.with_suffix(suffix) assert case_path.is_file(), f"{case_path} is not a file." return case_path def read_data(subdir_name: str, name: str, data: bool = True) -> Tuple[str, str]: """read_data('test_name') -> 'input', 'output'""" return read_data_from_file(get_case_path(subdir_name, name, data)) def read_data_from_file(file_name: Path) -> Tuple[str, str]: with open(file_name, "r", encoding="utf8") as test: lines = test.readlines() _input: List[str] = [] _output: List[str] = [] result = _input for line in lines: line = line.replace(EMPTY_LINE, "") if line.rstrip() == "# output": result = _output continue result.append(line) if _input and not _output: # If there's no output marker, treat the entire file as already pre-formatted. _output = _input[:] return "".join(_input).strip() + "\n", "".join(_output).strip() + "\n" def read_jupyter_notebook(subdir_name: str, name: str, data: bool = True) -> str: return read_jupyter_notebook_from_file( get_case_path(subdir_name, name, data, suffix=".ipynb") ) def read_jupyter_notebook_from_file(file_name: Path) -> str: with open(file_name, mode="rb") as fd: content_bytes = fd.read() return content_bytes.decode() @contextmanager def change_directory(path: Path) -> Iterator[None]: """Context manager to temporarily chdir to a different directory.""" previous_dir = os.getcwd() try: os.chdir(path) yield finally: os.chdir(previous_dir)