313711aaf9
<!-- Thank you for contributing to Ruff! To help us out with reviewing, please consider the following: - Does this pull request include a summary of the change? (See below.) - Does this pull request include a descriptive title? - Does this pull request include references to any relevant issues? --> ## Summary This PR extends the string formatting to respect the configured quote style. <!-- What's the purpose of the change? What does it do, and why? --> ## Test Plan Extended the string test with new cases and set it up to run twice: Once with the `quote_style: Doube`, and once with `quote_style: Single` single and double quotes. <!-- How was it tested? --> |
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| .. | ||
| resources/test/fixtures | ||
| src | ||
| tests | ||
| Cargo.toml | ||
| generate.py | ||
| orphan_rules_in_the_formatter.svg | ||
| README.md | ||
Rust Python Formatter
The goal of our formatter is to be compatible with Black except for rare edge cases (mostly involving comment placement).
Implementing a node
Formatting each node follows roughly the same structure. We start with a Format{{Node}} struct
that implements Default (and AsFormat/IntoFormat impls in generated.rs, see orphan rules below).
#[derive(Default)]
pub struct FormatStmtReturn;
We implement FormatNodeRule<{{Node}}> for Format{{Node}}. Inside, we destructure the item to make
sure we're not missing any field. If we want to write multiple items, we use an efficient write!
call, for single items .format().fmt(f) or .fmt(f) is sufficient.
impl FormatNodeRule<StmtReturn> for FormatStmtReturn {
fn fmt_fields(&self, item: &StmtReturn, f: &mut PyFormatter) -> FormatResult<()> {
// Here we destructure item and make sure each field is listed.
// We generally don't need range is it's underscore-ignored
let StmtReturn { range: _, value } = item;
// Implement some formatting logic, in this case no space (and no value) after a return with
// no value
if let Some(value) = value {
write!(
f,
[
text("return"),
// There are multiple different space and newline types (e.g.
// `soft_line_break_or_space()`, check the builders module), this one will
// always be translate to a normal ascii whitespace character
space(),
// `return a, b` is valid, but if it wraps we'd need parentheses.
// This is different from `(a, b).count(1)` where the parentheses around the
// tuple are mandatory
value.format().with_options(Parenthesize::IfBreaks)
]
)
} else {
text("return").fmt(f)
}
}
}
Check the builders module for the primitives that you can use.
If something such as list or a tuple can break into multiple lines if it is too long for a single
line, wrap it into a group. Ignoring comments, we could format a tuple with two items like this:
write!(
f,
[group(&format_args![
text("("),
soft_block_indent(&format_args![
item1.format()
text(","),
soft_line_break_or_space(),
item2.format(),
if_group_breaks(&text(","))
]),
text(")")
])]
)
If everything fits on a single line, the group doesn't break and we get something like ("a", "b").
If it doesn't, we get something like
(
"a",
"b",
)
For a list of expression, you don't need to format it manually but can use the JoinBuilder util,
accessible through .join_with. Finish will write to the formatter internally.
f.join_with(&format_args!(text(","), soft_line_break_or_space()))
.entries(self.elts.iter().formatted())
.finish()?;
// Here we need a trailing comma on the last entry of an expanded group since we have more
// than one element
write!(f, [if_group_breaks(&text(","))])
If you need avoid second mutable borrows with a builder, you can use format_with(|f| { ... }) as
a formattable element similar to text() or group().
Comments
Comments can either be own line or end-of-line and can be marked as Leading, Trailing and Dangling.
# Leading comment (always own line)
print("hello world") # Trailing comment (end-of-line)
# Trailing comment (own line)
Comments are automatically attached as Leading or Trailing to a node close to them, or Dangling
if there are only tokens and no nodes surrounding it. Categorization is automatic but sometimes
needs to be overridden in
place_comment
in placement.rs, which this section is about.
[
# This needs to be handled as a dangling comment
]
Here, the comment is dangling because it is preceded by [, which is a non-trivia token but not a
node, and followed by ], which is also a non-trivia token but not a node. In the FormatExprList
implementation, we have to call dangling_comments manually and stub out the
fmt_dangling_comments default from FormatNodeRule.
impl FormatNodeRule<ExprList> for FormatExprList {
fn fmt_fields(&self, item: &ExprList, f: &mut PyFormatter) -> FormatResult<()> {
// ...
write!(
f,
[group(&format_args![
text("["),
dangling_comments(dangling), // Gets all the comments marked as dangling for the node
soft_block_indent(&items),
text("]")
])]
)
}
fn fmt_dangling_comments(&self, _node: &ExprList, _f: &mut PyFormatter) -> FormatResult<()> {
// Handled as part of `fmt_fields`
Ok(())
}
}
A related common challenge is that we want to attach comments to tokens (think keywords and
syntactically meaningful characters such as :) that have no node on their own. A slightly
simplified version of the while node in our AST looks like the following:
pub struct StmtWhile {
pub range: TextRange,
pub test: Box<Expr<TextRange>>,
pub body: Vec<Stmt<TextRange>>,
pub orelse: Vec<Stmt<TextRange>>,
}
That means in
while True: # Trailing condition comment
if f():
break
# trailing while comment
# leading else comment
else:
print("while-else")
the else has no node, we're just getting the statements in its body.
The preceding token of the leading else comment is the break, which has a node, the following
token is the else, which lacks a node, so by default the comment would be marked as trailing
the break and wrongly formatted as such. We can identify these cases by looking for comments
between two bodies that have the same indentation level as the keyword, e.g. in our case the
leading else comment is inside the while node (which spans the entire snippet) and on the same
level as the else. We identify those case in
handle_in_between_bodies_own_line_comment
and mark them as dangling for manual formatting later. Similarly, we find and mark comment after
the colon(s) in
handle_trailing_end_of_line_condition_comment
.
The comments don't carry any extra information such as why we marked the comment as trailing,
instead they are sorted into one list of leading, one list of trailing and one list of dangling
comments per node. In FormatStmtWhile, we can have multiple types of dangling comments, so we
have to split the dangling list into after-colon-comments, before-else-comments, etc. by some
element separating them (e.g. all comments trailing the colon come before the first statement in
the body) and manually insert them in the right position.
A simplified implementation with only those two kinds of comments:
fn fmt_fields(&self, item: &StmtWhile, f: &mut PyFormatter) -> FormatResult<()> {
// ...
// See FormatStmtWhile for the real, more complex implementation
let first_while_body_stmt = item.body.first().unwrap().end();
let trailing_condition_comments_end =
dangling_comments.partition_point(|comment| comment.slice().end() < first_while_body_stmt);
let (trailing_condition_comments, or_else_comments) =
dangling_comments.split_at(trailing_condition_comments_end);
write!(
f,
[
text("while"),
space(),
test.format(),
text(":"),
trailing_comments(trailing_condition_comments),
block_indent(&body.format())
leading_comments(or_else_comments),
text("else:"),
block_indent(&orelse.format())
]
)?;
}
Development notes
Handling parentheses and comments are two major challenges in a Python formatter.
We have copied the majority of tests over from Black and use insta for
snapshot testing with the diff between Ruff and Black, Black output and Ruff output. We put
additional test cases in resources/test/fixtures/ruff.
The full Ruff test suite is slow, cargo test -p ruff_python_formatter is a lot faster.
There is a ruff_python_formatter binary that avoid building and linking the main ruff crate.
You can use scratch.py as a playground, e.g.
cargo run --bin ruff_python_formatter -- --emit stdout scratch.py, which additional --print-ir
and --print-comments options.
The origin of Ruff's formatter is the Rome formatter, e.g. the ruff_formatter crate is forked from the rome_formatter crate. The Rome repository can be a helpful reference when implementing something in the Ruff formatter
The orphan rules and trait structure
For the formatter, we would like to implement Format from the rust_formatter crate for all AST
nodes, defined in the rustpython_parser crate. This violates Rust's orphan rules. We therefore
generate in generate.py a newtype for each AST node with implementations of FormatNodeRule,
FormatRule, AsFormat and IntoFormat on it.
