--- title: "Known Deviations from Black" hide: - navigation --- This document enumerates the known, intentional differences in code style between Black and Ruff's formatter. For a list of unintentional deviations, see [issue tracker](https://github.com/astral-sh/ruff/issues?q=is%3Aopen+is%3Aissue+label%3Aformatter). ### Trailing end-of-line comments Black's priority is to fit an entire statement on a line, even if it contains end-of-line comments. In such cases, Black collapses the statement, and moves the comment to the end of the collapsed statement: ```python # Input while ( cond1 # almost always true and cond2 # almost never true ): print("Do something") # Black while cond1 and cond2: # almost always true # almost never true print("Do something") ``` Ruff, like [Prettier](https://prettier.io/), expands any statement that contains trailing end-of-line comments. For example, Ruff would avoid collapsing the `while` test in the snippet above. This ensures that the comments remain close to their original position and retain their original intent, at the cost of retaining additional vertical space. This deviation only impacts unformatted code, in that Ruff's output should not deviate for code that has already been formatted by Black. ### Pragma comments are ignored when computing line width Pragma comments (`# type`, `# noqa`, `# pyright`, `# pylint`, etc.) are ignored when computing the width of a line. This prevents Ruff from moving pragma comments around, thereby modifying their meaning and behavior: See Ruff's [pragma comment handling proposal](https://github.com/astral-sh/ruff/discussions/6670) for details. This is similar to [Pyink](https://github.com/google/pyink) but a deviation from Black. Black avoids splitting any lines that contain a `# type` comment ([#997](https://github.com/psf/black/issues/997)), but otherwise avoids special-casing pragma comments. As Ruff expands trailing end-of-line comments, Ruff will also avoid moving pragma comments in cases like the following, where moving the `# noqa` to the end of the line causes it to suppress errors on both `first()` and `second()`: ```python # Input [ first(), # noqa second() ] # Black [first(), second()] # noqa # Ruff [ first(), # noqa second(), ] ``` ### Line width vs. line length Ruff uses the Unicode width of a line to determine if a line fits. Black uses Unicode width for strings, and character width for all other tokens. Ruff _also_ uses Unicode width for identifiers and comments. ### Parenthesizing long nested-expressions Black 24 and newer parenthesizes long conditional expressions and type annotations in function parameters: ```python # Black [ "____________________________", "foo", "bar", ( "baz" if some_really_looooooooong_variable else "some other looooooooooooooong value" ), ] def foo( i: int, x: ( Loooooooooooooooooooooooong | Looooooooooooooooong | Looooooooooooooooooooong | Looooooong ), *, s: str, ) -> None: pass # Ruff [ "____________________________", "foo", "bar", "baz" if some_really_looooooooong_variable else "some other looooooooooooooong value", ] def foo( i: int, x: Loooooooooooooooooooooooong | Looooooooooooooooong | Looooooooooooooooooooong | Looooooong, *, s: str, ) -> None: pass ``` We agree that Ruff's formatting (that matches Black's 23) is hard to read and needs improvement. But we aren't convinced that parenthesizing long nested expressions is the best solution, especially when considering expression formatting holistically. That's why we want to defer the decision until we've explored alternative nested expression formatting styles. See [psf/Black#4123](https://github.com/psf/black/issues/4123) for an in-depth explanation of our concerns and an outline of possible alternatives. ### Call expressions with a single multiline string argument Unlike Black, Ruff preserves the indentation of a single multiline-string argument in a call expression: ```python # Input call( """" A multiline string """ ) dedent("""" A multiline string """) # Black call( """" A multiline string """ ) dedent( """" A multiline string """ ) # Ruff call( """" A multiline string """ ) dedent("""" A multiline string """) ``` Black intended to ship a similar style change as part of the 2024 style that always removes the indent. It turned out that this change was too disruptive to justify the cases where it improved formatting. Ruff introduced the new heuristic of preserving the indent. We believe it's a good compromise that improves formatting but minimizes disruption for users. ### Blank lines at the start of a block Black 24 and newer allows blank lines at the start of a block, where Ruff always removes them: ```python # Black if x: a = 123 # Ruff if x: a = 123 ``` Currently, we are concerned that allowing blank lines at the start of a block leads [to unintentional blank lines when refactoring or moving code](https://github.com/astral-sh/ruff/issues/8893#issuecomment-1867259744). However, we will consider adopting Black's formatting at a later point with an improved heuristic. The style change is tracked in [#9745](https://github.com/astral-sh/ruff/issues/9745). ### Hex codes and Unicode sequences Ruff normalizes hex codes and Unicode sequences in strings ([#9280](https://github.com/astral-sh/ruff/pull/9280)). Black intended to ship this change as part of the 2024 style but accidentally didn't. ```python # Black a = "\x1B" b = "\u200B" c = "\U0001F977" d = "\N{CYRILLIC small LETTER BYELORUSSIAN-UKRAINIAN I}" # Ruff a = "\x1b" b = "\u200b" c = "\U0001f977" d = "\N{CYRILLIC SMALL LETTER BYELORUSSIAN-UKRAINIAN I}" ``` ### Module docstrings Ruff formats module docstrings similar to class or function docstrings, whereas Black does not. ```python # Input """Module docstring """ # Black """Module docstring """ # Ruff """Module docstring""" ``` ### Walruses in slice expressions Black avoids inserting space around `:=` operators within slices. For example, the following adheres to Black stable style: ```python # Input x[y:=1] # Black x[y:=1] ``` Ruff will instead add space around the `:=` operator: ```python # Input x[y:=1] # Ruff x[y := 1] ``` This will likely be incorporated into Black's preview style ([#3823](https://github.com/psf/black/pull/3823)). ### `global` and `nonlocal` names are broken across multiple lines by continuations If a `global` or `nonlocal` statement includes multiple names, and exceeds the configured line width, Ruff will break them across multiple lines using continuations: ```python # Input global analyze_featuremap_layer, analyze_featuremapcompression_layer, analyze_latencies_post, analyze_motions_layer, analyze_size_model # Ruff global \ analyze_featuremap_layer, \ analyze_featuremapcompression_layer, \ analyze_latencies_post, \ analyze_motions_layer, \ analyze_size_model ``` ### Newlines are inserted after all class docstrings Black typically enforces a single newline after a class docstring. However, it does not apply such formatting if the docstring is single-quoted rather than triple-quoted, while Ruff enforces a single newline in both cases: ```python # Input class IntFromGeom(GEOSFuncFactory): "Argument is a geometry, return type is an integer." argtypes = [GEOM_PTR] restype = c_int errcheck = staticmethod(check_minus_one) # Black class IntFromGeom(GEOSFuncFactory): "Argument is a geometry, return type is an integer." argtypes = [GEOM_PTR] restype = c_int errcheck = staticmethod(check_minus_one) # Ruff class IntFromGeom(GEOSFuncFactory): "Argument is a geometry, return type is an integer." argtypes = [GEOM_PTR] restype = c_int errcheck = staticmethod(check_minus_one) ``` ### Trailing own-line comments on imports are not moved to the next line Black enforces a single empty line between an import and a trailing own-line comment. Ruff leaves such comments in-place: ```python # Input import os # comment import sys # Black import os # comment import sys # Ruff import os # comment import sys ``` ### Parentheses around awaited collections are not preserved Black preserves parentheses around awaited collections: ```python await ([1, 2, 3]) ``` Ruff will instead remove them: ```python await [1, 2, 3] ``` This is more consistent to the formatting of other awaited expressions: Ruff and Black both remove parentheses around, e.g., `await (1)`, only retaining them when syntactically required, as in, e.g., `await (x := 1)`. ### Implicit string concatenations in attribute accesses Given the following unformatted code: ```python print("aaaaaaaaaaaaaaaa" "aaaaaaaaaaaaaaaa".format(bbbbbbbbbbbbbbbbbb + bbbbbbbbbbbbbbbbbb)) ``` Internally, Black's logic will first expand the outermost `print` call: ```python print( "aaaaaaaaaaaaaaaa" "aaaaaaaaaaaaaaaa".format(bbbbbbbbbbbbbbbbbb + bbbbbbbbbbbbbbbbbb) ) ``` Since the argument is _still_ too long, Black will then split on the operator with the highest split precedence. In this case, Black splits on the implicit string concatenation, to produce the following Black-formatted code: ```python print( "aaaaaaaaaaaaaaaa" "aaaaaaaaaaaaaaaa".format(bbbbbbbbbbbbbbbbbb + bbbbbbbbbbbbbbbbbb) ) ``` Ruff gives implicit concatenations a "lower" priority when breaking lines. As a result, Ruff would instead format the above as: ```python print( "aaaaaaaaaaaaaaaa" "aaaaaaaaaaaaaaaa".format( bbbbbbbbbbbbbbbbbb + bbbbbbbbbbbbbbbbbb ) ) ``` In general, Black splits implicit string concatenations over multiple lines more often than Ruff, even if those concatenations _can_ fit on a single line. Ruff instead avoids splitting such concatenations unless doing so is necessary to fit within the configured line width. ### Own-line comments on expressions don't cause the expression to expand Given an expression like: ```python ( # A comment in the middle some_example_var and some_example_var not in some_example_var ) ``` Black associates the comment with `some_example_var`, thus splitting it over two lines: ```python ( # A comment in the middle some_example_var and some_example_var not in some_example_var ) ``` Ruff will instead associate the comment with the entire boolean expression, thus preserving the initial formatting: ```python ( # A comment in the middle some_example_var and some_example_var not in some_example_var ) ``` ### Tuples are parenthesized when expanded Ruff tends towards parenthesizing tuples (with a few exceptions), while Black tends to remove tuple parentheses more often. In particular, Ruff will always insert parentheses around tuples that expand over multiple lines: ```python # Input (a, b), (c, d,) # Black (a, b), ( c, d, ) # Ruff ( (a, b), ( c, d, ), ) ``` There's one exception here. In `for` loops, both Ruff and Black will avoid inserting unnecessary parentheses: ```python # Input for a, [b, d,] in c: pass # Black for a, [ b, d, ] in c: pass # Ruff for a, [ b, d, ] in c: pass ``` ### Single-element tuples are always parenthesized Ruff always inserts parentheses around single-element tuples, while Black will omit them in some cases: ```python # Input (a, b), # Black (a, b), # Ruff ((a, b),) ``` Adding parentheses around single-element tuples adds visual distinction and helps avoid "accidental" tuples created by extraneous trailing commas (see, e.g., [#17181](https://github.com/django/django/pull/17181)). ### Trailing commas are inserted when expanding a function definition with a single argument When a function definition with a single argument is expanded over multiple lines, Black will add a trailing comma in some cases, depending on whether the argument includes a type annotation and/or a default value. For example, Black will add a trailing comma to the first and second function definitions below, but not the third: ```python def func( aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa, ) -> None: ... def func( aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa=1, ) -> None: ... def func( aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa: Argument( "network_messages.pickle", help="The path of the pickle file that will contain the network messages", ) = 1 ) -> None: ... ``` Ruff will instead insert a trailing comma in all such cases for consistency. ### Parentheses around call-chain assignment values are not preserved Given: ```python def update_emission_strength(): ( get_rgbw_emission_node_tree(self) .nodes["Emission"] .inputs["Strength"] .default_value ) = (self.emission_strength * 2) ``` Black will preserve the parentheses in `(self.emission_strength * 2)`, whereas Ruff will remove them. Both Black and Ruff remove such parentheses in simpler assignments, like: ```python # Input def update_emission_strength(): value = (self.emission_strength * 2) # Black def update_emission_strength(): value = self.emission_strength * 2 # Ruff def update_emission_strength(): value = self.emission_strength * 2 ``` ### Call chain calls break differently in some cases Black occasionally breaks call chains differently than Ruff; in particular, Black occasionally expands the arguments for the last call in the chain, as in: ```python # Input df.drop( columns=["aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"] ).drop_duplicates().rename( columns={ "a": "a", } ).to_csv(path / "aaaaaa.csv", index=False) # Black df.drop( columns=["aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"] ).drop_duplicates().rename( columns={ "a": "a", } ).to_csv( path / "aaaaaa.csv", index=False ) # Ruff df.drop( columns=["aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"] ).drop_duplicates().rename( columns={ "a": "a", } ).to_csv(path / "aaaaaa.csv", index=False) ``` Ruff will only expand the arguments if doing so is necessary to fit within the configured line width. Note that Black does not apply this last-call argument breaking universally. For example, both Black and Ruff will format the following identically: ```python # Input df.drop( columns=["aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"] ).drop_duplicates(a).rename( columns={ "a": "a", } ).to_csv( path / "aaaaaa.csv", index=False ).other(a) # Black df.drop(columns=["aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"]).drop_duplicates(a).rename( columns={ "a": "a", } ).to_csv(path / "aaaaaa.csv", index=False).other(a) # Ruff df.drop(columns=["aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"]).drop_duplicates(a).rename( columns={ "a": "a", } ).to_csv(path / "aaaaaa.csv", index=False).other(a) ``` Similarly, in some cases, Ruff will collapse composite binary expressions more aggressively than Black, if doing so allows the expression to fit within the configured line width: ```python # Black assert AAAAAAAAAAAAAAAAAAAAAA.bbbbbb.fooo( aaaaaaaaaaaa=aaaaaaaaaaaa ).ccccc() == (len(aaaaaaaaaa) + 1) * fooooooooooo * ( foooooo + 1 ) * foooooo * len( list(foo(bar(4, foo), foo)) ) # Ruff assert AAAAAAAAAAAAAAAAAAAAAA.bbbbbb.fooo( aaaaaaaaaaaa=aaaaaaaaaaaa ).ccccc() == (len(aaaaaaaaaa) + 1) * fooooooooooo * ( foooooo + 1 ) * foooooo * len(list(foo(bar(4, foo), foo))) ``` ### The last context manager in a `with` statement may be collapsed onto a single line When using a `with` statement with multiple unparenthesized context managers, Ruff may collapse the last context manager onto a single line, if doing so allows the `with` statement to fit within the configured line width. Black, meanwhile, tends to break the last context manager slightly differently, as in the following example: ```python # Black with tempfile.TemporaryDirectory() as d1: symlink_path = Path(d1).joinpath("testsymlink") with tempfile.TemporaryDirectory(dir=d1) as d2, tempfile.TemporaryDirectory( dir=d1 ) as d4, tempfile.TemporaryDirectory(dir=d2) as d3, tempfile.NamedTemporaryFile( dir=d4 ) as source_file, tempfile.NamedTemporaryFile( dir=d3 ) as lock_file: pass # Ruff with tempfile.TemporaryDirectory() as d1: symlink_path = Path(d1).joinpath("testsymlink") with tempfile.TemporaryDirectory(dir=d1) as d2, tempfile.TemporaryDirectory( dir=d1 ) as d4, tempfile.TemporaryDirectory(dir=d2) as d3, tempfile.NamedTemporaryFile( dir=d4 ) as source_file, tempfile.NamedTemporaryFile(dir=d3) as lock_file: pass ``` When targeting Python 3.9 or newer, parentheses will be inserted around the context managers to allow for clearer breaks across multiple lines, as in: ```python with tempfile.TemporaryDirectory() as d1: symlink_path = Path(d1).joinpath("testsymlink") with ( tempfile.TemporaryDirectory(dir=d1) as d2, tempfile.TemporaryDirectory(dir=d1) as d4, tempfile.TemporaryDirectory(dir=d2) as d3, tempfile.NamedTemporaryFile(dir=d4) as source_file, tempfile.NamedTemporaryFile(dir=d3) as lock_file, ): pass ```