## Summary
Fixes https://github.com/astral-sh/ruff/issues/19771
Fixes incorrect parsing of Unicode named escape sequences like `Hey
\N{snowman}` in `FormatString`, which were being incorrectly split into
separate literal and field parts instead of being treated as a single
literal unit.
## Problem
The `FormatString` parser incorrectly handles Unicode named escape
sequences:
- **Current**: `Hey \N{snowman}` is parsed into 2 parts `Literal("Hey
\N")` & `Field("snowman")`
- **Expected**: `Hey \N{snowman}` should be parsed into 1 part
`Literal("Hey \N{snowman}")`
This affects f-string conversion rules when fixing `UP032` that rely on
proper format string parsing.
## Solution
I modified `parse_literal` to detect and handle Unicode named escape
sequences before parsing single characters:
- Introduced a flag to track when a backslash is "available" to escape
something.
- When the flag is `true`, and the text starts with `N{`, try to parse
the complete Unicode escape sequence as one unit, and set the flag to
`false` after parsing successfully.
- Set the flag to `false` when the backslash is already consumed.
## Manual Verification
`"\N{angle}AOB = {angle}°".format(angle=180)`
**Result**
```bash
def foo():
- "\N{angle}AOB = {angle}°".format(angle=180)
+ f"\N{angle}AOB = {180}°"
Would fix 1 error.
```
`"\N{snowman} {snowman}".format(snowman=1)`
**Result**
```bash
def foo():
- "\N{snowman} {snowman}".format(snowman=1)
+ f"\N{snowman} {1}"
Would fix 1 error.
```
`"\\N{snowman} {snowman}".format(snowman=1)`
**Result**
```bash
def foo():
- "\\N{snowman} {snowman}".format(snowman=1)
+ f"\\N{1} {1}"
Would fix 1 error.
```
## Test Plan
- Added test cases (happy case, invalid case, edge case) for
`FormatString` when parsing Unicode escape sequence.
- Updated snapshots.
## Summary
We're actually quite good at computing this but the main issue is just
that we compute it at the type-level and so wrap it in `Literal[...]`.
So just special-case the rendering of these to omit `Literal[...]` and
fallback to `...` in cases where the thing we'll show is probably
useless (i.e. `x: str = str`).
Fixes https://github.com/astral-sh/ty/issues/1882
This fixes a bug @zsol found running ty against pyx. His original repro
is:
```py
class Base:
def __init__(self) -> None: pass
class A(Base):
pass
def foo[T](callable: Callable[..., T]) -> T:
return callable()
a: A = foo(A)
```
The call at the bottom would fail, since we would infer `() -> Base` as
the callable type of `A`, when it should be `() -> A`.
The issue was how we add implicit annotations to `self` parameters.
Typically, we turn it into `self: Self`. But in cases where we don't
need to introduce a full typevar, we turn it into `self: [the class
itself]` — in this case, `self: Base`. Then, when turning the class
constructor into a callable, we would see this non-`Self` annotation and
think that it was important and load-bearing.
The fix is that we skip all implicit annotations when determining
whether the `self` annotation should take precedence in the callable's
return type.
This is a first stab at solving
https://github.com/astral-sh/ty/issues/500, at least in part, with the
old solver. We add a new `TypeRelation` that lets us opt into using
constraint sets to describe when a typevar is assignability to some
type, and then use that to calculate a constraint set that describes
when two callable types are assignable. If the callable types contain
typevars, that constraint set will describe their valid specializations.
We can then walk through all of the ways the constraint set can be
satisfied, and record a type mapping in the old solver for each one.
---------
Co-authored-by: Carl Meyer <carl@astral.sh>
Co-authored-by: Alex Waygood <alex.waygood@gmail.com>
Fixes https://github.com/astral-sh/ty/issues/1787
## Summary
Allow method decorators returning Callables to presumptively propagate
"classmethod-ness" in the same way that they already presumptively
propagate "function-like-ness". We can't actually be sure that this is
the case, based on the decorator's annotations, but (along with other
type checkers) we heuristically assume it to be the case for decorators
applied via decorator syntax.
## Test Plan
Added mdtest.
Otherwise, given a case like this:
```
(lambda foo: (<CURSOR> + 1))(2)
```
we'll offer _argument_ completions for `foo` at the cursor position.
While we do actually want to offer completions for `foo` in this
context, it is currently difficult to do so. But we definitely don't
want to offer completions for `foo` as an argument to a function here.
Which is what we were doing.
We also add an end-to-end test here to verify that the actual label we
offer in completion suggestions includes the `=` suffix.
Closes https://github.com/astral-sh/ruff/pull/21970
Specifically, we make two changes:
1. We only show `import ...` when there is an actual import edit.
2. We now show the text we will insert. This means that when we
insert a qualified symbol, the qualification will show in the
completions suggested.
Ref https://github.com/astral-sh/ty/issues/1274#issuecomment-3352233790
It seems like this is perhaps a better default:
https://github.com/astral-sh/ty/issues/1274#issuecomment-3352233790
For me personally, I think I'd prefer the qualified
variant. But I can easily see this changing based on
the specific scenario. I think the thing that pushes
me toward prioritizing the unqualified variant is that
the user could have typed the qualified variant themselves,
but they didn't. So we should perhaps prioritize the
form they typed, which is unqualified.
Specifically, we want to test that something like `import typing`
should only be shown when we are actually going to insert an import.
*And* that when we insert a qualified name, then we should show it
as such in the completion suggestions.
Specifically, here, we'd probably like to add `TypedDict` to
the existing `from typing import ...` statement instead of
using the fully qualified `typing.TypedDict` form.
To test this, we add another snapshot mode for including imports
that a completion will insert when selected.
Ref https://github.com/astral-sh/ty/issues/1274#issuecomment-3352233790
## Summary
Infer `Literal[True]` for `isinstance(x, C)` calls when `x: T` and `T`
has a bound `B` that satisfies the `isinstance` check against `C`.
Similar for constrained typevars.
closes https://github.com/astral-sh/ty/issues/1895
## Test Plan
* New Markdown tests
* Verified the the example in the linked ticket checks without errors
In https://github.com/astral-sh/ruff/pull/21957, we tried to use
`union_or_intersection_elements_ordering` to provide a stable ordering
of the union and intersection elements that are created when determining
which type a typevar should specialize to. @AlexWaygood [pointed
out](https://github.com/astral-sh/ruff/pull/21551#discussion_r2616543762)
that this won't work, since that provides a consistent ordering within a
single process run, but does not provide a stable ordering across runs.
This is an attempt to produce a proper stable ordering for constraint
sets, so that we end up with consistent diagnostic and test output.
We do this by maintaining a new `source_order` field on each interior
BDD node, which records when that node's constraint was added to the
set. Several of the BDD operators (`and`, `or`, etc) now have
`_with_offset` variants, which update each `source_order` in the rhs to
be larger than any of the `source_order`s in the lhs. This is what
causes that field to be in line with (a) when you add each constraint to
the set, and (b) the order of the parameters you provide to `and`, `or`,
etc. Then we sort by that new field before constructing the
union/intersection types when creating a specialization.
In `for x in <CURSOR>` statements it's only valid to provide expressions
that eventually evaluate to an iterable. While it's extremely difficult
to know if something can evaulate to an iterable in a general case,
there are some suggestions we know can never lead to an iterable. Most
keywords are such and hence we remove them here.
## Summary
This suppresses statement-keywords from auto-complete suggestions in
`for x in <CURSOR>` statements where we know they can never be valid, as
whatever is typed has to (at some point) evaluate to an iterable.
It handles the core issue from
https://github.com/astral-sh/ty/issues/1774 but there's a lot of related
cases that probably has to be handled piece-wise.
## Test Plan
New tests and verifying in the playground.
This PR implements a modification (in preview) to fluent formatting for
method chains: We break _at_ the first call instead of _after_.
For example, we have the following diff between `main` and this PR (with
`line-length=8` so I don't have to stretch out the text):
```diff
x = (
- df.merge()
+ df
+ .merge()
.groupby()
.agg()
.filter()
)
```
## Explanation of current implementation
Recall that we traverse the AST to apply formatting. A method chain,
while read left-to-right, is stored in the AST "in reverse". So if we
start with something like
```python
a.b.c.d().e.f()
```
then the first syntax node we meet is essentially `.f()`. So we have to
peek ahead. And we actually _already_ do this in our current fluent
formatting logic: we peek ahead to count how many calls we have in the
chain to see whether we should be using fluent formatting or now.
In this implementation, we actually _record_ this number inside the enum
for `CallChainLayout`. That is, we make the variant `Fluent` hold an
`AttributeState`. This state can either be:
- The number of call-like attributes preceding the current attribute
- The state `FirstCallOrSubscript` which means we are at the first
call-like attribute in the chain (reading from left to right)
- The state `BeforeFirstCallOrSubscript` which means we are in the
"first group" of attributes, preceding that first call.
In our example, here's what it looks like at each attribute:
```
a.b.c.d().e.f @ Fluent(CallsOrSubscriptsPreceding(1))
a.b.c.d().e @ Fluent(CallsOrSubscriptsPreceding(1))
a.b.c.d @ Fluent(FirstCallOrSubscript)
a.b.c @ Fluent(BeforeFirstCallOrSubscript)
a.b @ Fluent(BeforeFirstCallOrSubscript)
```
Now, as we descend down from the parent expression, we pass along this
little piece of state and modify it as we go to track where we are. This
state doesn't do anything except when we are in `FirstCallOrSubscript`,
in which case we add a soft line break.
Closes#8598
---------
Co-authored-by: Brent Westbrook <36778786+ntBre@users.noreply.github.com>
When we calculate which typevars are inferable in a generic context, the
result might include more than the typevars bound by the generic
context. The canonical example is a generic method of a generic class:
```py
class C[A]:
def method[T](self, t: T): ...
```
Here, the inferable typevar set of `method` contains `Self` and `T`, as
you'd expect. (Those are the typevars bound by the method.) But it also
contains `A@C`, since the implicit `Self` typevar is defined as `Self:
C[A]`. That means when we call `method`, we need to mark `A@C` as
inferable, so that we can determine the correct mapping for `A@C` at the
call site.
Fixes https://github.com/astral-sh/ty/issues/1874
## Summary
If `import warnings` exists in the file, we will suggest an edit of
`deprecated -> warnings.deprecated` as "qualify warnings.deprecated"
## Test Plan
Should test more cases...
## Summary
- Treat `if TYPE_CHECKING` blocks the same as stub files (the feature
requested in https://github.com/astral-sh/ty/issues/1216)
- We currently only allow `@abstractmethod`-decorated methods to omit
the implementation if they're methods in classes that have _exactly_
`ABCMeta` as their metaclass. That seems wrong -- `@abstractmethod` has
the same semantics if a class has a subclass of `ABCMeta` as its
metaclass. This PR fixes that too. (I'm actually not _totally_ sure we
should care what the class's metaclass is at all -- see discussion in
https://github.com/astral-sh/ty/issues/1877#issue-3725937441... but the
change this PR is making seems less wrong than what we have currently,
anyway.)
Fixes https://github.com/astral-sh/ty/issues/1216
## Test Plan
Mdtests and snapshots
## Summary
I assume that the class has been renamed or split since this assertion
was created.
## Test Plan
Compiled locally, nothing more. Relying on CI given the triviality of
this change.
We now allow the lower and upper bounds of a constraint to be gradual.
Before, we would take the top/bottom materializations of the bounds.
This required us to pass in whether the constraint was intended for a
subtyping check or an assignability check, since that would control
whether we took the "restrictive" or "permissive" materializations,
respectively.
Unfortunately, doing so means that we lost information about whether the
original query involves a non-fully-static type. This would cause us to
create specializations like `T = object` for the constraint `T ≤ Any`,
when it would be nicer to carry through the gradual type and produce `T
= Any`.
We're not currently using constraint sets for subtyping checks, nor are
we going to in the very near future. So for now, we're going to assume
that constraint sets are always used for assignability checks, and allow
the lower/upper bounds to not be fully static. Once we get to the point
where we need to use constraint sets for subtyping checks, we will
consider how best to record this information in constraints.
## Summary
This PR makes explicit specialization of a type variable itself an
error, and the result of the specialization is `Unknown`.
The change also fixes https://github.com/astral-sh/ty/issues/1794.
## Test Plan
mdtests updated
new corpus test
---------
Co-authored-by: Carl Meyer <carl@astral.sh>
## Summary
This PR takes the improvements we made to unsupported-comparison
diagnostics in https://github.com/astral-sh/ruff/pull/21737, and extends
them to other `unsupported-operator` diagnostics.
## Test Plan
Mdtests and snapshots
## Summary
Working on py-fuzzer recently (AKA, a Python project!) reminded me how
cool our "inlay hint goto-definition feature" is. So this PR adds a
bunch more of that!
I also made a couple of other minor changes to type display. For
example, in the playground, this snippet:
```py
def f(): ...
reveal_type(f.__get__)
```
currently leads to this diagnostic:
```
Revealed type: `<method-wrapper `__get__` of `f`>` (revealed-type) [Ln 2, Col 13]
```
But the fact that we have backticks both around the type display and
inside the type display isn't _great_ there. This PR changes it to
```
Revealed type: `<method-wrapper '__get__' of function 'f'>` (revealed-type) [Ln 2, Col 13]
```
which avoids the nested-backticks issue in diagnostics, and is more
similar to our display for various other `Type` variants such as
class-literal types (`<class 'Foo'>`, etc., not ``<class `Foo`>``).
## Test Plan
inlay snapshots added; mdtests updated
Summary
--
Following #8179, we now format long lambda expressions a bit more like
Black, preferring to keep long parameter lists on a single line, but we
go one step further to break the body itself across multiple lines and
parenthesize it if it's still too long. This PR documents both the
stable deviation that breaks parameters across multiple lines, and the
new preview deviation that breaks the body instead.
I also fixed a couple of typos in the section immediately above my
addition.
Test Plan
--
I tested all of the snippets here against `main` for the preview
behavior, our playground for the stable behavior, and Black's playground
for their behavior
## Summary
This PR makes two changes to our formatting of `lambda` expressions:
1. We now parenthesize the body expression if it expands
2. We now try to keep the parameters on a single line
The latter of these fixes#8179:
Black formatting and this PR's formatting:
```py
def a():
return b(
c,
d,
e,
f=lambda self, *args, **kwargs: aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(
*args, **kwargs
),
)
```
Stable Ruff formatting
```py
def a():
return b(
c,
d,
e,
f=lambda self,
*args,
**kwargs: aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(*args, **kwargs),
)
```
We don't parenthesize the body expression here because the call to
`aaaa...` has its own parentheses, but adding a binary operator shows
the new parenthesization:
```diff
@@ -3,7 +3,7 @@
c,
d,
e,
- f=lambda self, *args, **kwargs: aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(
- *args, **kwargs
- ) + 1,
+ f=lambda self, *args, **kwargs: (
+ aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(*args, **kwargs) + 1
+ ),
)
```
This is actually a new divergence from Black, which formats this input
like this:
```py
def a():
return b(
c,
d,
e,
f=lambda self, *args, **kwargs: aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa(
*args, **kwargs
)
+ 1,
)
```
But I think this is an improvement, unlike the case from #8179.
One other, smaller benefit is that because we now add parentheses to
lambda bodies, we also remove redundant parentheses:
```diff
@pytest.mark.parametrize(
"f",
[
- lambda x: (x.expanding(min_periods=5).cov(x, pairwise=True)),
- lambda x: (x.expanding(min_periods=5).corr(x, pairwise=True)),
+ lambda x: x.expanding(min_periods=5).cov(x, pairwise=True),
+ lambda x: x.expanding(min_periods=5).corr(x, pairwise=True),
],
)
def test_moment_functions_zero_length_pairwise(f):
```
## Test Plan
New tests taken from #8465 and probably a few more I should grab from
the ecosystem results.
---------
Co-authored-by: Micha Reiser <micha@reiser.io>
By teaching desperate resolution to try every possible ancestor that
doesn't have an `__init__.py(i)` when resolving absolute imports.
* Fixes https://github.com/astral-sh/ty/issues/1782
... and also `__all__.extend(submodule.__all__)`.
I originally left out support for this since I was unclear on whether
we'd really need it. But it turns out this is used somewhat frequently.
For example, in `numpy`.
See the comments on the new `Imports` type for how we approach this.
Partially addresses https://github.com/astral-sh/ty/issues/1732
## Summary
Don't union the previous type in fixpoint iteration if the previous type
contains a `Divergent` from the current cycle and the latest type does
not. The theory here, as outlined by @mtshiba at
https://github.com/astral-sh/ty/issues/1732#issuecomment-3609937420, is
that oscillation can't occur by removing and then reintroducing a
`Divergent` type repeatedly, since `Divergent` types are only introduced
at the start of fixpoint iteration.
## Test Plan
Removes a `Divergent` type from the added mdtest, doesn't otherwise
regress any tests.
## Summary
This PR includes the following changes:
* When attempting to specialize a non-generic type (or a type that is
already specialized), the result is `Unknown`. Also, the error message
is improved.
* When an implicit type alias is incorrectly specialized, the result is
`Unknown`. Also, the error message is improved.
* When only some of the type alias bounds and constraints are not
satisfied, not all substitutions are `Unknown`.
* Double specialization is prohibited. e.g. `G[int][int]`
Furthermore, after applying this PR, the fuzzing tests for seeds 1052
and 4419, which panic in main, now pass.
This is because the false recursions on type variables have been
removed.
```python
# name_2[0] => Unknown
class name_1[name_2: name_2[0]]:
def name_4(name_3: name_2, /):
if name_3:
pass
# (name_5 if unique_name_0 else name_1)[0] => Unknown
def name_4[name_5: (name_5 if unique_name_0 else name_1)[0], **name_1](): ...
```
## Test Plan
New corpus test
mdtest files updated
As described in astral-sh/ty#1729, we previously had a salsa cycle when
inferring the signature of many function definitions.
The most obvious case happened when (a) the function was decorated, (b)
it had no PEP-695 type params, and (c) annotations were not always
deferred (e.g. in a stub file). We currently evaluate and apply function
decorators eagerly, as part of `infer_function_definition`. Applying a
decorator requires knowing the signature of the function being
decorated. There were two places where signature construction called
`infer_definition_types` cyclically.
The simpler case was that we were looking up the generic context and
decorator list of the function to determine whether it has an implicit
`self` parameter. Before, we used `infer_definition_types` to determine
that information. But since we're in the middle of signature
construction for the function, we can just thread the information
through directly.
The harder case is that signature construction requires knowing the
inferred parameter and return type annotations. When (b) and (c) hold,
those type annotations are inferred in `infer_function_definition`! (In
theory, we've already finished that by the time we start applying
decorators, but signature construction doesn't know that.)
If annotations are deferred, the params/return annotations are inferred
in `infer_deferred_types`; if there are PEP-695 type params, they're
inferred in `infer_function_type_params`. Both of those are different
salsa queries, and don't induce this cycle.
So the quick fix here is to always defer inference of the function
params/return, so that they are always inferred under a different salsa
query.
A more principled fix would be to apply decorators lazily, just like we
construct signatures lazily. But that is a more invasive fix.
Fixesastral-sh/ty#1729
---------
Co-authored-by: Alex Waygood <alex.waygood@gmail.com>
## Summary
Ignores `#ruff:isort` when parsing suppressions similar to `#ruff:noqa`.
Should clear up ecosystem issues in #21908
## Test Plan
cargo tests
Partially addresses https://github.com/astral-sh/ty/issues/1732
Fixes https://github.com/astral-sh/ty/issues/1800
## Summary
At each fixpoint iteration, we union the "previous" and "current"
iteration types, to ensure that the type can only widen at each
iteration. This prevents oscillation and ensures convergence.
But some unions triggered by this behavior (in particular, unions of
differently-specialized generic-aliases of the same class) never
simplify, and cause spurious errors. Since we haven't seen examples of
oscillating types involving class-literal or generic-alias types, just
don't union those.
There may be more thorough/principled ways to avoid undesirable unions
in fixpoint iteration, but this narrow change seems like it results in
strict improvement.
## Test Plan
Removes two false positive `unsupported-class-base` in mdtests, and
several in the ecosystem, without causing other regression.
I recently started noticing this showing up in the logs for every scope
based completion request:
```
2025-12-11 11:25:35.704329935 DEBUG request{id=29 method="textDocument/completion"}:map_stub_definition: Module `builtins` not found while looking in parent dirs
```
And in particular, it was repeated several times. This was confusing to
me because, well, of course `builtins` should resolve.
This particular code path comes from looking for the docstrings
of completion items. This involves a spelunking that ultimately
tries to resolve a "real" module if the stub doesn't have available
docstrings. But I guess there is no "real" `builtins` module, so
`resolve_real_module` fails. Which is fine, but the noisy logs were
annoying since this is an expected case.
So here, we carve out a short circuit for `builtins` and also improve
the log message.
These routines don't return *all* symbols/members, but rather,
only *for* a particular scope. We do specifically want to add
some routines that return *all* symbols/members, and this naming
scheme made that confusing. It was also inconsistent with other
routines like `all_end_of_scope_symbol_declarations` which *do*
return *all* symbols.
This PR improves the overload call resolution tracing messages as:
- Use `trace` level instead of `debug` level
- Add a `trace_span` which contains the call arguments and signature
- Remove the signature from individual tracing messages
## Summary
We currently perform a subtyping check, similar to what we were doing
for `@final` instances before
https://github.com/astral-sh/ruff/pull/21167, which is incorrect, e.g.
we currently consider `type[X[Any]]` and `type[X[T]]]` disjoint (where
`X` is `@final`).
This fixes the logic error that @sharkdp
[found](https://github.com/astral-sh/ruff/pull/21871#discussion_r2605755588)
in the constraint set upper bound normalization logic I introduced in
#21871.
I had originally claimed that `(T ≤ α & ~β)` should simplify into `(T ≤
α) ∧ ¬(T ≤ β)`. But that also suggests that `T ≤ ~β` should simplify to
`¬(T ≤ β)` on its own, and that's not correct.
The correct simplification is that `~α` is an "atomic" type, not an
"intersection" for the purposes of our upper bound simplifcation. So `(T
≤ α & ~β)` should simplify to `(T ≤ α) ∧ (T ≤ ~β)`. That is, break apart
the elements of a (proper) intersection, regardless of whether each
element is negated or not.
This PR fixes the logic, adds a test case, and updates the comments to
be hopefully more clear and accurate.
Fixes https://github.com/astral-sh/ty/issues/1832, fixes
https://github.com/astral-sh/ty/issues/1513
## Summary
A class object `C` (for which we infer an unspecialized `ClassLiteral`
type) should always be assignable to the type `type[C]` (which is
default-specialized, if `C` is generic). We already implemented this for
most cases, but we missed the case of a generic final type, where we
simplify `type[C]` to the `GenericAlias` type for the default
specialization of `C`. So we also need to implement this assignability
of generic `ClassLiteral` types as-if default-specialized.
## Test Plan
Added mdtests that failed before this PR.
---------
Co-authored-by: David Peter <mail@david-peter.de>
## Summary
Respect typevar bounds and constraints when matching against a union.
For example:
```py
def accepts_t_or_int[T_str: str](x: T_str | int) -> T_str:
raise NotImplementedError
reveal_type(accepts_t_or_int("a")) # ok, reveals `Literal["a"]`
reveal_type(accepts_t_or_int(1)) # ok, reveals `Unknown`
class Unrelated: ...
# error: [invalid-argument-type] "Argument type `Unrelated` does not
# satisfy upper bound `str` of type variable `T_str`"
accepts_t_or_int(Unrelated())
```
Previously, the last call succeed without any errors. Worse than that,
we also incorrectly solved `T_str = Unrelated`, which often lead to
downstream errors.
closes https://github.com/astral-sh/ty/issues/1837
## Ecosystem impact
Looks good!
* Lots of removed false positives, often because we previously selected
a wrong overload for a generic function (because we didn't respect the
typevar bound in an earlier overload).
* We now understand calls to functions accepting an argument of type
`GenericPath: TypeAlias = AnyStr | PathLike[AnyStr]`. Previously, we
would incorrectly match a `Path` argument against the `AnyStr` typevar
(violating its constraints), but now we match against `PathLike`.
## Performance
Another regression on `colour`. This package uses `numpy` heavily. And
`numpy` is the codebase that originally lead me to this bug. The fix
here allows us to infer more precise `np.array` types in some cases, so
it's reasonable that we just need to perform more work.
The fix here also requires us to look at more union elements when we
would previously short-circuit incorrectly, so some more work needs to
be done in the solver.
## Test Plan
New Markdown tests
This hack was introduced to reduce the amount of warnings that users
would get while transitioning to the new settings format
(https://github.com/astral-sh/ruff/pull/19787) but now that we're near
the beta release, it would be good to remove this.
In a constraint set, it's not useful for an upper bound to be an
intersection type, or for a lower bound to be a union type. Both of
those can be rewritten as simpler BDDs:
```
T ≤ α & β ⇒ (T ≤ α) ∧ (T ≤ β)
T ≤ α & ¬β ⇒ (T ≤ α) ∧ ¬(T ≤ β)
α | β ≤ T ⇒ (α ≤ T) ∧ (β ≤ T)
```
We were seeing performance issues on #21551 when _not_ performing this
simplification. For instance, `pandas` was producing some constraint
sets involving intersections of 8-9 different types. Our sequent map
calculation was timing out calculating all of the different permutations
of those types:
```
t1 & t2 & t3 → t1
t1 & t2 & t3 → t2
t1 & t2 & t3 → t3
t1 & t2 & t3 → t1 & t2
t1 & t2 & t3 → t1 & t3
t1 & t2 & t3 → t2 & t3
```
(and then imagine what that looks like for 9 types instead of 3...)
With this change, all of those permutations are now encoded in the BDD
structure itself, which is very good at simplifying that kind of thing.
Pulling this out of #21551 for separate review.
#21744 fixed some non-determinism in our constraint set implementation
by switching our BDD representation from being "fully reduced" to being
"quasi-reduced". We still deduplicate identical nodes (via salsa
interning), but we removed the logic to prune redundant nodes (one with
identical outgoing true and false edges). This ensures that the BDD
"remembers" all of the individual constraints that it was created with.
However, that comes at the cost of creating larger BDDs, and on #21551
that was causing performance issues. `scikit-learn` was producing a
function signature with dozens of overloads, and we were trying to
create a constraint set that would map a return type typevar to any of
those overload's return types. This created a combinatorial explosion in
the BDD, with by far most of the BDD paths leading to the `never`
terminal.
This change updates the quasi-reduction logic to prune nodes that are
redundant _because both edges lead to the `never` terminal_. In this
case, we don't need to "remember" that constraint, since no assignment
to it can lead to a valid specialization. So we keep the "memory" of our
quasi-reduced structure, while still pruning large unneeded portions of
the BDD structure.
Pulling this out of https://github.com/astral-sh/ruff/pull/21551 for
separate review.
## Summary
This is a follow-up to #21868. As soon as I started merging #21868 into
#21385, I realized that I had missed a test case with `**kwargs` after
the `*args` parameter. Such a case is supposed to be formatted on one
line like:
```py
# input
(
lambda
# comment
*x,
**y: x
)
# output
(
lambda
# comment
*x, **y: x
)
```
which you can still see on the
[playground](https://play.ruff.rs/bd88d339-1358-40d2-819f-865bfcb23aef?secondary=Format),
but on `main` after #21868, this was formatted as:
```py
(
lambda
# comment
*x,
**y: x
)
```
because the leading comment on the first parameter caused the whole
group around the parameters to break.
Instead of making these comments leading comments on the first
parameter, this PR makes them leading comments on the parameters list as
a whole.
## Test Plan
New tests, and I will also try merging this into #21385 _before_ opening
it for review this time.
<hr>
(labeling `internal` since #21868 should not be released before some
kind of fix)
## Summary
This PR adds special handling for `asynccontextmanager` calls as a
temporary solution for https://github.com/astral-sh/ty/issues/1804. We
will be able to remove this soon once we have support for generic
protocols in the solver.
closes https://github.com/astral-sh/ty/issues/1804
## Ecosystem
```diff
+ tests/test_downloadermiddleware.py:305:56: error[invalid-argument-type] Argument to bound method `download` is incorrect: Expected `Spider`, found `Unknown | Spider | None`
+ tests/test_downloadermiddleware.py:305:56: warning[possibly-missing-attribute] Attribute `spider` may be missing on object of type `Crawler | None`
```
These look like true positives
```diff
+ pymongo/asynchronous/database.py:1021:35: error[invalid-assignment] Object of type `(AsyncClientSession & ~AlwaysTruthy & ~AlwaysFalsy) | (_ServerMode & ~AlwaysFalsy) | Unknown | Primary` is not assignable to `_ServerMode | None`
+ pymongo/asynchronous/database.py:1025:17: error[invalid-argument-type] Argument to bound method `_conn_for_reads` is incorrect: Expected `_ServerMode`, found `_ServerMode | None`
```
Known problems or true positives, just caused by the new type for
`session`
```diff
- src/integrations/prefect-sqlalchemy/prefect_sqlalchemy/database.py:269:16: error[invalid-return-type] Return type does not match returned value: expected `Connection | AsyncConnection`, found `_GeneratorContextManager[Unknown, None, None] | _AsyncGeneratorContextManager[Unknown, None] | Connection | AsyncConnection`
+ src/integrations/prefect-sqlalchemy/prefect_sqlalchemy/database.py:269:16: error[invalid-return-type] Return type does not match returned value: expected `Connection | AsyncConnection`, found `_GeneratorContextManager[Unknown, None, None] | _AsyncGeneratorContextManager[AsyncConnection, None] | Connection | AsyncConnection`
```
Just a more concrete type
```diff
- src/prefect/flow_engine.py:1277:24: error[missing-argument] No argument provided for required parameter `cls`
- src/prefect/server/api/server.py:696:49: error[missing-argument] No argument provided for required parameter `cls`
- src/prefect/task_engine.py:1426:24: error[missing-argument] No argument provided for required parameter `cls`
```
Good
## Test Plan
* Adapted and newly added Markdown tests
* Tested on internal codebase
Summary
--
This PR makes two changes to comment placement in lambda parameters.
First, we
now insert a line break if the first parameter has a leading comment:
```py
# input
(
lambda
* # comment 2
x:
x
)
# main
(
lambda # comment 2
*x: x
)
# this PR
(
lambda
# comment 2
*x: x
)
```
Note the missing space in the output from main. This case is currently
unstable
on main. Also note that the new formatting is more consistent with our
stable
formatting in cases where the lambda has its own dangling comment:
```py
# input
(
lambda # comment 1
* # comment 2
x:
x
)
# output
(
lambda # comment 1
# comment 2
*x: x
)
```
and when a parameter without a comment precedes the split `*x`:
```py
# input
(
lambda y,
* # comment 2
x:
x
)
# output
(
lambda y,
# comment 2
*x: x
)
```
This does change the stable formatting, but I think such cases are rare
(expecting zero hits in the ecosystem report), this fixes an existing
instability, and it should not change any code we've previously
formatted.
Second, this PR modifies the comment placement such that `# comment 2`
in these
outputs is still a leading comment on the parameter. This is also not
the case
on main, where it becomes a [dangling lambda
comment](https://play.ruff.rs/3b29bb7e-70e4-4365-88e0-e60fe1857a35?secondary=Comments).
This doesn't cause any
instability that I'm aware of on main, but it does cause problems when
trying to
adjust the placement of dangling lambda comments in #21385. Changing the
placement in this way should not affect any formatting here.
Test Plan
--
New lambda tests, plus existing tests covering the cases above with
multiple
comments around the parameters (see lambda.py 122-143, and 122-205 or so
more
broadly)
I also checked manually that the comments are now leading on the
parameter:
```shell
❯ cargo run --bin ruff_python_formatter -- --emit stdout --target-version 3.10 --print-comments <<EOF
(
lambda
# comment 2
*x: x
)
EOF
Finished `dev` profile [unoptimized + debuginfo] target(s) in 0.15s
Running `target/debug/ruff_python_formatter --emit stdout --target-version 3.10 --print-comments`
# Comment decoration: Range, Preceding, Following, Enclosing, Comment
21..32, None, Some((Parameters, 37..39)), (ExprLambda, 6..42), "# comment 2"
{
Node {
kind: Parameter,
range: 37..39,
source: `*x`,
}: {
"leading": [
SourceComment {
text: "# comment 2",
position: OwnLine,
formatted: true,
},
],
"dangling": [],
"trailing": [],
},
}
(
lambda
# comment 2
*x: x
)
```
But I didn't see a great place to put a test like this. Is there
somewhere I can assert this comment placement since it doesn't affect
any formatting yet? Or is it okay to wait until we use this in #21385?
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
Closes#17347
Goal is to detect the useless exception statement not just for builtin
exceptions but also custom (user defined) ones.
## Test Plan
<!-- How was it tested? -->
I added test cases in the rule fixture and updated the insta snapshot.
Note that I first moved up a test case case which was at the bottom to
the correct "violation category".
I wasn't sure if I should create new test cases or just insert inside
those tests. I know that ideally each test case should test only one
thing, but here, duplicating twice 12 test cases seemed very verbose,
and actually less maintainable in the future. The drawback is that the
diff in the snapshot is hard to review, sorry. But you can see that the
snapshot gives 38 diagnostics, which is what we expect.
Alternatively, I also created this file for manual testing.
```py
# tmp/test_error.py
class MyException(Exception):
...
class MyBaseException(BaseException):
...
class MyValueError(ValueError):
...
class MyExceptionCustom(Exception):
...
class MyBaseExceptionCustom(BaseException):
...
class MyValueErrorCustom(ValueError):
...
class MyDeprecationWarning(DeprecationWarning):
...
class MyDeprecationWarningCustom(MyDeprecationWarning):
...
class MyExceptionGroup(ExceptionGroup):
...
class MyExceptionGroupCustom(MyExceptionGroup):
...
class MyBaseExceptionGroup(ExceptionGroup):
...
class MyBaseExceptionGroupCustom(MyBaseExceptionGroup):
...
def foo():
Exception("...")
BaseException("...")
ValueError("...")
RuntimeError("...")
DeprecationWarning("...")
GeneratorExit("...")
SystemExit("...")
ExceptionGroup("eg", [ValueError(1), TypeError(2), OSError(3), OSError(4)])
BaseExceptionGroup("eg", [ValueError(1), TypeError(2), OSError(3), OSError(4)])
MyException("...")
MyBaseException("...")
MyValueError("...")
MyExceptionCustom("...")
MyBaseExceptionCustom("...")
MyValueErrorCustom("...")
MyDeprecationWarning("...")
MyDeprecationWarningCustom("...")
MyExceptionGroup("...")
MyExceptionGroupCustom("...")
MyBaseExceptionGroup("...")
MyBaseExceptionGroupCustom("...")
```
and you can run this to check the PR:
```sh
target/debug/ruff check tmp/test_error.py --select PLW0133 --unsafe-fixes --diff --no-cache --isolated --target-version py310
target/debug/ruff check tmp/test_error.py --select PLW0133 --unsafe-fixes --diff --no-cache --isolated --target-version py314
```
## Summary
This fixes https://github.com/astral-sh/ty/issues/1736 where recursive
generic protocols with growing specializations caused a stack overflow.
The issue occurred with protocols like:
```python
class C[T](Protocol):
a: 'C[set[T]]'
```
When checking `C[set[int]]` against e.g. `C[Unknown]`, member `a`
requires checking `C[set[set[int]]]`, which requires
`C[set[set[set[int]]]]`, etc. Each level has different type
specializations, so the existing cycle detection (using full types as
cache keys) didn't catch the infinite recursion.
This fix adds a simple recursion depth limit (64) to the CycleDetector.
When the depth exceeds the limit, we return the fallback value (assume
compatible) to safely terminate the recursion.
This is a bit of a blunt hammer, but it should be broadly effective to
prevent stack overflow in any nested-relation case, and it's hard to
imagine that non-recursive nested relation comparisons of depth > 64
exist much in the wild.
## Test Plan
Added mdtest.
## Summary
This PR allows our generics solver to find a solution for `T` in cases
like the following:
```py
def extract_t[T](x: P[T] | Q[T]) -> T:
raise NotImplementedError
reveal_type(extract_t(P[int]())) # revealed: int
reveal_type(extract_t(Q[str]())) # revealed: str
```
closes https://github.com/astral-sh/ty/issues/1772
closes https://github.com/astral-sh/ty/issues/1314
## Ecosystem
The impact here looks very good!
It took me a long time to figure this out, but the new diagnostics on
bokeh are actually true positives. I should have tested with another
type-checker immediately, I guess. All other type checkers also emit
errors on these `__init__` calls. MRE
[here](https://play.ty.dev/5c19d260-65e2-4f70-a75e-1a25780843a2) (no
error on main, diagnostic on this branch)
A lot of false positives on home-assistant go away for calls to
functions like
[`async_listen`](180053fe98/homeassistant/core.py (L1581-L1587))
which take a `event_type: EventType[_DataT] | str` parameter. We can now
solve for `_DataT` here, which was previously falling back to its
default value, and then caused problems because it was used as an
argument to an invariant generic class.
## Test Plan
New Markdown tests
## Summary
fixes: https://github.com/astral-sh/ty/issues/1809
I took this chance to add some debug level tracing logs for overload
call evaluation similar to Doug's implementation in `constraints.rs`.
## Test Plan
- Add new mdtests
- Tested it against `sqlalchemy.select` in pyx which results in the
correct overload being matched
While still under development, it's far enough along now that we think
it's worth enabling it by default. This should also help give us
feedback for how it behaves.
This PR adds a "completion settings" grouping similar to inlay hints. We
only have an auto-import setting there now, but I expect we'll add more
options to configure completion behavior in the future.
Closesastral-sh/ty#1765
This adds autocomplete suggestions for function arguments. For example,
`okay` in:
```python
def foo(okay=None):
foo(o<CURSOR>
```
This also ensures that we don't suggest a keyword argument if it has
already been used.
Closesastral-sh/issues#1550
Closes issue #21565
## Summary
As pointed out in the issue, slices are currently flagged by B008 but
this behavior is incorrect because slices are immutable.
## Test Plan
Added a test case in the "B006_B008.py" fixture. Sorry for the diff in
the snapshots, the only thing that changes in those flies is the line
numbers, though.
You can also test this manually with this file:
```py
# test_slice.py
def c(d=slice(0, 3)): ...
```
```sh
> target/debug/ruff check tmp/test_slice.py --no-cache --select B008
All checks passed!
```
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## Summary
Fixes https://github.com/astral-sh/ruff/issues/8774
This PR fixes `pydocstyle` incorrectly flagging missing argument for
arguments with `Unpack` type annotation by extracting the `kwarg` `D417`
suppression logic into a helper function for future rules as needed.
## Problem Statement
The below example was incorrectly triggering `D417` error for missing
`**kwargs` doc.
```python
class User(TypedDict):
id: int
name: str
def do_something(some_arg: str, **kwargs: Unpack[User]):
"""Some doc
Args:
some_arg: Some argument
"""
```
<img width="1135" height="276" alt="image"
src="https://github.com/user-attachments/assets/42fa4bb9-61a5-4a70-a79c-0c8922a3ee66"
/>
`**kwargs: Unpack[User]` indicates the function expects keyword
arguments that will be unpacked. Ideally, the individual fields of the
User `TypedDict` should be documented, not in the `**kwargs` itself. The
`**kwargs` parameter acts as a semantic grouping rather than a parameter
requiring documentation.
## Solution
As discussed in the linked issue, it makes sense to suppress the `D417`
for parameters with `Unpack` annotation. I extract a helper function to
solely check `D417` should be suppressed with `**kwarg: Unpack[T]`
parameter, this function can also be unit tested independently and
reduce complexity of current `missing_args` check function. This also
makes it easier to add additional rules in the future.
_✏️ Note:_ This is my first PR in this repo, as I've learned a ton from
it, please call out anything that could be improved. Thanks for making
this excellent tool 👏
## Test Plan
Add 2 test cases in `D417.py` and update snapshots.
---------
Co-authored-by: Brent Westbrook <36778786+ntBre@users.noreply.github.com>
## Summary
By taking a purely syntactic approach to the problem of trivial
initializer calls we can supress `x: T = T()`, `x: T = x.y.T()` and `x:
MyNewType = MyNewType(0)` but still display `x: T[U] = T()`.
The place where we drop a ball is this does not compose with our
analysis for supressing `x = (0, "hello")` as `x = (0, T())` and `x =
(T(), T())` will still get inlay hints (I don't think this is a huge
deal).
* fixes https://github.com/astral-sh/ty/issues/1516
## Test Plan
Existing snapshots cover this well.
## Summary
If you pass a non-tuple to `Annotated`, we end up running inference on
it twice. I _think_ the only case here is `Annotated[]`, where we insert
a (fake) empty `Name` node in the slice.
Closes https://github.com/astral-sh/ty/issues/1801.
## Summary
Increase our SQLAlchemy test coverage to make sure we understand
`Session.scalar`, `Session.scalars`, `Session.execute` (and their async
equivalents), as well as `Result.tuples`, `Result.one_or_none`,
`Row._tuple`.
## Summary
This PR adds the possibility to write mdtests that specify external
dependencies in a `project` section of TOML blocks. For example, here is
a test that makes sure that we understand Pydantic's dataclass-transform
setup:
````markdown
```toml
[environment]
python-version = "3.12"
python-platform = "linux"
[project]
dependencies = ["pydantic==2.12.2"]
```
```py
from pydantic import BaseModel
class User(BaseModel):
id: int
name: str
user = User(id=1, name="Alice")
reveal_type(user.id) # revealed: int
reveal_type(user.name) # revealed: str
# error: [missing-argument] "No argument provided for required parameter
`name`"
invalid_user = User(id=2)
```
````
## How?
Using the `python-version` and the `dependencies` fields from the
Markdown section, we generate a `pyproject.toml` file, write it to a
temporary directory, and use `uv sync` to install the dependencies into
a virtual environment. We then copy the Python source files from that
venv's `site-packages` folder to a corresponding directory structure in
the in-memory filesystem. Finally, we configure the search paths
accordingly, and run the mdtest as usual.
I fully understand that there are valid concerns here:
* Doesn't this require network access? (yes, it does)
* Is this fast enough? (`uv` caching makes this almost unnoticeable,
actually)
* Is this deterministic? ~~(probably not, package resolution can depend
on the platform you're on)~~ (yes, hopefully)
For this reason, this first version is opt-in, locally. ~~We don't even
run these tests in CI (even though they worked fine in a previous
iteration of this PR).~~ You need to set `MDTEST_EXTERNAL=1`, or use the
new `-e/--enable-external` command line option of the `mdtest.py`
runner. For example:
```bash
# Skip mdtests with external dependencies (default):
uv run crates/ty_python_semantic/mdtest.py
# Run all mdtests, including those with external dependencies:
uv run crates/ty_python_semantic/mdtest.py -e
# Only run the `pydantic` tests. Use `-e` to make sure it is not skipped:
uv run crates/ty_python_semantic/mdtest.py -e pydantic
```
## Why?
I believe that this can be a useful addition to our testing strategy,
which lies somewhere between ecosystem tests and normal mdtests.
Ecosystem tests cover much more code, but they have the disadvantage
that we only see second- or third-order effects via diagnostic diffs. If
we unexpectedly gain or lose type coverage somewhere, we might not even
notice (assuming the gradual guarantee holds, and ecosystem code is
mostly correct). Another disadvantage of ecosystem checks is that they
only test checked-in code that is usually correct. However, we also want
to test what happens on wrong code, like the code that is momentarily
written in an editor, before fixing it. On the other end of the spectrum
we have normal mdtests, which have the disadvantage that they do not
reflect the reality of complex real-world code. We experience this
whenever we're surprised by an ecosystem report on a PR.
That said, these tests should not be seen as a replacement for either of
these things. For example, we should still strive to write detailed
self-contained mdtests for user-reported issues. But we might use this
new layer for regression tests, or simply as a debugging tool. It can
also serve as a tool to document our support for popular third-party
libraries.
## Test Plan
* I've been locally using this for a couple of weeks now.
* `uv run crates/ty_python_semantic/mdtest.py -e`
## Summary
As-is, a single-element tuple gets destructured via:
```rust
let arguments = if let ast::Expr::Tuple(tuple) = slice {
&*tuple.elts
} else {
std::slice::from_ref(slice)
};
```
But then, because it's a single element, we call
`infer_annotation_expression_impl`, passing in the tuple, rather than
the first element.
Closes https://github.com/astral-sh/ty/issues/1793.
Closes https://github.com/astral-sh/ty/issues/1768.
---------
Co-authored-by: Claude Opus 4.5 <noreply@anthropic.com>
This PR adds the same `minimal-size` profile as `uv` repo workspace has
```toml
# Profile to build a minimally sized binary for uv-build
[profile.minimal-size]
inherits = "release"
opt-level = "z"
# This will still show a panic message, we only skip the unwind
panic = "abort"
codegen-units = 1
```
but removes its `panic = "abort"` setting
- As discussed in #21825
Compared to the ones pre-built via `uv tool install`, this builds 35%
smaller ruff and 24% smaller ty binaries
(as measured
[here](https://github.com/lmmx/just-pre-commit/blob/master/refresh_binaries.sh))
## Summary
Closes: https://github.com/astral-sh/ty/issues/157
This PR adds support for the following capabilities involving a
`ParamSpec` type variable:
- Representing `P.args` and `P.kwargs` in the type system
- Matching against a callable containing `P` to create a type mapping
- Specializing `P` against the stored parameters
The value of a `ParamSpec` type variable is being represented using
`CallableType` with a `CallableTypeKind::ParamSpecValue` variant. This
`CallableTypeKind` is expanded from the existing `is_function_like`
boolean flag. An `enum` is used as these variants are mutually
exclusive.
For context, an initial iteration made an attempt to expand the
`Specialization` to use `TypeOrParameters` enum that represents that a
type variable can specialize into either a `Type` or `Parameters` but
that increased the complexity of the code as all downstream usages would
need to handle both the variants appropriately. Additionally, we'd have
also need to establish an invariant that a regular type variable always
maps to a `Type` while a paramspec type variable always maps to a
`Parameters`.
I've intentionally left out checking and raising diagnostics when the
`ParamSpec` type variable and it's components are not being used
correctly to avoid scope increase and it can easily be done as a
follow-up. This would also include the scoping rules which I don't think
a regular type variable implements either.
## Test Plan
Add new mdtest cases and update existing test cases.
Ran this branch on pyx, no new diagnostics.
### Ecosystem analysis
There's a case where in an annotated assignment like:
```py
type CustomType[P] = Callable[...]
def value[**P](...): ...
def another[**P](...):
target: CustomType[P] = value
```
The type of `value` is a callable and it has a paramspec that's bound to
`value`, `CustomType` is a type alias that's a callable and `P` that's
used in it's specialization is bound to `another`. Now, ty infers the
type of `target` same as `value` and does not use the declared type
`CustomType[P]`. [This is the
assignment](0980b9d9ab/src/async_utils/gen_transform.py (L108))
that I'm referring to which then leads to error in downstream usage.
Pyright and mypy does seem to use the declared type.
There are multiple diagnostics in `dd-trace-py` that requires support
for `cls`.
I'm seeing `Divergent` type for an example like which ~~I'm not sure
why, I'll look into it tomorrow~~ is because of a cycle as mentioned in
https://github.com/astral-sh/ty/issues/1729#issuecomment-3612279974:
```py
from typing import Callable
def decorator[**P](c: Callable[P, int]) -> Callable[P, str]: ...
@decorator
def func(a: int) -> int: ...
# ((a: int) -> str) | ((a: Divergent) -> str)
reveal_type(func)
```
I ~~need to look into why are the parameters not being specialized
through multiple decorators in the following code~~ think this is also
because of the cycle mentioned in
https://github.com/astral-sh/ty/issues/1729#issuecomment-3612279974 and
the fact that we don't support `staticmethod` properly:
```py
from contextlib import contextmanager
class Foo:
@staticmethod
@contextmanager
def method(x: int):
yield
foo = Foo()
# ty: Revealed type: `() -> _GeneratorContextManager[Unknown, None, None]` [revealed-type]
reveal_type(foo.method)
```
There's some issue related to `Protocol` that are generic over a
`ParamSpec` in `starlette` which might be related to
https://github.com/astral-sh/ty/issues/1635 but I'm not sure. Here's a
minimal example to reproduce:
<details><summary>Code snippet:</summary>
<p>
```py
from collections.abc import Awaitable, Callable, MutableMapping
from typing import Any, Callable, ParamSpec, Protocol
P = ParamSpec("P")
Scope = MutableMapping[str, Any]
Message = MutableMapping[str, Any]
Receive = Callable[[], Awaitable[Message]]
Send = Callable[[Message], Awaitable[None]]
ASGIApp = Callable[[Scope, Receive, Send], Awaitable[None]]
_Scope = Any
_Receive = Callable[[], Awaitable[Any]]
_Send = Callable[[Any], Awaitable[None]]
# Since `starlette.types.ASGIApp` type differs from `ASGIApplication` from `asgiref`
# we need to define a more permissive version of ASGIApp that doesn't cause type errors.
_ASGIApp = Callable[[_Scope, _Receive, _Send], Awaitable[None]]
class _MiddlewareFactory(Protocol[P]):
def __call__(
self, app: _ASGIApp, *args: P.args, **kwargs: P.kwargs
) -> _ASGIApp: ...
class Middleware:
def __init__(
self, factory: _MiddlewareFactory[P], *args: P.args, **kwargs: P.kwargs
) -> None:
self.factory = factory
self.args = args
self.kwargs = kwargs
class ServerErrorMiddleware:
def __init__(
self,
app: ASGIApp,
value: int | None = None,
flag: bool = False,
) -> None:
self.app = app
self.value = value
self.flag = flag
async def __call__(self, scope: Scope, receive: Receive, send: Send) -> None: ...
# ty: Argument to bound method `__init__` is incorrect: Expected `_MiddlewareFactory[(...)]`, found `<class 'ServerErrorMiddleware'>` [invalid-argument-type]
Middleware(ServerErrorMiddleware, value=500, flag=True)
```
</p>
</details>
### Conformance analysis
> ```diff
> -constructors_callable.py:36:13: info[revealed-type] Revealed type:
`(...) -> Unknown`
> +constructors_callable.py:36:13: info[revealed-type] Revealed type:
`(x: int) -> Unknown`
> ```
Requires return type inference i.e.,
https://github.com/astral-sh/ruff/pull/21551
> ```diff
> +constructors_callable.py:194:16: error[invalid-argument-type]
Argument is incorrect: Expected `list[T@__init__]`, found `list[Unknown
| str]`
> +constructors_callable.py:194:22: error[invalid-argument-type]
Argument is incorrect: Expected `list[T@__init__]`, found `list[Unknown
| str]`
> +constructors_callable.py:195:4: error[invalid-argument-type] Argument
is incorrect: Expected `list[T@__init__]`, found `list[Unknown | int]`
> +constructors_callable.py:195:9: error[invalid-argument-type] Argument
is incorrect: Expected `list[T@__init__]`, found `list[Unknown | str]`
> ```
I might need to look into why this is happening...
> ```diff
> +generics_defaults.py:79:1: error[type-assertion-failure] Type
`type[Class_ParamSpec[(str, int, /)]]` does not match asserted type
`<class 'Class_ParamSpec'>`
> ```
which is on the following code
```py
DefaultP = ParamSpec("DefaultP", default=[str, int])
class Class_ParamSpec(Generic[DefaultP]): ...
assert_type(Class_ParamSpec, type[Class_ParamSpec[str, int]])
```
It's occurring because there's no equivalence relationship defined
between `ClassLiteral` and `KnownInstanceType::TypeGenericAlias` which
is what these types are.
Everything else looks good to me!
When converting a class (whether specialized or not) into a `Callable`
type, we should carry through any generic context that the constructor
has. This includes both the generic context of the class itself (if it's
generic) and of the constructor methods (if they are separately
generic).
To help test this, this also updates the `generic_context` extension
function to work on `Callable` types and unions; and adds a new
`into_callable` extension function that works just like
`CallableTypeOf`, but on value forms instead of type forms.
Pulled this out of #21551 for separate review.
## Summary
Closes https://github.com/astral-sh/ty/issues/957
As explained in https://github.com/astral-sh/ty/issues/957, literal
union types for recursively defined values can be widened early to
speed up the convergence of fixed-point iterations.
This PR achieves this by embedding a marker in `UnionType` that
distinguishes whether a value is recursively defined.
This also allows us to identify values that are not recursively
defined, so I've increased the limit on the number of elements in a
literal union type for such values.
Edit: while this PR doesn't provide the significant performance
improvement initially hoped for, it does have the benefit of allowing
the number of elements in a literal union to be raised above the salsa
limit, and indeed mypy_primer results revealed that a literal union of
220 elements was actually being used.
## Test Plan
`call/union.md` has been updated
Fixes https://github.com/astral-sh/ty/issues/1587
## Summary
Perform cycle normalization on typevar bounds and constraints (similar
to how it was already done for typevar defaults) in order to ensure
convergence in cyclic cases.
There might be another fix here that could avoid the cycle in many more
cases, where we don't eagerly evaluate typevar bounds/constraints on
explicit specialization, but just accept the given specialization and
later evaluate to see whether we need to emit a diagnostic on it. But
the current fix here is sufficient to solve the problem and matches the
patterns we use to ensure cycle convergence elsewhere, so it seems good
for now; left a TODO for the other idea.
This fix is sufficient to make us not panic, but not sufficient to get
the semantics fully correct; see the TODOs in the tests. I have ideas
for fixing that as well, but it seems worth at least getting this in to
fix the panic.
## Test Plan
Test that previously panicked now does not.
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
This makes auto-import include modules in suggestions.
In this initial implementation, we permit this to include submodules as
well. This is in contrast to what we do in `import ...` completions.
It's easy to change this behavior, but I think it'd be interesting to
run with this for now to see how well it works.
The existing importer functionality always required
an import request with a module and a member in that
module. But we want to be able to insert import statements
for a module itself and not any members in the module.
This is basically changing `member: &str` to an
`Option<&str>` and fixing the fallout in a way that
makes sense for module-only imports.
I think changes to this value are generally noise. It's hard to tell
what it means and it isn't especially actionable. We already have an
eval running in CI for completion ranking, so I don't think it's
terribly important to care about ranking here in e2e tests _generally_.
A completion lacking a module reference doesn't necessarily mean that
the symbol is defined within the current module. I believe the intent
here is that it means that no import is required to use it.
These are all improvements here with one slight regression on
`reveal_type` ranking. The previous completions offered were:
```
$ cargo r -q -p ty_completion_eval show-one ty-extensions-lower-stdlib
ENOTRECOVERABLE (module: errno)
REG_WHOLE_HIVE_VOLATILE (module: winreg)
SQLITE_NOTICE_RECOVER_WAL (module: _sqlite3)
SupportsGetItemViewable (module: _typeshed)
removeHandler (module: unittest.signals)
reveal_mro (module: ty_extensions)
reveal_protocol_interface (module: ty_extensions)
reveal_type (module: typing) (*, 8/10)
_remove_original_values (module: _osx_support)
_remove_universal_flags (module: _osx_support)
-----
found 10 completions
```
And now they are:
```
$ cargo r -q -p ty_completion_eval show-one ty-extensions-lower-stdlib
ENOTRECOVERABLE (module: errno)
REG_WHOLE_HIVE_VOLATILE (module: winreg)
SQLITE_NOTICE_RECOVER_WAL (module: sqlite3)
SQLITE_NOTICE_RECOVER_WAL (module: sqlite3.dbapi2)
removeHandler (module: unittest)
removeHandler (module: unittest.signals)
reveal_mro (module: ty_extensions)
reveal_protocol_interface (module: ty_extensions)
reveal_type (module: typing) (*, 9/9)
-----
found 9 completions
```
Some completions were removed (because they are now considered
unexported) and some were added (likely do to better re-export support).
This particular case probably warrants more special attention anyway.
So I think this is fine. (It's only a one-ranking regression.)
This applies recursively. So if *any* component of a module name starts
with a `_`, then symbols from that module are excluded from auto-import.
The exception is when it's a module within first party code. Then we
want to include it in auto-import.
Note that the `Deprecated` symbols from `importlib.metadata` are no
longer offered because 1) `importlib.metadata` defined `__all__` and 2)
the `Deprecated` symbols aren't in it. These seem to not be a part of
its public API according to the docs, so this seems right to me.
This commit (mostly) re-implements the support for `__all__` in
ty-proper, but inside the auto-import AST scanner.
When `__all__` isn't present in a module, we fall back to conventions to
determine whether a symbol is exported or not:
https://docs.python.org/3/library/index.html
However, in keeping with current practice for non-auto-import
completions, we continue to provide sunder and dunder names as
re-exports.
When `__all__` is present, we respect it strictly. That is, a symbol is
exported *if and only if* it's in `__all__`. This is somewhat stricter
than pylance seemingly is. I felt like it was a good idea to start here,
and we can relax it based on user demand (perhaps through a setting).
This simplifies the existing visitor by DRYing it up slightly.
We also add tests for the existing functionality. In particular,
we want to add support for re-export conventions, and that
warrants more careful testing.
## Summary
I realized we don't really test `DefinitionKind::ImportFromSubmodule` in
the IDE at all, so here's a bunch of them, just recording our current
behaviour.
## Test Plan
*stares at the camera*
## Summary
I have no idea what I'm doing with the fix (all the interesting stuff is
in the second commit).
The basic problem is the compiler emits the diagnostic:
```
x: "foobar"
^^^^^^
```
Which the suppression code-action hands the end of to `Tokens::after`
which then panics because that function panics if handed an offset that
is in the middle of a token.
Fixes https://github.com/astral-sh/ty/issues/1748
## Test Plan
Many tests added (only the e2e test matters).
## Summary
This makes an importing file a required argument to module resolution,
and if the fast-path cached query fails to resolve the module, take the
slow-path uncached (could be cached if we want)
`desperately_resolve_module` which will walk up from the importing file
until it finds a `pyproject.toml` (arbitrary decision, we could try
every ancestor directory), at which point it takes one last desperate
attempt to use that directory as a search-path. We do not continue
walking up once we've found a `pyproject.toml` (arbitrary decision, we
could keep going up).
Running locally, this fixes every broken-for-workspace-reasons import in
pyx's workspace!
* Fixes https://github.com/astral-sh/ty/issues/1539
* Improves https://github.com/astral-sh/ty/issues/839
## Test Plan
The workspace tests see a huge improvement on most absolute imports.
Fixes https://github.com/astral-sh/ty/issues/1716.
## Test plan
I added a corpus snippet that causes us to panic on `main` (I tested by
running `cargo run -p ty_python_semantic --test=corpus` without the fix
applied).
## Summary
This PR re-implements [return-in-generator
(B901)](https://docs.astral.sh/ruff/rules/return-in-generator/#return-in-generator-b901)
for async generators as a semantic syntax error. This is not a syntax
error for sync generators, so we'll need to preserve both the lint rule
and the syntax error in this case.
It also updates B901 and the new implementation to catch cases where the
generator's `yield` or `yield from` expression is part of another
statement, as in:
```py
def foo():
return (yield)
```
These were previously not caught because we only looked for
`Stmt::Expr(Expr::Yield)` in `visit_stmt` instead of visiting `yield`
expressions directly. I think this modification is within the spirit of
the rule and safe to try out since the rule is in preview.
## Test Plan
<!-- How was it tested? -->
I have written tests as directed in #17412
---------
Signed-off-by: 11happy <soni5happy@gmail.com>
Signed-off-by: 11happy <bhuminjaysoni@gmail.com>
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
Co-authored-by: Brent Westbrook <36778786+ntBre@users.noreply.github.com>
## Summary
Star-imports can not just affect the state of symbols that they pull in,
they can also affect the state of members that are associated with those
symbols. For example, if `obj.attr` was previously narrowed from `int |
None` to `int`, and a star-import now overwrites `obj`, then the
narrowing on `obj.attr` should be "reset".
This PR keeps track of the state of associated members during star
imports and properly models the flow of their corresponding state
through the control flow structure that we artificially create for
star-imports.
See [this
comment](https://github.com/astral-sh/ty/issues/1355#issuecomment-3607125005)
for an explanation why this caused ty to see certain `asyncio` symbols
as not being accessible on Python 3.14.
closes https://github.com/astral-sh/ty/issues/1355
## Ecosystem impact
```diff
async-utils (https://github.com/mikeshardmind/async-utils)
- src/async_utils/bg_loop.py:115:31: error[invalid-argument-type] Argument to bound method `set_task_factory` is incorrect: Expected `_TaskFactory | None`, found `def eager_task_factory[_T_co](loop: AbstractEventLoop | None, coro: Coroutine[Any, Any, _T_co@eager_task_factory], *, name: str | None = None, context: Context | None = None) -> Task[_T_co@eager_task_factory]`
- Found 30 diagnostics
+ Found 29 diagnostics
mitmproxy (https://github.com/mitmproxy/mitmproxy)
+ mitmproxy/utils/asyncio_utils.py:96:60: warning[unused-ignore-comment] Unused blanket `type: ignore` directive
- test/conftest.py:37:31: error[invalid-argument-type] Argument to bound method `set_task_factory` is incorrect: Expected `_TaskFactory | None`, found `def eager_task_factory[_T_co](loop: AbstractEventLoop | None, coro: Coroutine[Any, Any, _T_co@eager_task_factory], *, name: str | None = None, context: Context | None = None) -> Task[_T_co@eager_task_factory]`
```
All of these seem to be correct, they give us a different type for
`asyncio` symbols that are now imported from different
`sys.version_info` branches (where we previously failed to recognize
some of these as statically true/false).
```diff
dd-trace-py (https://github.com/DataDog/dd-trace-py)
- ddtrace/contrib/internal/asyncio/patch.py:39:12: error[invalid-argument-type] Argument to function `unwrap` is incorrect: Expected `WrappedFunction`, found `def create_task[_T](self, coro: Coroutine[Any, Any, _T@create_task] | Generator[Any, None, _T@create_task], *, name: object = None) -> Task[_T@create_task]`
+ ddtrace/contrib/internal/asyncio/patch.py:39:12: error[invalid-argument-type] Argument to function `unwrap` is incorrect: Expected `WrappedFunction`, found `def create_task[_T](self, coro: Generator[Any, None, _T@create_task] | Coroutine[Any, Any, _T@create_task], *, name: object = None) -> Task[_T@create_task]`
```
Similar, but only results in a diagnostic change.
## Test Plan
Added a regression test
This fixes a non-determinism that we were seeing in the constraint set
tests in https://github.com/astral-sh/ruff/pull/21715.
In this test, we create the following constraint set, and then try to
create a specialization from it:
```
(T@constrained_by_gradual_list = list[Base])
∨
(Bottom[list[Any]] ≤ T@constrained_by_gradual_list ≤ Top[list[Any]])
```
That is, `T` is either specifically `list[Base]`, or it's any `list`.
Our current heuristics say that, absent other restrictions, we should
specialize `T` to the more specific type (`list[Base]`).
In the correct test output, we end up creating a BDD that looks like
this:
```
(T@constrained_by_gradual_list = list[Base])
┡━₁ always
└─₀ (Bottom[list[Any]] ≤ T@constrained_by_gradual_list ≤ Top[list[Any]])
┡━₁ always
└─₀ never
```
In the incorrect output, the BDD looks like this:
```
(Bottom[list[Any]] ≤ T@constrained_by_gradual_list ≤ Top[list[Any]])
┡━₁ always
└─₀ never
```
The difference is the ordering of the two individual constraints. Both
constraints appear in the first BDD, but the second BDD only contains `T
is any list`. If we were to force the second BDD to contain both
constraints, it would look like this:
```
(Bottom[list[Any]] ≤ T@constrained_by_gradual_list ≤ Top[list[Any]])
┡━₁ always
└─₀ (T@constrained_by_gradual_list = list[Base])
┡━₁ always
└─₀ never
```
This is the standard shape for an OR of two constraints. However! Those
two constraints are not independent of each other! If `T` is
specifically `list[Base]`, then it's definitely also "any `list`". From
that, we can infer the contrapositive: that if `T` is not any list, then
it cannot be `list[Base]` specifically. When we encounter impossible
situations like that, we prune that path in the BDD, and treat it as
`false`. That rewrites the second BDD to the following:
```
(Bottom[list[Any]] ≤ T@constrained_by_gradual_list ≤ Top[list[Any]])
┡━₁ always
└─₀ (T@constrained_by_gradual_list = list[Base])
┡━₁ never <-- IMPOSSIBLE, rewritten to never
└─₀ never
```
We then would see that that BDD node is redundant, since both of its
outgoing edges point at the `never` node. Our BDDs are _reduced_, which
means we have to remove that redundant node, resulting in the BDD we saw
above:
```
(Bottom[list[Any]] ≤ T@constrained_by_gradual_list ≤ Top[list[Any]])
┡━₁ always
└─₀ never <-- redundant node removed
```
The end result is that we were "forgetting" about the `T = list[Base]`
constraint, but only for some BDD variable orderings.
To fix this, I'm leaning in to the fact that our BDDs really do need to
"remember" all of the constraints that they were created with. Some
combinations might not be possible, but we now have the sequent map,
which is quite good at detecting and pruning those.
So now our BDDs are _quasi-reduced_, which just means that redundant
nodes are allowed. (At first I was worried that allowing redundant nodes
would be an unsound "fix the glitch". But it turns out they're real!
[This](https://ieeexplore.ieee.org/abstract/document/130209) is the
paper that introduces them, though it's very difficult to read. Knuth
mentions them in §7.1.4 of
[TAOCP](https://course.khoury.northeastern.edu/csu690/ssl/bdd-knuth.pdf),
and [this paper](https://par.nsf.gov/servlets/purl/10128966) has a nice
short summary of them in §2.)
While we're here, I've added a bunch of `debug` and `trace` level log
messages to the constraint set implementation. I was getting tired of
having to add these by hands over and over. To enable them, just set
`TY_LOG` in your environment, e.g.
```sh
env TY_LOG=ty_python_semantic::types::constraints::SequentMap=trace ty check ...
```
[Note, this has an `internal` label because are still not using
`specialize_constrained` in anything user-facing yet.]
## Summary
For a type alias like the one below, where `UnknownClass` is something
with a dynamic type, we previously lost track of the fact that this
dynamic type was explicitly specialized *with a type variable*. If that
alias is then later explicitly specialized itself (`MyAlias[int]`), we
would miscount the number of legacy type variables and emit a
`invalid-type-arguments` diagnostic
([playground](https://play.ty.dev/886ae6cc-86c3-4304-a365-510d29211f85)).
```py
T = TypeVar("T")
MyAlias: TypeAlias = UnknownClass[T] | None
```
The solution implemented here is not pretty, but we can hopefully get
rid of it via https://github.com/astral-sh/ty/issues/1711. Also, once we
properly support `ParamSpec` and `Concatenate`, we should be able to
remove some of this code.
This addresses many of the `invalid-type-arguments` false-positives in
https://github.com/astral-sh/ty/issues/1685. With this change, there are
still some diagnostics of this type left. Instead of implementing even
more (rather sophisticated) workarounds for these cases as well, it
might be much easier to wait for full `ParamSpec`/`Concatenate` support
and then try again.
A disadvantage of this implementation is that we lose track of some
`@Todo` types and replace them with `Unknown`. We could spend more
effort and try to preserve them, but I'm unsure if this is the best use
of our time right now.
## Test Plan
New Markdown tests.
## Summary
Implement default-specialization of generic type aliases (implicit or
PEP-613) if they are used in a type expression without an explicit
specialization.
closes https://github.com/astral-sh/ty/issues/1690
## Typing conformance
```diff
-generics_defaults_specialization.py:26:5: error[type-assertion-failure] Type `SomethingWithNoDefaults[int, str]` does not match asserted type `SomethingWithNoDefaults[int, DefaultStrT]`
```
That's exactly what we want ✔️
All other tests in this file pass as well, with the exception of this
assertion, which is just wrong (at least according to our
interpretation, `type[Bar] != <class 'Bar'>`). I checked that we do
correctly default-specialize the type parameter which is not displayed
in the diagnostic that we raise.
```py
class Bar(SubclassMe[int, DefaultStrT]): ...
assert_type(Bar, type[Bar[str]]) # ty: Type `type[Bar[str]]` does not match asserted type `<class 'Bar'>`
```
## Ecosystem impact
Looks like I should have included this last week 😎
## Test Plan
Updated pre-existing tests and add a few new ones.
## Summary
This PR implements syntax error where a default type parameter is
followed by a non-default type parameter.
https://github.com/astral-sh/ruff/issues/17412#issuecomment-3584088217
## Test Plan
I have written inline tests as directed in #17412
---------
Signed-off-by: 11happy <bhuminjaysoni@gmail.com>
Signed-off-by: 11happy <soni5happy@gmail.com>
This adds a new `suppression` module to the `ruff_linter` crate, similar
to the suppression
module for ty, to parse comments for ruff suppression directives, such
as `# ruff: disable[CODE]`.
## Summary
Fixes#21750 and a related bug in `PLE1142`. We were not properly
considering generators to be valid `await` contexts, which caused the
`F704` issue. One of the tests I added for this also uncovered an issue
in `PLE1142` for comprehensions nested within async generators because
we were only checking the current scope rather than traversing the
nested context.
## Test Plan
Both of these rules are implemented as semantic syntax errors, so I
added tests (and fixes) in both Ruff and ty.
In the following example, there are two occurrences of `typing.Self`,
one for `Foo.foo` and one for `Bar.bar`:
```py
from typing import Self, reveal_type
class Foo[T]:
def foo(self: Self) -> T:
raise NotImplementedError
class Bar:
def bar(self: Self, x: Foo[Self]):
# SHOULD BE: bound method Foo[Self@bar].foo() -> Self@bar
# revealed: bound method Foo[Self@bar].foo() -> Foo[Self@bar]
reveal_type(x.foo)
def f[U: Bar](x: Foo[U]):
# revealed: bound method Foo[U@f].foo() -> U@f
reveal_type(x.foo)
```
When accessing a bound method, we replace any occurrences of `Self` with
the bound `self` type.
We were doing this correctly for the second reveal. We would first apply
the specialization, getting `(self: Self@foo) -> U@F` as the signature
of `x.foo`. We would then bind the `self` parameter, substituting
`Self@foo` with `Foo[U@F]` as part of that. The return type was already
specialized to `U@F`, so that substitution had no further affect on the
type that we revealed.
In the first reveal, we would follow the same process, but we confused
the two occurrences of `Self`. We would first apply the specialization,
getting `(self: Self@foo) -> Self@bar` as the method signature. We would
then try to bind the `self` parameter, substituting `Self@foo` with
`Foo[Self@bar]`. However, because we didn't distinguish the two separate
`Self`s, and applied the substitution to the return type as well as to
the `self` parameter.
The fix is to track which particular `Self` we're trying to substitute
when applying the type mapping.
Fixes https://github.com/astral-sh/ty/issues/1713
Here are a bunch of (variously failing and passing) mdtests that reflect
the kinds of issues people encounter when running ty over an entire
workspace without sufficient hand-holding (especially because in the IDE
it is unclear *how* to provide that hand-holding).
The `Display` implementation for constraint sets is brittle, and
deserves a rethink. But later! It's perfectly fine for printf debugging;
we just shouldn't be writing mdtests that depend on any particular
rendering details. Most of these tests can be replaced with an
equivalence check that actually validates that the _behavior_ of two
constraint sets are identical.
## Summary
Fixes false positives in SIM222 and SIM223 where truthiness was
incorrectly assumed for `tuple(x)`, `list(x)`, `set(x)` when `x` is not
iterable.
Fixes#21473.
## Problem
`Truthiness::from_expr` recursively called itself on arguments to
iterable initializers (`tuple`, `list`, `set`) without checking if the
argument is iterable, causing false positives for cases like `tuple(0)
or True` and `tuple("") or True`.
## Approach
Added `is_definitely_not_iterable` helper and updated
`Truthiness::from_expr` to return `Unknown` for non-iterable arguments
(numbers, booleans, None) and string literals when called with iterable
initializers, preventing incorrect truthiness assumptions.
## Test Plan
Added test cases to `SIM222.py` and `SIM223.py` for `tuple("")`,
`tuple(0)`, `tuple(1)`, `tuple(False)`, and `tuple(None)` with `or True`
and `and False` patterns.
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
## Summary
Marks fixes as unsafe when they change return types (`None` → `Path`,
`str`/`bytes` → `Path`, `str` → `Path`), except when the call is a
top-level expression.
Fixes#21431.
## Problem
Fixes for `os.rename`, `os.replace`, `os.getcwd`/`os.getcwdb`, and
`os.readlink` were marked safe despite changing return types, which can
break code that uses the return value.
## Approach
Added `is_top_level_expression_call` helper to detect when a call is a
top-level expression (return value unused). Updated
`check_os_pathlib_two_arg_calls` and `check_os_pathlib_single_arg_calls`
to mark fixes as unsafe unless the call is a top-level expression.
Updated PTH109 to use the helper for applicability determination.
## Test Plan
Updated snapshots for `preview_full_name.py`, `preview_import_as.py`,
`preview_import_from.py`, and `preview_import_from_as.py` to reflect
unsafe markers.
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
Previously, the code action to do auto-import on a pre-existing symbol
assumed that the auto-importer would always generate an import
statement. But sometimes an import statement already exists.
A good example of this is the following snippet:
```
import warnings
@deprecated
def myfunc(): pass
```
Specifically, `deprecated` exists in `warnings` but isn't currently
imported. A code action to fix this could feasibly do two
transformations here. One is:
```
import warnings
@warnings.deprecated
def myfunc(): pass
```
Another is:
```
from warnings import deprecated
import warnings
@deprecated
def myfunc(): pass
```
The existing auto-import infrastructure chooses the former, since it
reuses a pre-existing import statement. But this PR chooses the latter
for the case of a code action. I'm not 100% sure this is the correct
choice, but it seems to defer more strongly to what the user has typed.
That is, that they want to use it unqualified because it's what has been
typed. So we should add the necessary import statement to make that
work.
Fixesastral-sh/ty#1668
This works by adding a third module resolution mode that lets the caller
opt into _some_ shadowing of modules that is otherwise not allowed (for
`typing` and `typing_extensions`).
Fixesastral-sh/ty#1658
## Summary
If you manage to create an `typing.GenericAlias` instance without us
knowing how that was created, then we don't know what to do with this in
a type annotation. So it's better to be explicit and show an error
instead of failing silently with a `@Todo` type.
## Test Plan
* New Markdown tests
* Zero ecosystem impact
## Summary
We had tests for this already, but they used generic classes that were
bivariant in their type parameter, and so this case wasn't captured.
closes https://github.com/astral-sh/ty/issues/1702
## Test Plan
Updated Markdown tests
## Summary
These projects from `mypy_primer` were missing from both `good.txt` and
`bad.txt` for some reason. I thought about writing a script that would
verify that `good.txt` + `bad.txt` = `mypy_primer.projects`, but that's
not completely trivial since there are projects like `cpython` only
appear once in `good.txt`. Given that we can hopefully soon get rid of
both of these files (and always run on all projects), it's probably not
worth the effort. We are usually notified of all `mypy_primer` changes.
## Test Plan
CI on this PR
## Summary
The exact behavior around what's allowed vs. disallowed was partly
detected through trial and error in the runtime.
I was a little confused by [this
comment](https://github.com/python/cpython/pull/129352) that says
"`NamedTuple` subclasses cannot be inherited from" because in practice
that doesn't appear to error at runtime.
Closes [#1683](https://github.com/astral-sh/ty/issues/1683).
## Summary
This is another small refactor for
https://github.com/astral-sh/ruff/pull/21445 that splits the single
`paramspec.md` into `generics/legacy/paramspec.md` and
`generics/pep695/paramspec.md`.
## Test Plan
Make sure that all mdtests pass.
## Summary
Add support for generic PEP 613 type aliases and generic implicit type
aliases:
```py
from typing import TypeVar
T = TypeVar("T")
ListOrSet = list[T] | set[T]
def _(xs: ListOrSet[int]):
reveal_type(xs) # list[int] | set[int]
```
closes https://github.com/astral-sh/ty/issues/1643
closes https://github.com/astral-sh/ty/issues/1629
closes https://github.com/astral-sh/ty/issues/1596
closes https://github.com/astral-sh/ty/issues/573
closes https://github.com/astral-sh/ty/issues/221
## Typing conformance
```diff
-aliases_explicit.py:52:5: error[type-assertion-failure] Type `list[int]` does not match asserted type `@Todo(specialized generic alias in type expression)`
-aliases_explicit.py:53:5: error[type-assertion-failure] Type `tuple[str, ...] | list[str]` does not match asserted type `@Todo(Generic specialization of types.UnionType)`
-aliases_explicit.py:54:5: error[type-assertion-failure] Type `tuple[int, int, int, str]` does not match asserted type `@Todo(specialized generic alias in type expression)`
-aliases_explicit.py:56:5: error[type-assertion-failure] Type `(int, str, /) -> str` does not match asserted type `@Todo(Generic specialization of typing.Callable)`
-aliases_explicit.py:59:5: error[type-assertion-failure] Type `int | str | None | list[list[int]]` does not match asserted type `int | str | None | list[@Todo(specialized generic alias in type expression)]`
```
New true negatives ✔️
```diff
+aliases_explicit.py:41:36: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
-aliases_explicit.py:57:5: error[type-assertion-failure] Type `(int, str, str, /) -> None` does not match asserted type `@Todo(Generic specialization of typing.Callable)`
+aliases_explicit.py:57:5: error[type-assertion-failure] Type `(int, str, str, /) -> None` does not match asserted type `(...) -> Unknown`
```
These require `ParamSpec`
```diff
+aliases_explicit.py:67:24: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
+aliases_explicit.py:68:24: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
+aliases_explicit.py:69:29: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
+aliases_explicit.py:70:29: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
+aliases_explicit.py:71:29: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
+aliases_explicit.py:102:20: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
```
New true positives ✔️
```diff
-aliases_implicit.py:63:5: error[type-assertion-failure] Type `list[int]` does not match asserted type `@Todo(specialized generic alias in type expression)`
-aliases_implicit.py:64:5: error[type-assertion-failure] Type `tuple[str, ...] | list[str]` does not match asserted type `@Todo(Generic specialization of types.UnionType)`
-aliases_implicit.py:65:5: error[type-assertion-failure] Type `tuple[int, int, int, str]` does not match asserted type `@Todo(specialized generic alias in type expression)`
-aliases_implicit.py:67:5: error[type-assertion-failure] Type `(int, str, /) -> str` does not match asserted type `@Todo(Generic specialization of typing.Callable)`
-aliases_implicit.py:70:5: error[type-assertion-failure] Type `int | str | None | list[list[int]]` does not match asserted type `int | str | None | list[@Todo(specialized generic alias in type expression)]`
-aliases_implicit.py:71:5: error[type-assertion-failure] Type `list[bool]` does not match asserted type `@Todo(specialized generic alias in type expression)`
```
New true negatives ✔️
```diff
+aliases_implicit.py:54:36: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
-aliases_implicit.py:68:5: error[type-assertion-failure] Type `(int, str, str, /) -> None` does not match asserted type `@Todo(Generic specialization of typing.Callable)`
+aliases_implicit.py:68:5: error[type-assertion-failure] Type `(int, str, str, /) -> None` does not match asserted type `(...) -> Unknown`
```
These require `ParamSpec`
```diff
+aliases_implicit.py:76:24: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
+aliases_implicit.py:77:24: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
+aliases_implicit.py:78:29: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
+aliases_implicit.py:79:29: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
+aliases_implicit.py:80:29: error[invalid-type-arguments] Too many type arguments: expected 1, got 2
+aliases_implicit.py:81:25: error[invalid-type-arguments] Type `str` is not assignable to upper bound `int | float` of type variable `TFloat@GoodTypeAlias12`
+aliases_implicit.py:135:20: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
```
New true positives ✔️
```diff
+callables_annotation.py:172:19: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
+callables_annotation.py:175:19: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
+callables_annotation.py:188:25: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
+callables_annotation.py:189:25: error[invalid-type-arguments] Too many type arguments: expected 0, got 1
```
These require `ParamSpec` and `Concatenate`.
```diff
-generics_defaults_specialization.py:26:5: error[type-assertion-failure] Type `SomethingWithNoDefaults[int, str]` does not match asserted type `SomethingWithNoDefaults[int, typing.TypeVar]`
+generics_defaults_specialization.py:26:5: error[type-assertion-failure] Type `SomethingWithNoDefaults[int, str]` does not match asserted type `SomethingWithNoDefaults[int, DefaultStrT]`
```
Favorable diagnostic change ✔️
```diff
-generics_defaults_specialization.py:27:5: error[type-assertion-failure] Type `SomethingWithNoDefaults[int, bool]` does not match asserted type `@Todo(specialized generic alias in type expression)`
```
New true negative ✔️
```diff
-generics_defaults_specialization.py:30:1: error[non-subscriptable] Cannot subscript object of type `<class 'SomethingWithNoDefaults[int, typing.TypeVar]'>` with no `__class_getitem__` method
+generics_defaults_specialization.py:30:15: error[invalid-type-arguments] Too many type arguments: expected between 0 and 1, got 2
```
Correct new diagnostic ✔️
```diff
-generics_variance.py:175:25: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:175:35: error[non-subscriptable] Cannot subscript object of type `<class 'Co[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:179:29: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:179:39: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:183:21: error[non-subscriptable] Cannot subscript object of type `<class 'Co[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:183:27: error[non-subscriptable] Cannot subscript object of type `<class 'Co[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:187:25: error[non-subscriptable] Cannot subscript object of type `<class 'Co[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:187:31: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:191:33: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:191:43: error[non-subscriptable] Cannot subscript object of type `<class 'Co[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:191:49: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:196:5: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:196:15: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
-generics_variance.py:196:25: error[non-subscriptable] Cannot subscript object of type `<class 'Contra[typing.TypeVar]'>` with no `__class_getitem__` method
```
One of these should apparently be an error, but not of this kind, so
this is good ✔️
```diff
-specialtypes_type.py:152:16: error[invalid-type-form] `typing.TypeVar` is not a generic class
-specialtypes_type.py:156:16: error[invalid-type-form] `typing.TypeVar` is not a generic class
```
Good, those were false positives. ✔️
I skipped the analysis for everything involving `TypeVarTuple`.
## Ecosystem impact
**[Full report with detailed
diff](https://david-generic-implicit-alias.ecosystem-663.pages.dev/diff)**
Previous iterations of this PR showed all kinds of problems. In it's
current state, I do not see any large systematic problems, but it is
hard to tell with 5k diagnostic changes.
## Performance
* There is a huge 4x regression in `colour-science/colour`, related to
[this large
file](https://github.com/colour-science/colour/blob/develop/colour/io/luts/tests/test_lut.py)
with [many assignments of hard-coded arrays (lists of lists) to
`np.NDArray`
types](83e754c8b6/colour/io/luts/tests/test_lut.py (L701-L781))
that we now understand. We now take ~2 seconds to check this file, so
definitely not great, but maybe acceptable for now.
## Test Plan
Updated and new Markdown tests
## Summary
This is a bugfix for subtyping of `type[Any]` / `type[T]` and protocols.
## Test Plan
Regression test that will only be really meaningful once
https://github.com/astral-sh/ruff/pull/21553 lands.
## Summary
**This is the final goto-targets with missing
goto-definition/declaration implementations!
You can now theoretically click on all the user-defined names in all the
syntax. 🎉**
This adds:
* goto definition/declaration on patterns/typevars
* find-references/rename on patterns/typevars
* fixes syntax highlighting of `*rest` patterns
This notably *does not* add:
* goto-type for patterns/typevars
* hover for patterns/typevars (because that's just goto-type for names)
Also I realized we were at the precipice of one of the great GotoTarget
sins being resolved, and so I made import aliases also resolve to a
ResolvedDefinition. This removes a ton of cruft and prevents further
backsliding.
Note however that import aliases are, in general, completely jacked up
when it comes to find-references/renames (both before and after this
PR). Previously you could try to rename an import alias and it just
wouldn't do anything. With this change we instead refuse to even let you
try to rename it.
Sorting out why import aliases are jacked up is an ongoing thing I hope
to handle in a followup.
## Test Plan
You'll surely not regret checking in 86 snapshot tests
## Summary
* Fixes https://github.com/astral-sh/ty/issues/1650
* Part of https://github.com/astral-sh/ty/issues/1610
We now handle:
* `.. warning::` (and friends) by bolding the line and rendering the
block as normal (non-code) text
* `.. code::` (and friends) by treating it the same as `::` (fully
deleted if seen, introduce a code block)
* `.. code:: lang` (and friends) by letting it set the language on the
codefence
* `.. versionchanged:: 1.2.3` (and friends) by rendering it like
`warning` but with the version included and italicized
* `.. dsfsdf-unknown:: (lang)` by assuming it's the same as `.. code::
(lang)`
## Test Plan
Snapshots added/updated. I also deleted a bunch of useless checks on
plaintext rendering. It's important for some edge-case tests but not for
the vast majority of tests.
## Summary
This PR adds a new `db` parameter to `Parameters::new` for
https://github.com/astral-sh/ruff/pull/21445. This change creates a
large diff so thought to split it out as it's just a mechanical change.
The `Parameters::new` method not only creates the `Parameters` but also
analyses the parameters to check what kind it is. For `ParamSpec`
support, it's going to require the `db` to check whether the annotated
type is `ParamSpec` or not. For the current set of parameters that isn't
required because it's only checking whether it's dynamic or not which
doesn't require `db`.
## Summary
Pulls in an ecosystem-analyzer change with a few updates to the diff
report:
* Breakdown of added/removed/changed diagnostics by project
* Option to filter diagnostics by project
* Small button to copy a file path to the clipboard
* `(-R +A ~C)` indicators in the filter dropdowns (removed, added,
changed)
* More concise layout, less scrolling
## Test Plan
Tested on https://github.com/astral-sh/ruff/pull/21553 =>
https://david-generic-implicit-alias.ecosystem-663.pages.dev/diff
## Summary
Originally I planned to feed this in as a `fix` but I realized that we
probably don't want to be trying to resolve import suggestions while
we're doing type inference. Thus I implemented this as a fallback when
there's no fixes on a diagnostic, which can use the full lsp machinery.
Fixes https://github.com/astral-sh/ty/issues/1552
## Test Plan
Works in the IDE, added some e2e tests.
## Summary
Previously if an explicit specialization failed (e.g. wrong number of
type arguments or violates an upper bound) we just inferred `Unknown`
for the entire type. This actually caused us to panic on an a case of a
recursive upper bound with invalid specialization; the upper bound would
oscillate indefinitely in fixpoint iteration between `Unknown` and the
given specialization. This could be fixed with a cycle recovery
function, but in this case there's a simpler fix: if we infer
`C[Unknown]` instead of `Unknown` for an invalid attempt to specialize
`C`, that allows fixpoint iteration to quickly converge, as well as
giving a more precise type inference.
Other type checkers actually just go with the attempted specialization
even if it's invalid. So if `C` has a type parameter with upper bound
`int`, and you say `C[str]`, they'll emit a diagnostic but just go with
`C[str]`. Even weirder, if `C` has a single type parameter and you say
`C[str, bytes]`, they'll just go with `C[str]` as the type. I'm not
convinced by this approach; it seems odd to have specializations
floating around that explicitly violate the declared upper bound, or in
the latter case aren't even the specialization the annotation requested.
I prefer `C[Unknown]` for this case.
Fixing this revealed an issue with `collections.namedtuple`, which
returns `type[tuple[Any, ...]]`. Due to
https://github.com/astral-sh/ty/issues/1649 we consider that to be an
invalid specialization. So previously we returned `Unknown`; after this
PR it would be `type[tuple[Unknown]]`, leading to more false positives
from our lack of functional namedtuple support. To avoid that I added an
explicit Todo type for functional namedtuples for now.
## Test Plan
Added and updated mdtests.
The conformance suite changes have to do with `ParamSpec`, so no
meaningful signal there.
The ecosystem changes appear to be the expected effects of having more
precise type information (including occurrences of known issues such as
https://github.com/astral-sh/ty/issues/1495 ). Most effects are just
changes to types in diagnostics.
## Summary
Lots of Ruff rules encourage you to make changes that might then cause
ty to start complaining about Liskov violations. Most of these Ruff
rules already refrain from complaining about a method if they see that
the method is decorated with `@override`, but this usually isn't
documented. This PR updates the docs of many Ruff rules to note that
they refrain from complaining about `@override`-decorated methods, and
also adds a similar note to the ty `invalid-method-override`
documentation.
Helps with
https://github.com/astral-sh/ty/issues/1644#issuecomment-3581663859
## Test Plan
- `uvx prek run -a` locally
- CI on this PR
## Summary
This PR updates the explicit specialization logic to avoid using the
call machinery.
Previously, the logic would use the call machinery by converting the
list of type variables into a `Binding` with a single `Signature` where
all the type variables are positional-only parameters with bounds and
constraints as the annotated type and the default type as the default
parameter value. This has the advantage that it doesn't need to
implement any specific logic but the disadvantages are subpar diagnostic
messages as it would use the ones specific to a function call. But, an
important disadvantage is that the kind of type variable is lost in this
translation which becomes important in #21445 where a `ParamSpec` can
specialize into a list of types which is provided using list literal.
For example,
```py
class Foo[T, **P]: ...
Foo[int, [int, str]]
```
This PR converts the logic to use a simple loop using `zip_longest` as
all type variables and their corresponding type argument maps on a 1-1
basis. They cannot be specified using keyword argument either e.g.,
`dict[_VT=str, _KT=int]` is invalid.
This PR also makes an initial attempt to improve the diagnostic message
to specifically target the specialization part by using words like "type
argument" instead of just "argument" and including information like the
type variable, bounds, and constraints. Further improvements can be made
by highlighting the type variable definition or the bounds / constraints
as a sub-diagnostic but I'm going to leave that as a follow-up.
## Test Plan
Update messages in existing test cases.
## Summary
This caused "deterministic but chaotic" ordering of some intersection
types in diagnostics. When calling a union, we infer the argument type
once per matching parameter type, intersecting the inferred types for
the argument expression, and we did that in an unpredictable order.
We do need a hashset here for de-duplication. Sometimes we call large
unions where the type for a given parameter is the same across the
union, we should infer the argument once per parameter type, not once
per union element. So use an `FxIndexSet` instead of an `FxHashSet`.
## Test Plan
With this change, switching between `main` and
https://github.com/astral-sh/ruff/pull/21646 no longer changes the
ordering of the intersection type in the test in
cca3a8045d
## Summary
The reference to the pre-commit hook inside the tutorial was to the
legacy alias `ruff` instead of the current `ruff-check`.
Ref: https://github.com/astral-sh/ruff-pre-commit/pull/124
## Test Plan
Not applicable.
## Summary
Derived from #17371Fixesastral-sh/ty#256
Fixes https://github.com/astral-sh/ty/issues/1415
Fixes https://github.com/astral-sh/ty/issues/1433
Fixes https://github.com/astral-sh/ty/issues/1524
Properly handles any kind of recursive inference and prevents panics.
---
Let me explain techniques for converging fixed-point iterations during
recursive type inference.
There are two types of type inference that naively don't converge
(causing salsa to panic): divergent type inference and oscillating type
inference.
### Divergent type inference
Divergent type inference occurs when eagerly expanding a recursive type.
A typical example is this:
```python
class C:
def f(self, other: "C"):
self.x = (other.x, 1)
reveal_type(C().x) # revealed: Unknown | tuple[Unknown | tuple[Unknown | tuple[..., Literal[1]], Literal[1]], Literal[1]]
```
To solve this problem, we have already introduced `Divergent` types
(https://github.com/astral-sh/ruff/pull/20312). `Divergent` types are
treated as a kind of dynamic type [^1].
```python
Unknown | tuple[Unknown | tuple[Unknown | tuple[..., Literal[1]], Literal[1]], Literal[1]]
=> Unknown | tuple[Divergent, Literal[1]]
```
When a query function that returns a type enters a cycle, it sets
`Divergent` as the cycle initial value (instead of `Never`). Then, in
the cycle recovery function, it reduces the nesting of types containing
`Divergent` to converge.
```python
0th: Divergent
1st: Unknown | tuple[Divergent, Literal[1]]
2nd: Unknown | tuple[Unknown | tuple[Divergent, Literal[1]], Literal[1]]
=> Unknown | tuple[Divergent, Literal[1]]
```
Each cycle recovery function for each query should operate only on the
`Divergent` type originating from that query.
For this reason, while `Divergent` appears the same as `Any` to the
user, it internally carries some information: the location where the
cycle occurred. Previously, we roughly identified this by having the
scope where the cycle occurred, but with the update to salsa, functions
that create cycle initial values can now receive a `salsa::Id`
(https://github.com/salsa-rs/salsa/pull/1012). This is an opaque ID that
uniquely identifies the cycle head (the query that is the starting point
for the fixed-point iteration). `Divergent` now has this `salsa::Id`.
### Oscillating type inference
Now, another thing to consider is oscillating type inference.
Oscillating type inference arises from the fact that monotonicity is
broken. Monotonicity here means that for a query function, if it enters
a cycle, the calculation must start from a "bottom value" and progress
towards the final result with each cycle. Monotonicity breaks down in
type systems that have features like overloading and overriding.
```python
class Base:
def flip(self) -> "Sub":
return Sub()
class Sub(Base):
def flip(self) -> "Base":
return Base()
class C:
def __init__(self, x: Sub):
self.x = x
def replace_with(self, other: "C"):
self.x = other.x.flip()
reveal_type(C(Sub()).x)
```
Naive fixed-point iteration results in `Divergent -> Sub -> Base -> Sub
-> ...`, which oscillates forever without diverging or converging. To
address this, the salsa API has been modified so that the cycle recovery
function receives the value of the previous cycle
(https://github.com/salsa-rs/salsa/pull/1012).
The cycle recovery function returns the union type of the current cycle
and the previous cycle. In the above example, the result type for each
cycle is `Divergent -> Sub -> Base (= Sub | Base) -> Base`, which
converges.
The final result of oscillating type inference does not contain
`Divergent` because `Divergent` that appears in a union type can be
removed, as is clear from the expansion. This simplification is
performed at the same time as nesting reduction.
```
T | Divergent = T | (T | (T | ...)) = T
```
[^1]: In theory, it may be possible to strictly treat types containing
`Divergent` types as recursive types, but we probably shouldn't go that
deep yet. (AFAIK, there are no PEPs that specify how to handle
implicitly recursive types that aren't named by type aliases)
## Performance analysis
A happy side effect of this PR is that we've observed widespread
performance improvements!
This is likely due to the removal of the `ITERATIONS_BEFORE_FALLBACK`
and max-specialization depth trick
(https://github.com/astral-sh/ty/issues/1433,
https://github.com/astral-sh/ty/issues/1415), which means we reach a
fixed point much sooner.
## Ecosystem analysis
The changes look good overall.
You may notice changes in the converged values for recursive types,
this is because the way recursive types are normalized has been changed.
Previously, types containing `Divergent` types were normalized by
replacing them with the `Divergent` type itself, but in this PR, types
with a nesting level of 2 or more that contain `Divergent` types are
normalized by replacing them with a type with a nesting level of 1. This
means that information about the non-divergent parts of recursive types
is no longer lost.
```python
# previous
tuple[tuple[Divergent, int], int] => Divergent
# now
tuple[tuple[Divergent, int], int] => tuple[Divergent, int]
```
The false positive error introduced in this PR occurs in class
definitions with self-referential base classes, such as the one below.
```python
from typing_extensions import Generic, TypeVar
T = TypeVar("T")
U = TypeVar("U")
class Base2(Generic[T, U]): ...
# TODO: no error
# error: [unsupported-base] "Unsupported class base with type `<class 'Base2[Sub2, U@Sub2]'> | <class 'Base2[Sub2[Unknown], U@Sub2]'>`"
class Sub2(Base2["Sub2", U]): ...
```
This is due to the lack of support for unions of MROs, or because cyclic
legacy generic types are not inferred as generic types early in the
query cycle.
## Test Plan
All samples listed in astral-sh/ty#256 are tested and passed without any
panic!
## Acknowledgments
Thanks to @MichaReiser for working on bug fixes and improvements to
salsa for this PR. @carljm also contributed early on to the discussion
of the query convergence mechanism proposed in this PR.
---------
Co-authored-by: Carl Meyer <carl@astral.sh>
## Summary
We now use the type context for a lot of things, so re-inferring without
type context actually makes diagnostics more confusing (in most cases).
Autocomplete suggestions were not suppressed correctly during
some variable bindings if the parameter name was currently
matching a keyword. E.g. `def f(foo<CURSOR>` was handled
correctly but not `def f(in<CURSOR>`.
Previously we extracted the entire token as the query
independently of the cursor position. By not doing that
you avoid having to do special range handling
to figure out the start position of the current token.
It's likely also more intuitive from a user perspective
to only consider characters left of the cursor when
suggesting autocompletions.
## Summary
The implementation here is to just record the idents of these statements
in `scopes_by_expression` (which already supported idents but only ones
that happened to appear in expressions), so that `definitions_for_name`
Just Works.
goto-type (and therefore hover) notably does not work on these
statements because the typechecker does not record info for them. I am
tempted to just introduce `type_for_name` which runs
`definitions_for_name` to find other expressions and queries the
inferred type... but that's a bit whack because it won't be the computed
type at the right point in the code. It probably wouldn't be
particularly expensive to just compute/record the type at those nodes,
as if they were a load, because global/nonlocal is so scarce?
## Test Plan
Snapshot tests added/re-enabled.
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## Summary
Don't allow edits of some more invalid syntax types.
## Test Plan
Add a test for `x = Literal['a']` (similar) to show we don't allow
edits.
Fixes https://github.com/astral-sh/ty/issues/1009
## Summary
This adds support for:
* semantic-tokens (syntax highlighting)
* goto-type **(partially implemented, but want to land as-is)**
* goto-declaration
* goto-definition (falls out of goto-declaration)
* hover **(limited by goto-type)**
* find-references
* rename-references (falls out of find-references)
There are 3 major things being introduced here:
* `TypeInferenceBuilder::string_annotations` is a `FxHashSet` of exprs
which were determined to be string annotations during inference. It's
bubbled up in `extras` to hopefully minimize the overhead as in most
contexts it's empty.
* Very happy to hear if this is too hacky and if I should do something
better, but it's IMO important that we get an authoritative answer on
whether something is a string annotation or not.
* `SemanticModel::enter_string_annotation` checks if the expr was marked
by `TypeInferenceBuilder::string_annotations` and then parses the subast
and produces a sub-SemanticModel that sets
`SemanticModel::in_string_annotation_expr`. This expr will be used by
the model whenever we need to query e.g. the scope of the current
expression (otherwise the code will constantly panic as the subast nodes
are not in the current File's AST)
* This hazard consequently encouraged me to refactor a bunch of code to
replace uses of file/db with SemanticModel to minimize hazards (it is no
longer as safe to randomly materialize a SemanticModel in the middle of
analysis, you need to thread through the one you have in case it has
`in_string_annotation_expr` set).
* `GotoTarget::StringAnnotationSubexpr` (and a semantic-tokens impl)
which involves invoking `SemanticModel::enter_string_annotation` before
invoking the same kind of subroutine a normal expression would.
* goto-type (and consequently displaying the type in hover) is the main
hole here, because we can only get the type iff the string annotation is
the entire subexpression (i.e. we can get the type of `"int"` but not
the parts of `"int | str"`). This is shippable IMO.
## Test Plan
Messed around in IDE, wrote a ton of tests.
## Summary
This PR adds a code action to remove unused ignore comments.
This PR also includes some infrastructure boilerplate to set up code
actions in the editor:
* Extend `snapshot-diagnostics` to render fixes
* Render fixes when using `--output-format=full`
* Hook up edits and the code action request in the LSP
* Add the `Unnecessary` tag to `unused-ignore-comment` diagnostics
* Group multiple unused codes into a single diagnostic
The same fix can be used on the CLI once we add `ty fix`
Note: `unused-ignore-comment` is currently disabled by default.
https://github.com/user-attachments/assets/f9e21087-3513-4156-85d7-a90b1a7a3489
## Summary
Building on https://github.com/astral-sh/ruff/pull/21436.
There's nothing conceptually more complicated about this, it just
requires its own set of tests and its own subdiagnostic hint.
I also uncovered another inconsistency between mypy/pyright/pyrefly,
which is fun. In this case, I suggest we go with pyright's behaviour.
## Test Plan
mdtests/snapshots
## Summary
This PR sets up CI jobs to run ty from the `main` branch on the files
and subdirectories in our `scripts` directory
## Test Plan
Both these commands pass for me locally:
- `uv run --project=./scripts cargo run -p ty check --project=./scripts`
- `uv run --project=./scripts/ty_benchmark cargo run -p ty check
--project=./scripts/ty_benchmark`
## Summary
For something like this:
```py
from typing import Callable
def my_lossy_decorator(fn: Callable[..., int]) -> Callable[..., int]:
return fn
class MyClass:
@my_lossy_decorator
def method(self) -> int:
return 42
```
we will currently infer the type of `MyClass.method` as a function-like
`Callable`, but we will infer the type of `MyClass().method` as a
`Callable` that is _not_ function-like. That's because a `CallableType`
currently "forgets" whether it was function-like or not during the
`bound_self` transformation:
a57e291311/crates/ty_python_semantic/src/types.rs (L10985-L10987)
This seems incorrect, and it's quite different to what we do when
binding the `self` parameter of `FunctionLiteral` types: `BoundMethod`
types are all seen as subtypes of function-like `Callable` supertypes --
here's `BoundMethodType::into_callable_type`:
a57e291311/crates/ty_python_semantic/src/types.rs (L10844-L10860)
The bug here is also causing lots of false positives in the ecosystem
report on https://github.com/astral-sh/ruff/pull/21611: a decorated
method on a subclass is currently not seen as validly overriding an
undecorated method with the same signature on a superclass, because the
undecorated superclass method is seen as function-like after binding
`self` whereas the decorated subclass method is not.
Fixing the bug required adding a new API in `protocol_class.rs`, because
it turns out that for our purposes in protocol subtyping/assignability,
we really do want a callable type to forget its function-like-ness when
binding `self`.
I initially tried out this change without changing anything in
`protocol_class.rs`. However, it resulted in many ecosystem false
positives and new false positives on the typing conformance test suite.
This is because it would mean that no protocol with a `__call__` method
would ever be seen as a subtype of a `Callable` type, since the
`__call__` method on the protocol would be seen as being function-like
whereas the `Callable` type would not be seen as function-like.
## Test Plan
Added an mdtest that fails on `main`
Before, we would collapse any constraint of the form `Never ≤ T ≤
object` down to the "always true" constraint set. This is correct in
terms of BDD semantics, but loses information, since "not constraining a
typevar at all" is different than "constraining a typevar to take on any
type". Once we get to specialization inference, we should fall back on
the typevar's default for the former, but not for the latter.
This is much easier to support now that we have a sequent map, since we
need to treat `¬(Never ≤ T ≤ object)` as being impossible, and prune it
when we walk through BDD paths, just like we do for other impossible
combinations.
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## Summary
Resolves
https://github.com/astral-sh/ty/issues/317#issuecomment-3567398107.
I can't get the auto import working great.
I haven't added many places where we specify that the type display is
invalid syntax.
## Test Plan
Nothing yet
This patch updates our protocol assignability checks to substitute for
any occurrences of `typing.Self` in method signatures, replacing it with
the class being checked for assignability against the protocol.
This requires a new helper method on signatures, `apply_self`, which
substitutes occurrences of `typing.Self` _without_ binding the `self`
parameter.
We also update the `try_upcast_to_callable` method. Before, it would
return a `Type`, since certain types upcast to a _union_ of callables,
not to a single callable. However, even in that case, we know that every
element of the union is a callable. We now return a vector of
`CallableType`. (Actually a smallvec to handle the most common case of a
single callable; and wrapped in a new type so that we can provide helper
methods.) If there is more than one element in the result, it represents
a union of callables. This lets callers get at the `CallableType`
instances in a more type-safe way. (This makes it easier for our
protocol checking code to call the new `apply_self` helper.) We also
provide an `into_type` method so that callers that really do want a
`Type` can get the original result easily.
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
This only applies to items that have a type associated with them. That
is, things that are already in scope. For items that don't have a type
associated with them (i.e., suggestions from auto-import), we still
suggest them since we can't know if they're appropriate or not. It's not
quite clear on how best to improve here for the auto-import case. (Short
of, say, asking for the type of each such symbol. But the performance
implications of that aren't known yet.)
Note that because of auto-import, we were still suggesting
`NotImplemented` even though astral-sh/ty#1262 specifically cites it as
the motivating example that we *shouldn't* suggest. This was occuring
because auto-import was including symbols from the `builtins` module,
even though those are actually already in scope. So this PR also gets
rid of those suggestions from auto-import.
Overall, this means that, at least, `raise NotImpl` won't suggest
`NotImplemented`.
Fixesastral-sh/ty#1262
## Summary
Fixes https://github.com/astral-sh/ty/issues/1620. #20909 added hints if
you do something like this and your Python version is set to 3.10 or
lower:
```py
import typing
typing.LiteralString
```
And we also have hints if you try to do something like this and your
Python version is set too low:
```py
from stdlib_module import new_submodule
```
But we don't currently have any subdiagnostic hint if you do something
like _this_ and your Python version is set too low:
```py
from typing import LiteralString
```
This PR adds that hint!
## Test Plan
snapshots
---------
Co-authored-by: Aria Desires <aria.desires@gmail.com>
## Summary
This PR adds a failing mdtest for the panic in
https://github.com/astral-sh/ty/issues/1587. The added snippet currently
panics with this query stacktrace:
```
error[panic]: Panicked at /Users/alexw/.cargo/git/checkouts/salsa-e6f3bb7c2a062968/17bc55d/src/function/execute.rs:321:21 when checking `/Users/alexw/dev/ruff/foo.py`: `ClassLiteral < 'db >::explicit_bases_(Id(4c09)): execute: too many cycle iterations`
info: This indicates a bug in ty.
info: If you could open an issue at https://github.com/astral-sh/ty/issues/new?title=%5Bpanic%5D, we'd be very appreciative!
info: Platform: macos aarch64
info: Version: ruff/0.14.5+105 (d24c891a4 2025-11-22)
info: Args: ["target/debug/ty", "check", "foo.py", "--python-version=3.14"]
info: run with `RUST_BACKTRACE=1` environment variable to show the full backtrace information
info: query stacktrace:
0: cached_protocol_interface(Id(6805))
at crates/ty_python_semantic/src/types/protocol_class.rs:795
1: is_equivalent_to_object_inner(Id(8003))
at crates/ty_python_semantic/src/types/instance.rs:667
2: infer_deferred_types(Id(1406))
at crates/ty_python_semantic/src/types/infer.rs:140
cycle heads: infer_definition_types(Id(140b)) -> iteration = 200, TypeVarInstance < 'db >::lazy_bound_(Id(5802)) -> iteration = 200
3: TypeVarInstance < 'db >::lazy_bound_(Id(5803))
at crates/ty_python_semantic/src/types.rs:8827
4: infer_definition_types(Id(140c))
at crates/ty_python_semantic/src/types/infer.rs:94
5: infer_deferred_types(Id(1405))
at crates/ty_python_semantic/src/types/infer.rs:140
6: TypeVarInstance < 'db >::lazy_bound_(Id(5802))
at crates/ty_python_semantic/src/types.rs:8827
7: infer_definition_types(Id(140b))
at crates/ty_python_semantic/src/types/infer.rs:94
8: infer_scope_types(Id(1000))
at crates/ty_python_semantic/src/types/infer.rs:70
9: check_file_impl(Id(c00))
at crates/ty_project/src/lib.rs:535
```
It's not totally clear to me how to fix this or to what extent it might
be a bug in our `Protocol` internals rather than a bug in our `TypeVar`
internals. (It's sort of interesting that we're trying to evaluate the
upper bound of any `TypeVar`s here!) @carljm suggested that it would be
a good idea to add a failing mdtest in the meantime to document the
panic, which I agree with.
## Test Plan
I verified that we panic on this snippet, and that the test fails if I
remove the `expect-panic` assertion or if I change the asserted error
message.
I experimented with ways of minimizing the snippet further, but I think
any further minimization takes the snippet further away from something a
user would actually be likely to write -- so I think is probably
counterproductive. The failing test added in this PR isn't unreasonable
code at the end of the day; I've seen Python like it in the wild.
## Summary
Fixes a panic when parsing IPython escape commands with `Help` kind
(`?`) in expression contexts. The parser now reports an error instead of
panicking.
Fixes#21465.
## Problem
The parser panicked with `unreachable!()` in
`parse_ipython_escape_command_expression` when encountering escape
commands with `Help` kind (`?`) in expression contexts, where only
`Magic` (`%`) and `Shell` (`!`) are allowed.
## Approach
Replaced the `unreachable!()` panic with error handling that adds a
`ParseErrorType::OtherError` and continues parsing, returning a valid
AST node with the error attached.
## Test Plan
Added `test_ipython_escape_command_in_with_statement` and
`test_ipython_help_escape_command_as_expression` to verify the fix.
---------
Co-authored-by: Dhruv Manilawala <dhruvmanila@gmail.com>
This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
| actions/checkout | action | digest | `ff7abcd` -> `c2d88d3` |
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* Fixes https://github.com/astral-sh/ty/issues/1011
* Also fixes the fact that we didn't handle `.x` properly *at all* in
hover/goto
It turns out all of our import handling completely ignored the `level`
(number of relative `.`'s) in a `from ..x.y import z` statement. It was
nice seeing how much my understanding of `ty` has improved -- previously
this would have all been opaque to me but now it was just, completely
glaring and blatant.
Fixing this required refactoring all the import code to take the
importing file into consideration. I ended up refactoring a bunch of
code to pass around/require `SemanticModel` more, as it's the natural
API for resolving this kind of import (it actually had an API for this
that was just... dead code, whoops!).
## Summary
As reported in #19757:
While attempting ISC003 autofix for an expression with explicit string
concatenation, with either operand being a string literal that wraps
across multiple lines (in parentheses) - it resulted in generating a fix
which caused runtime error.
Example:
```
_ = "abc" + (
"def"
"ghi"
)
```
was being auto-fixed to:
```
_ = "abc" (
"def"
"ghi"
)
```
which raised `TypeError: 'str' object is not callable`
This commit makes changes to just report diagnostic - no autofix in such
cases.
Fixes#19757.
## Test Plan
Added example scenarios in
`crates/ruff_linter/resources/test/fixtures/flake8_implicit_str_concat/ISC.py`.
Signed-off-by: Prakhar Pratyush <prakhar1144@gmail.com>
## Summary
Fixes the PLE1141 (`dict-iter-missing-items`) rule to allow fixes for
empty dictionaries unless they have type annotations indicating 2-tuple
keys. Previously, the fix was incorrectly suppressed for all empty dicts
due to vacuous truth in the `all()` function.
Fixes#21289
## Problem Analysis
The `is_dict_key_tuple_with_two_elements` function was designed to
suppress the fix when a dictionary's keys are all 2-tuples, as unpacking
tuple keys directly would change runtime behavior.
However, for empty dictionaries, `iter_keys()` returns an empty
iterator, and `all()` on an empty iterator returns `true` (vacuous
truth). This caused the function to incorrectly suppress fixes for empty
dicts, even when there was no indication that future keys would be
2-tuples.
## Approach
1. **Detect empty dictionaries**: Added a check to identify when a dict
literal has no keys.
2. **Handle annotated empty dicts**: For empty dicts with type
annotations:
- Parse the annotation to check if it's `dict[tuple[T1, T2], ...]` where
the tuple has exactly 2 elements
- Support both PEP 484 (`typing.Dict`, `typing.Tuple`) and PEP 585
(`dict`, `tuple`) syntax
- If tuple keys are detected, suppress the fix (correct behavior)
- Otherwise, allow the fix
3. **Handle unannotated empty dicts**: For empty dicts without
annotations, allow the fix since there's no indication that keys will be
2-tuples.
4. **Preserve existing behavior**: For non-empty dicts, the original
logic is unchanged - check if all existing keys are 2-tuples.
The implementation includes helper functions:
- `is_annotation_dict_with_tuple_keys()`: Checks if a type annotation
specifies dict with tuple keys
- `is_tuple_type_with_two_elements()`: Checks if a type expression
represents a 2-tuple
Test cases were added to verify:
- Empty dict without annotation triggers the error
- Empty dict with `dict[tuple[int, str], bool]` suppresses the error
- Empty dict with `dict[str, int]` triggers the error
- Existing tests remain unchanged
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
PR #21549 introduced a subtle overflow bug that seemed impossible, but
can empirically happen. This PR fixes it by saturating to zero.
I did try to write a regression test for this, but couldn't manage it.
Instead, I'll attach before-and-after screen recordings.
These were added to try to make it clearer that assignability checks
will eventually return more detailed answers than true or false.
However, the constraint set display rendering is still more brittle than
I'd like it to be, and it's more trouble than it's worth to keep them
updated with semantically identically but textually different edits. The
`static_assert`s are sufficient to check correctness, and we can always
add `reveal_type` when needed for further debugging.
## Summary
Extends the `used-dummy-variable` rule
([RUF052](https://docs.astral.sh/ruff/rules/used-dummy-variable/)) to
detect dummy variables that are used within list comprehensions, dict
comprehensions, set comprehensions, and generator expressions, not just
regular for loops and function assignments.
### Problem
Previously, RUF052 only flagged dummy variables (variables with leading
underscores) that were used in function scopes via assignments or
regular for loops. It missed cases where dummy variables were used
within comprehensions:
```python
def example():
my_list = [{"foo": 1}, {"foo": 2}]
# These were not detected before:
[_item["foo"] for _item in my_list] # Should warn: _item is used
{_item["key"]: _item["val"] for _item in my_list} # Should warn: _item is used
(_item["foo"] for _item in my_list) # Should warn: _item is used
```
### Solution
- Extended scope checking to include all generator scopes () with any
(list/dict/set comprehensions and generator expressions)
`ScopeKind::Generator``GeneratorKind`
- Added support for bindings, which cover loop variables in both regular
for loops and comprehensions `BindingKind::LoopVar`
- Refactored the scope validation logic for better readability with a
descriptive variable `is_allowed_scope`
[ISSUE](https://github.com/astral-sh/ruff/issues/19732)
## Test Plan
```bash
cargo test
```
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
Statements such as `def foo(p<CURSOR>`,
`def foo[T<CURSOR>` and `for foo<CURSOR>`
should not generate any suggestions as these
cases are introducing new names.
If it's not possible to determine that suggestions should be omitted
using token matching in an easy way, we turn
to traversing the AST to determine the context.
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## Summary
Fixes https://github.com/astral-sh/ty/issues/1563
It keeps using the existing token matching pattern for the easy cases
(nothing typed and most recent token is a definition token) and
fallbacks to AST traveral for the slightly more difficult cases where
token matching becomes difficult and error prone.
<!-- What's the purpose of the change? What does it do, and why? -->
## Test Plan
New test cases and sanity-checking in the ty playground
<!-- How was it tested? -->
## Summary
This introduces a very bad and naive
python-docstring-flavoured-reStructuredText to github-flavor-markdown
translator. The main goal is to try to preserve a lot of the formatting
and plaintext, progressively enhance the content when we find things we
know about, and escape the text when we find things that might get
corrupt.
Previously I'd broken this out into rendering each different format, but
with this approach you don't really need to?
## Test Plan
Lots of snapshot tests, also messed around in some random stdlib
modules.
This commit essentially does away of all our old heuristic and piecemeal
code for detecting different kinds of import statements. Instead, we
offer one single state machine that does everything. This on its own
fixes a few bugs. For example, `import collections.abc, unico<CURSOR>`
would previously offer global scope completions instead of module
completions.
For the most part though, this commit is a refactoring that preserves
parity. In the next commit, we'll add support for completions on
relative imports.
This is a small refactor that helps centralize the
logic for how we gather, convert and possibly filter
completions.
Some of this logic was spread out before, which
motivated this refactor. Moreover, as part of other
refactoring, I found myself chaffing against the
lack of this abstraction.
Refs https://github.com/astral-sh/ty/issues/544
## Summary
Takes a more incremental approach to PEP 613 type alias support (vs
https://github.com/astral-sh/ruff/pull/20107). Instead of eagerly
inferring the RHS of a PEP 613 type alias as a type expression, infer it
as a value expression, just like we do for implicit type aliases, taking
advantage of the same support for e.g. unions and other type special
forms.
The main reason I'm following this path instead of the one in
https://github.com/astral-sh/ruff/pull/20107 is that we've realized that
people do sometimes use PEP 613 type aliases as values, not just as
types (because they are just a normal runtime assignment, unlike PEP 695
type aliases which create an opaque `TypeAliasType`).
This PR doesn't yet provide full support for recursive type aliases
(they don't panic, but they just fall back to `Unknown` at the recursion
point). This is future work.
## Test Plan
Added mdtests.
Many new ecosystem diagnostics, mostly because we
understand new types in lots of places.
Conformance suite changes are correct.
Performance regression is due to understanding lots of new
types; nothing we do in this PR is inherently expensive.
This is a very conservative minimal implementation of applying overloads
to resolve a callable-type-being-called down to a single function
signature on hover. If we ever encounter a situation where the answer
doesn't simplify down to a single function call, we bail out to preserve
prettier printing of non-raw-Signatures.
The resulting Signatures are still a bit bare, I'm going to try to
improve that in a followup to improve our Signature printing in general.
Fixes https://github.com/astral-sh/ty/issues/73
As far as I know this change is largely non-functional, largely because
of https://github.com/astral-sh/ty/issues/1601
It's possible some of these like `Type::KnownInstance` produce something
useful sometimes. `LiteralString` is a new introduction, although its
goto-type jumps to `str` which is a bit sad (considering that part of
the SpecialForm discourse for now).
Also wrt the generics testing followup: turns out the snapshot tests
were full of those already.
## Summary
Eagerly evaluate the elements of a PEP 604 union in value position (e.g.
`IntOrStr = int | str`) as type expressions and store the result (the
corresponding `Type::Union` if all elements are valid type expressions,
or the first encountered `InvalidTypeExpressionError`) on the
`UnionTypeInstance`, such that the `Type::Union(…)` does not need to be
recomputed every time the implicit type alias is used in a type
annotation.
This might lead to performance improvements for large unions, but is
also necessary for correctness, because the elements of the union might
refer to type variables that need to be looked up in the scope of the
type alias, not at the usage site.
## Test Plan
New Markdown tests
This PR generalizes the signature_help system's SignatureWriter which
could get the subspans of function parameters.
We now have TypeDetailsWriter which is threaded between type's display
implementations via a new `fmt_detailed` method that many of the Display
types now have.
With this information we can properly add goto-type targets to our inlay
hints. This also lays groundwork for any future "I want to render a type
but get spans" work.
Also a ton of lifetimes are introduced to avoid things getting conflated
with `'db`.
This PR is broken up into a series of commits:
* Generalizing `SignatureWriter` to `TypeDetailsWriter`, but not using
it anywhere else. This commit was confirmed to be a non-functional
change (no test results changed)
* Introducing `fmt_detailed` everywhere to thread through
`TypeDetailsWriter` and annotate various spans as "being" a given Type
-- this is also where I had to reckon with a ton of erroneous `&'db
self`. This commit was also confirmed to be a non-functional change.
* Finally, actually using the results for goto-type on inlay hints!
* Regenerating snapshots, fixups, etc.
#21414 added the ability to create a specialization from a constraint
set. It handled mutually constrained typevars just fine, e.g. given `T ≤
int ∧ U = T` we can infer `T = int, U = int`.
But it didn't handle _nested_ constraints correctly, e.g. `T ≤ int ∧ U =
list[T]`. Now we do! This requires doing a fixed-point "apply the
specialization to itself" step to propagate the assignments of any
nested typevars, and then a cycle detection check to make sure we don't
have an infinite expansion in the specialization.
This gets at an interesting nuance in our constraint set structure that
@sharkdp has asked about before. Constraint sets are BDDs, and each
internal node represents an _individual constraint_, of the form `lower
≤ T ≤ upper`. `lower` and `upper` are allowed to be other typevars, but
only if they appear "later" in the arbitary ordering that we establish
over typevars. The main purpose of this is to avoid infinite expansion
for mutually constrained typevars.
However, that restriction doesn't help us here, because only applies
when `lower` and `upper` _are_ typevars, not when they _contain_
typevars. That distinction is important, since it means the restriction
does not affect our expressiveness: we can always rewrite `Never ≤ T ≤
U` (a constraint on `T`) into `T ≤ U ≤ object` (a constraint on `U`).
The same is not true of `Never ≤ T ≤ list[U]` — there is no "inverse" of
`list` that we could apply to both sides to transform this into a
constraint on a bare `U`.
## Summary
Updated `S508` (snmp-insecure-version) and `S509`
(snmp-weak-cryptography) rules to support both old and new PySNMP API
module paths. Previously, these rules only detected the old API path
`pysnmp.hlapi.*`, but now they correctly detect all PySNMP API variants
including `pysnmp.hlapi.asyncio.*`, `pysnmp.hlapi.v1arch.*`,
`pysnmp.hlapi.v3arch.*`, and `pysnmp.hlapi.auth.*`.
Fixes#21364
## Problem Analysis
The `S508` and `S509` rules used exact pattern matching on qualified
names:
- `S509` only matched `["pysnmp", "hlapi", "UsmUserData"]`
- `S508` only matched `["pysnmp", "hlapi", "CommunityData"]`
This meant that newer PySNMP API paths were not detected, such as:
- `pysnmp.hlapi.asyncio.UsmUserData`
- `pysnmp.hlapi.v3arch.asyncio.UsmUserData`
- `pysnmp.hlapi.v3arch.asyncio.auth.UsmUserData`
- `pysnmp.hlapi.auth.UsmUserData`
- Similar variants for `CommunityData` in `S508`
Additionally, the old API path `pysnmp.hlapi.auth.*` was also missing
from both rules.
## Approach
Instead of exact pattern matching, both rules now check if:
1. The qualified name starts with `["pysnmp", "hlapi"]`
2. The qualified name ends with the target class name (`"UsmUserData"`
for `S509`, `"CommunityData"` for `S508`)
This flexible approach matches all PySNMP API paths without hardcoding
each variant, making the rules more maintainable and future-proof.
## Test Plan
Added comprehensive test cases to both `S508.py` and `S509.py` test
files covering:
- New API paths: `pysnmp.hlapi.asyncio.*`, `pysnmp.hlapi.v1arch.*`,
`pysnmp.hlapi.v3arch.*`
- Old API path: `pysnmp.hlapi.auth.*`
- Both insecure and secure usage patterns
All existing tests pass, and new snapshot tests were added and accepted.
Manual verification confirms both rules correctly detect all PySNMP API
variants.
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
## Summary
Fixes https://github.com/astral-sh/ty/issues/1571.
I realised I was overcomplicating things when I described what we should
do in that issue description. The simplest thing to do here is just to
special-case call expressions and short-circuit the call-binding
machinery entirely if we see it's `NotImplemented` being called. It
doesn't really matter if the subdiagnostic doesn't fire when a union is
called and one element of the union is `NotImplemented` -- the
subdiagnostic doesn't need to be exhaustive; it's just to help people in
some common cases.
## Test Plan
Added snapshots
## Summary
The `.expect()` call here:
5dd56264fb/crates/ty_python_semantic/src/types/instance.rs (L816-L827)
is the direct cause of the panic in
https://github.com/astral-sh/ty/issues/1587. This patch gets rid of the
panic by refactoring our `Protocol` enum so that the
`Protocol::FromClass` variant holds a `ProtocolClass` instance rather
than a `ClassType` instance (all the `.expect()` call was doing was
attempting to convert form a `ClassType` to a `ProtocolClass`).
I hoped that this would provide a fix for
https://github.com/astral-sh/ty/issues/1587, but we still panic on the
provided reproducible examples in that issue even with this PR.
Nonetheless, I think this PR is a worthwhile change to make because:
- It's probably slightly more efficient this way (we no longer have to
re-verify that the wrapped class in a `Protocol::FromClass()` variant is
a protocol class every time we want to access its interface)
- It's nice to get rid of `.expect()` calls where possible, and this one
seems definitely unnecessary
- The _new_ panic message on this PR branch makes it much clearer what
the underlying cause of the bug in
https://github.com/astral-sh/ty/issues/1587 is:
<details>
<summary>New panic message</summary>
```
error[panic]: Panicked at
/Users/alexw/.cargo/git/checkouts/salsa-e6f3bb7c2a062968/a885bb4/src/function/execute.rs:321:21
when checking `/Users/alexw/dev/ruff/foo.py`: `ClassLiteral < 'db
>::explicit_bases_(Id(4c09)): execute: too many cycle iterations`
info: This indicates a bug in ty.
info: If you could open an issue at
https://github.com/astral-sh/ty/issues/new?title=%5Bpanic%5D, we'd be
very appreciative!
info: Platform: macos aarch64
info: Version: ruff/0.14.5+60 (18a14bfaf 2025-11-19)
info: Args: ["target/debug/ty", "check", "foo.py",
"--python-version=3.14"]
info: run with `RUST_BACKTRACE=1` environment variable to show the full
backtrace information
info: query stacktrace:
0: cached_protocol_interface(Id(6805))
at crates/ty_python_semantic/src/types/protocol_class.rs:790
1: is_equivalent_to_object_inner(Id(8003))
at crates/ty_python_semantic/src/types/instance.rs:667
2: infer_deferred_types(Id(1409))
at crates/ty_python_semantic/src/types/infer.rs:141
cycle heads: infer_definition_types(Id(140b)) -> iteration = 200,
TypeVarInstance < 'db >::lazy_bound_(Id(5803)) -> iteration = 200
3: TypeVarInstance < 'db >::lazy_bound_(Id(5802))
at crates/ty_python_semantic/src/types.rs:8734
4: infer_definition_types(Id(140c))
at crates/ty_python_semantic/src/types/infer.rs:94
5: infer_deferred_types(Id(140a))
at crates/ty_python_semantic/src/types/infer.rs:141
6: TypeVarInstance < 'db >::lazy_bound_(Id(5803))
at crates/ty_python_semantic/src/types.rs:8734
7: infer_definition_types(Id(140b))
at crates/ty_python_semantic/src/types/infer.rs:94
8: infer_scope_types(Id(1000))
at crates/ty_python_semantic/src/types/infer.rs:70
9: check_file_impl(Id(c00))
at crates/ty_project/src/lib.rs:535
Found 1 diagnostic
WARN A fatal error occurred while checking some files. Not all project
files were analyzed. See the diagnostics list above for details.
```
</details>
## Test Plan
All existing tests pass.
This patch lets us create specializations from a constraint set. The
constraint encodes the restrictions on which types each typevar can
specialize to. Given a generic context and a constraint set, we iterate
through all of the generic context's typevars. For each typevar, we
abstract the constraint set so that it only mentions the typevar in
question (propagating derived facts if needed). We then find the "best
representative type" for the typevar given the abstracted constraint
set.
When considering the BDD structure of the abstracted constraint set,
each path from the BDD root to the `true` terminal represents one way
that the constraint set can be satisfied. (This is also one of the
clauses in the DNF representation of the constraint set's boolean
formula.) Each of those paths is the conjunction of the individual
constraints of each internal node that we traverse as we walk that path,
giving a single lower/upper bound for the path. We use the upper bound
as the "best" (i.e. "closest to `object`") type for that path.
If there are multiple paths in the BDD, they technically represent
independent possible specializations. If there's a single specialization
that satisfies all of them, we will return that as the specialization.
If not, then the constraint set is ambiguous. (This happens most often
with constrained typevars.) We could in the future turn _each_ of the
paths into separate specializations, but it's not clear what we would do
with that, so instead we just report the ambiguity as a specialization
failure.
We were previously normalizing the upper and lower bounds of each
constraint when constructing constraint sets. Like in #21463, this was
for conflated reasons: It made constraint set displays nicer, since we
wouldn't render multiple constraints with obviously equivalent bounds.
(Think `T ≤ A & B` and `T ≤ B & A`) But it was also useful for
correctness, since prior to #21463 we were (trying to) add the full
transitive closure to a constraint set's BDD, and normalization gave a
useful reduction in the number of nodes in a typical BDD.
Now that we don't store the transitive closure explicitly, that second
reason is no longer relevant. Our sequent map can store that full
transitive closure much more efficiently than the expanded BDD would
have. This helps fix some false positives on #20933, where we're seeing
some (incorrect, need to be fixed, but ideally not blocking this effort)
assignability failures between a type and its normalization.
Normalization is still useful for display purposes, and so we do
normalize the upper/lower bounds before building up our display
representation of a constraint set BDD.
---------
Co-authored-by: David Peter <sharkdp@users.noreply.github.com>
We're seeing flaky test failures on macos, which seems to be caused by
different Salsa ID orderings on the different platforms. Constraint set
BDDs order their internal nodes based on the Salsa IDs of the interned
typevar structs, and we had some code that depended on variable ordering
in an unexpected way.
This patch definitely fixes the macos test failure on #21414, and
hopefully fixes it on #21436, too.
## Summary
Add a set of comprehensive tests for generic implicit type aliases to
illustrate the current behavior with many flavors of `@Todo` types and
false positive diagnostics.
The tests are partially based on the typing conformance suite, and the
expected behavior has been checked against other type checkers.
## Summary
Get rid of the catch-all todo type from subscripting a base type we
haven't implemented handling for yet in a type expression, and turn it
into a diagnostic instead.
Handle a few more cases explicitly, to avoid false positives from the
above change:
1. Subscripting any dynamic type (not just a todo type) in a type
expression should just result in that same dynamic type. This is
important for gradual guarantee, and matches other type checkers.
2. Subscripting a generic alias may be an error or not, depending
whether the specialization itself contains typevars. Don't try to handle
this yet (it should be handled in a later PR for specializing generic
non-PEP695 type aliases), just use a dedicated todo type for it.
3. Add a temporary todo branch to avoid false positives from string PEP
613 type aliases. This can be removed in the next PR, with PEP 613 type
alias support.
## Test Plan
Adjusted mdtests, ecosystem.
All new diagnostics in conformance suite are supposed to be diagnostics,
so this PR is a strict improvement there.
New diagnostics in the ecosystem are surfacing cases where we already
don't understand an annotation, but now we emit a diagnostic about it.
They are mostly intentional choices. Analysis of particular cases:
* `attrs`, `bokeh`, `django-stubs`, `dulwich`, `ibis`, `kornia`,
`mitmproxy`, `mongo-python-driver`, `mypy`, `pandas`, `poetry`,
`prefect`, `pydantic`, `pytest`, `scrapy`, `trio`, `werkzeug`, and
`xarray` are all cases where under `from __future__ import annotations`
or Python 3.14 deferred-annotations semantics, we follow normal
name-scoping rules, whereas some other type checkers prefer global names
over local names. This means we don't like it if e.g. you have a class
with a method or attribute named `type` or `tuple`, and you also try to
use `type` or `tuple` in method/attribute annotations of that class.
This PR isn't changing those semantics, just revealing them in more
cases where previously we just silently fell back to `Unknown`. I think
failing with a diagnostic (so authors can alias names as needed to avoid
relying on scoping rules that differ between type checkers) is better
than failing silently here.
* `beartype` assumes we support `TypeForm` (because it only supports
mypy and pyright, it uses `if MYPY:` to hide the `TypeForm` from mypy,
and pyright supports `TypeForm`), and we don't yet.
* `graphql-core` likes to use a `try: ... except ImportError: ...`
pattern for importing special forms from `typing` with fallback to
`typing_extensions`, instead of using `sys.version_info` checks. We
don't handle this well when type checking under an older Python version
(where the import from `typing` is not found); we see the imported name
as of type e.g. `Unknown | SpecialFormType(...)`, and because of the
union with `Unknown` we fail to handle it as the special form type. Mypy
and pyright also don't seem to support this pattern. They don't complain
about subscripting such special forms, but they do silently fail to
treat them as the desired special form. Again here, if we are going to
fail I'd rather fail with a diagnostic rather than silently.
* `ibis` is [trying to
use](https://github.com/ibis-project/ibis/blob/main/ibis/common/collections.py#L372)
`frozendict: type[FrozenDict]` as a way to create a "type alias" to
`FrozenDict`, but this is wrong: that means `frozendict:
type[FrozenDict[Any, Any]]`.
* `mypy` has some errors due to the fact that type-checking `typing.pyi`
itself (without knowing that it's the real `typing.pyi`) doesn't work
very well.
* `mypy-protobuf` imports some types from the protobufs library that end
up unioned with `Unknown` for some reason, and so we don't allow
explicit-specialization of them. Depending on the reason they end up
unioned with `Unknown`, we might want to better support this? But it's
orthogonal to this PR -- we aren't failing any worse here, just alerting
the author that we didn't understand their annotation.
* `pwndbg` has unresolved references due to star-importing from a
dependency that isn't installed, and uses un-imported names like `Dict`
in annotation expressions. Some of the unresolved references were hidden
by
https://github.com/astral-sh/ruff/blob/main/crates/ty_python_semantic/src/types/infer/builder.rs#L7223-L7228
when some annotations previously resolved to a Todo type that no longer
do.
Summary
--
This PR wires up the `Diagnostic::set_documentation_url` method from
#21502 to Ruff's lint diagnostics. This enables the links for the full
and concise output formats without any other changes.
I considered also including the URLs for the grouped and pylint output
formats, but the grouped format is still in `ruff_linter` instead of
`ruff_db`, so we'd have to export some additional functionality to wire
it up with `fmt_with_hyperlink`; and the pylint format doesn't currently
render with color, so I think it might actually be machine readable
rather than human readable?
The other ouput formats (json, json-lines, junit, github, gitlab,
rdjson, azure, sarif) seem more clearly not to need the links.
Test Plan
--
I guess you can't see my cursor or the browser opening, but it works for
lint rules, which have links, and doesn't include a link for syntax
errors, which don't have valid links.
Closes#11216
Essentially the approach is to implement `Format` for a new struct
`FormatClause` which is just a clause header _and_ its body. We then
have the information we need to see whether there is a skip suppression
comment on the last child in the body and it all fits on one line.
This saga began with a regression in how we handle constraint sets where
a typevar is constrained by another typevar, which #21068 first added
support for:
```py
def mutually_constrained[T, U]():
# If [T = U ∧ U ≤ int], then [T ≤ int] must be true as well.
given_int = ConstraintSet.range(U, T, U) & ConstraintSet.range(Never, U, int)
static_assert(given_int.implies_subtype_of(T, int))
```
While working on #21414, I saw a regression in this test, which was
strange, since that PR has nothing to do with this logic! The issue is
that something in that PR made us instantiate the typevars `T` and `U`
in a different order, giving them differently ordered salsa IDs. And
importantly, we use these salsa IDs to define the variable ordering that
is used in our constraint set BDDs. This showed that our "mutually
constrained" logic only worked for one of the two possible orderings.
(We can — and now do — test this in a brute-force way by copy/pasting
the test with both typevar orderings.)
The underlying bug was in our `ConstraintSet::simplify_and_domain`
method. It would correctly detect `(U ≤ T ≤ U) ∧ (U ≤ int)`, because
those two constraints affect different typevars, and from that, infer `T
≤ int`. But it wouldn't detect the equivalent pattern in `(T ≤ U ≤ T) ∧
(U ≤ int)`, since those constraints affect the same typevar. At first I
tried adding that as yet more pattern-match logic in the ever-growing
`simplify_and_domain` method. But doing so caused other tests to start
failing.
At that point, I realized that `simplify_and_domain` had gotten to the
point where it was trying to do too much, and for conflicting consumers.
It was first written as part of our display logic, where the goal is to
remove redundant information from a BDD to make its string rendering
simpler. But we also started using it to add "derived facts" to a BDD. A
derived fact is a constraint that doesn't appear in the BDD directly,
but which we can still infer to be true. Our failing test relies on
derived facts — being able to infer that `T ≤ int` even though that
particular constraint doesn't appear in the original BDD. Before,
`simplify_and_domain` would trace through all of the constraints in a
BDD, figure out the full set of derived facts, and _add those derived
facts_ to the BDD structure. This is brittle, because those derived
facts are not universally true! In our example, `T ≤ int` only holds
along the BDD paths where both `T = U` and `U ≤ int`. Other paths will
test the negations of those constraints, and on those, we _shouldn't_
infer `T ≤ int`. In theory it's possible (and we were trying) to use BDD
operators to express that dependency...but that runs afoul of how we
were simultaneously trying to _remove_ information to make our displays
simpler.
So, I ripped off the band-aid. `simplify_and_domain` is now _only_ used
for display purposes. I have not touched it at all, except to remove
some logic that is definitely not used by our `Display` impl. Otherwise,
I did not want to touch that house of cards for now, since the display
logic is not load-bearing for any type inference logic.
For all non-display callers, we have a new **_sequent map_** data type,
which tracks exactly the same derived information. But it does so (a)
without trying to remove anything from the BDD, and (b) lazily, without
updating the BDD structure.
So the end result is that all of the tests (including the new
regressions) pass, via a more efficient (and hopefully better
structured/documented) implementation, at the cost of hanging onto a
pile of display-related tech debt that we'll want to clean up at some
point.
## Summary
This is another attempt at https://github.com/astral-sh/ruff/pull/21410
that fixes https://github.com/astral-sh/ruff/issues/19226.
@MichaReiser helped me get something working in a very helpful pairing
session. I pushed one additional commit moving the comments back from
leading comments to trailing comments, which I think retains more of the
input formatting.
I was inspired by Dylan's PR (#21185) to make one of these tables:
<table>
<thead>
<tr>
<th scope="col">Input</th>
<th scope="col">Main</th>
<th scope="col">PR</th>
</tr>
</thead>
<tbody>
<tr>
<td><pre lang="python">
if (
not
# comment
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa +
bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
):
pass
</pre></td>
<td><pre lang="python">
if (
# comment
not aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
):
pass
</pre></td>
<td><pre lang="python">
if (
not
# comment
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
):
pass
</pre></td>
</tr>
<tr>
<td><pre lang="python">
if (
# unary comment
not
# operand comment
(
# comment
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
)
):
pass
</pre></td>
<td><pre lang="python">
if (
# unary comment
# operand comment
not (
# comment
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
)
):
pass
</pre></td>
<td><pre lang="python">
if (
# unary comment
not
# operand comment
(
# comment
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
)
):
pass
</pre></td>
</tr>
<tr>
<td><pre lang="python">
if (
not # comment
aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
):
pass
</pre></td>
<td><pre lang="python">
if ( # comment
not aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
):
pass
</pre></td>
<td><pre lang="python">
if (
not aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa # comment
+ bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb
):
pass
</pre></td>
</tr>
</tbody>
</table>
hopefully it helps even though the snippets are much wider here.
The two main differences are (1) that we now retain own-line comments
between the unary operator and its operand instead of moving these to
leading comments on the operator itself, and (2) that we move
end-of-line comments between the operator and operand to dangling
end-of-line comments on the operand (the last example in the table).
## Test Plan
Existing tests, plus new ones based on the issue. As I noted below, I
also ran the output from main on the unary.py file back through this
branch to check that we don't reformat code from main. This made me feel
a bit better about not preview-gating the changes in this PR.
```shell
> git show main:crates/ruff_python_formatter/resources/test/fixtures/ruff/expression/unary.py | ruff format - | ./target/debug/ruff format --diff -
> echo $?
0
```
---------
Co-authored-by: Micha Reiser <micha@reiser.io>
Co-authored-by: Takayuki Maeda <takoyaki0316@gmail.com>
## Summary
This PR proposes that we add a new `set_concise_message` functionality
to our `Diagnostic` construction API. When used, the concise message
that is otherwise auto-generated from the main diagnostic message and
the primary annotation will be overwritten with the custom message.
To understand why this is desirable, let's look at the `invalid-key`
diagnostic. This is how I *want* the full diagnostic to look like:
<img width="620" height="282" alt="image"
src="https://github.com/user-attachments/assets/3bf70f52-9d9f-4817-bc16-fb0ebf7c2113"
/>
However, without the change in this PR, the concise message would have
the following form:
```
error[invalid-key]: Unknown key "Age" for TypedDict `Person`: Unknown key "Age" - did you mean "age"?
```
This duplication is why the full `invalid-key` diagnostic used a main
diagnostic message that is only "Invalid key for TypedDict `Person`", to
make that bearable:
```
error[invalid-key] Invalid key for TypedDict `Person`: Unknown key "Age" - did you mean "age"?
```
This is still less than ideal, *and* we had to make the "full"
diagnostic worse. With the new API here, we have to make no such
compromises. We need to do slightly more work (provide one additional
custom-designed message), but we get to keep the "full" diagnostic that
we actually want, and we can make the concise message more terse and
readable:
```
error[invalid-key] Unknown key "Age" for TypedDict `Person` - did you mean "age"?
```
Similar problems exist for other diagnostics as well (I really want this
for https://github.com/astral-sh/ruff/pull/21476). In this PR, I only
changed `invalid-key` and `type-assertion-failure`.
The PR here is somewhat related to the discussion in
https://github.com/astral-sh/ty/issues/1418, but note that we are
solving a problem that is unrelated to sub-diagnostics.
## Test Plan
Updated tests
## Summary
Add support for `Callable` special forms in implicit type aliases.
## Typing conformance
Four new tests are passing
## Ecosystem impact
* All of the `invalid-type-form` errors are from libraries that use
`mypy_extensions` and do something like `Callable[[NamedArg("x", str)],
int]`.
* A handful of new false positives because we do not support generic
specializations of implicit type aliases, yet. But other
* Everything else looks like true positives or known limitations
## Test Plan
New Markdown tests.
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
Fixes#21389
Avoid RUF012 false positives when reassigning a ClassVar
## Test Plan
<!-- How was it tested? -->
Added the new reassignment scenario to
`crates/ruff_linter/resources/test/fixtures/ruff/RUF012.py`.
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
Constraint sets can now track subtyping/assignability/etc of generic
callables correctly. For instance:
```py
def identity[T](t: T) -> T:
return t
constraints = ConstraintSet.always()
static_assert(constraints.implies_subtype_of(TypeOf[identity], Callable[[int], int]))
static_assert(constraints.implies_subtype_of(TypeOf[identity], Callable[[str], str]))
```
A generic callable can be considered an intersection of all of its
possible specializations, and an assignability check with an
intersection as the lhs side succeeds of _any_ of the intersected types
satisfies the check. Put another way, if someone expects to receive any
function with a signature of `(int) -> int`, we can give them
`identity`.
Note that the corresponding check using `is_subtype_of` directly does
not yet work, since #20093 has not yet hooked up the core typing
relationship logic to use constraint sets:
```py
# These currently fail
static_assert(is_subtype_of(TypeOf[identity], Callable[[int], int]))
static_assert(is_subtype_of(TypeOf[identity], Callable[[str], str]))
```
To do this, we add a new _existential quantification_ operation on
constraint sets. This takes in a list of typevars and _removes_ those
typevars from the constraint set. Conceptually, we return a new
constraint set that evaluates to `true` when there was _any_ assignment
of the removed typevars that caused the old constraint set to evaluate
to `true`.
When comparing a generic constraint set, we add its typevars to the
`inferable` set, and figure out whatever constraints would allow any
specialization to satisfy the check. We then use the new existential
quantification operator to remove those new typevars, since the caller
doesn't (and shouldn't) know anything about them.
---------
Co-authored-by: David Peter <sharkdp@users.noreply.github.com>
Closes#19350
This fixes a syntax error caused by formatting. However, the new tests reveal that there are some cases where formatting attributes with certain comments behaves strangely, both before and after this PR, so some more polish may be in order.
For example, without parentheses around the value, and both before and after this PR, we have:
```python
# unformatted
variable = (
something # a comment
.first_method("some string")
)
# formatted
variable = something.first_method("some string") # a comment
```
which is probably not where the comment ought to go.
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
Partially addresses https://github.com/astral-sh/ty/issues/1562
Only suggest the keyword "as" in import statements when the user have
written `import foo a<CURSOR>` or `from foo import bar a<CURSOR>` as no
other suggestion makes sense here.
Re-uses the existing pattern for incomplete `import from` statements to
determine incomplete import alias statements and make the suggestions
more sane in those cases.
There was a potential suggestion from @BurntSushi in
https://github.com/astral-sh/ty/issues/1562#issue-3626853513 to move the
handling of import statements into one unified state machine but I acted
on the side of caution and fixed this with already established patterns,
pending a potential bigger re-write down the line.
## Test Plan
Added new tests and checked that it behaved reasonable in the
playground.
<!-- How was it tested? -->
Running `eglot-format` in buffers not managed by Eglot causes a
`jsonrpc-error` in Emacs 30. It may also display a
`documentFormattingProvider` warning when the server does not support
formatting. Add checks for both.
This PR attempts to improve the placement of own-line comments between
branches in the setting where the comment is more indented than the
preceding node.
There are two main changes.
### First change: Preceding node has leading content
If the preceding node has leading content, we now regard the comment as
automatically _less_ indented than the preceding node, and format
accordingly.
For example,
```python
if True: preceding_node
# leading on `else`, not trailing on `preceding_node`
else: ...
```
This is more compatible with `black`, although there is a (presumably
very uncommon) edge case:
```python
if True:
this;that
# leading on `else`, but trailing in `black`
else: ...
```
I'm sort of okay with this - presumably if one wanted a comment for
those semi-colon separated statements, one should have put it _above_
them, and one wanted a comment only for `that` then it ought to have
been on the same line?
### Second change: searching for last child in body
While searching for the (recursively) last child in the body of the
preceding _branch_, we implicitly assumed that the preceding node had to
have a body to begin the recursion. But actually, in the base case, the
preceding node _is_ the last child in the body of the preceding branch.
So, for example:
```python
if True:
something
last_child_but_no_body
# leading on else for `main` but trailing in this PR
else: ...
```
### More examples
The table below is an attempt to summarize the changes in behavior. The
rows alternate between an example snippet with `while` and the same
example with `if` - in the former case we do _not_ have an `else` node
and in the latter we do.
Notice that:
1. On `main` our handling of `if` vs. `while` is not consistent, whereas
it is consistent in the present PR
2. We disagree with `black` in all cases except that last example on
`main`, but agree in all cases for the present PR (though see above for
a wonky edge case where we disagree).
<table>
<tr>
<th>Original
</th>
<th><code>main</code> </th>
<th>This
PR </th>
<th><code>black</code> </th>
</tr>
<tr>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
else:
# comment
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
</tr>
<tr>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
</tr>
<tr>
<td>
<pre lang="python">
while True: pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
</tr>
<tr>
<td>
<pre lang="python">
if True: pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
</tr>
<tr>
<td>
<pre lang="python">
while True: pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
else:
# comment
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
while True:
pass
# comment
else:
pass
</pre>
</td>
</tr>
<tr>
<td>
<pre lang="python">
if True: pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
<td>
<pre lang="python">
if True:
pass
# comment
else:
pass
</pre>
</td>
</tr>
</table>
## Summary
Follow up from https://github.com/astral-sh/ruff/pull/21411. Again,
there are more things that could be improved here (like the diagnostics
for `lists`, or extending what we have for `dict` to `OrderedDict` etc),
but that will have to be postponed.
This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
| [get-size2](https://redirect.github.com/bircni/get-size2) |
workspace.dependencies | patch | `0.7.1` -> `0.7.2` |
---
> [!WARNING]
> Some dependencies could not be looked up. Check the Dependency
Dashboard for more information.
---
### Release Notes
<details>
<summary>bircni/get-size2 (get-size2)</summary>
###
[`v0.7.2`](https://redirect.github.com/bircni/get-size2/blob/HEAD/CHANGELOG.md#072---2025-11-13)
[Compare
Source](https://redirect.github.com/bircni/get-size2/compare/0.7.1...0.7.2)
##### Documentation
- Update docs with correct links -
([b234d70](b234d70ece))
- Nicolas
</details>
---
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This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
| [indicatif](https://redirect.github.com/console-rs/indicatif) |
workspace.dependencies | patch | `0.18.2` -> `0.18.3` |
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<summary>console-rs/indicatif (indicatif)</summary>
###
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[Compare
Source](https://redirect.github.com/console-rs/indicatif/compare/0.18.2...0.18.3)
#### What's Changed
- Add ProgressBar::set\_elapsed by
[@​sunshowers](https://redirect.github.com/sunshowers) in
[#​742](https://redirect.github.com/console-rs/indicatif/pull/742)
</details>
---
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This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
| [quick-junit](https://redirect.github.com/nextest-rs/quick-junit) |
workspace.dependencies | patch | `0.5.1` -> `0.5.2` |
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<details>
<summary>nextest-rs/quick-junit (quick-junit)</summary>
###
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[Compare
Source](https://redirect.github.com/nextest-rs/quick-junit/compare/quick-junit-0.5.1...quick-junit-0.5.2)
##### Added
- A long-requested feature: deserialization support for reports! The new
deserializer has undergone fuzzing and property-based testing, and it is
known to work with JUnit reports generated by quick-junit. The
deserializer should work with JUnit reports generated by other tools as
well. If it doesn't, fixes are welcome.
- The new `proptest` feature allows for generation of arbitrary
`Report`s.
##### Updated
Internal dependency update: `quick-xml` updated to 0.38.3.
</details>
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## Summary
We previously only allowed models to overwrite the
`{eq,order,kw_only,frozen}_defaults` of the dataclass-transformer, but
all other standard-dataclass parameters should be equally supported with
the same behavior.
## Test Plan
Added regression tests.
## Summary
Not a high-priority task... but it _is_ a weekend :P
This PR improves our diagnostics for invalid exceptions. Specifically:
- We now give a special-cased ``help: Did you mean
`NotImplementedError`` subdiagnostic for `except NotImplemented`, `raise
NotImplemented` and `raise <EXCEPTION> from NotImplemented`
- If the user catches a tuple of exceptions (`except (foo, bar, baz):`)
and multiple elements in the tuple are invalid, we now collect these
into a single diagnostic rather than emitting a separate diagnostic for
each tuple element
- The explanation of why the `except`/`raise` was invalid ("must be a
`BaseException` instance or `BaseException` subclass", etc.) is
relegated to a subdiagnostic. This makes the top-level diagnostic
summary much more concise.
## Test Plan
Lots of snapshots. And here's some screenshots:
<details>
<summary>Screenshots</summary>
<img width="1770" height="1520" alt="image"
src="https://github.com/user-attachments/assets/7f27fd61-c74d-4ddf-ad97-ea4fd24d06fd"
/>
<img width="1916" height="1392" alt="image"
src="https://github.com/user-attachments/assets/83e5027c-8798-48a6-a0ec-1babfc134000"
/>
<img width="1696" height="588" alt="image"
src="https://github.com/user-attachments/assets/1bc16048-6eb4-4dfa-9ace-dd271074530f"
/>
</details>
Summary
--
I was firing up the fuzzer tonight and hit an assertion error here. We
now build with the `profiling` profile, so we need to use that
executable too.
This hasn't affected CI because we always set the `--test-executable`.
Test Plan
--
Ran the script again with the same arguments on this branch
## Summary
Allow metaclass-based and baseclass-based dataclass-transformers to
overwrite the default behavior using class arguments:
```py
class Person(Model, order=True):
# ...
```
## Conformance tests
Four new tests passing!
## Test Plan
New Markdown tests
This PR updates the constraint implication type relationship to work on
compound types as well. (A compound type is a non-atomic type, like
`list[T]`.)
The goal of constraint implication is to check whether the requirements
of a constraint imply that a particular subtyping relationship holds.
Before, we were only checking atomic typevars. That would let us verify
that the constraint set `T ≤ bool` implies that `T` is always a subtype
of `int`. (In this case, the lhs of the subtyping check, `T`, is an
atomic typevar.)
But we weren't recursing into compound types, to look for nested
occurrences of typevars. That means that we weren't able to see that `T
≤ bool` implies that `Covariant[T]` is always a subtype of
`Covariant[int]`.
Doing this recursion means that we have to carry the constraint set
along with us as we recurse into types as part of `has_relation_to`, by
adding constraint implication as a new `TypeRelation` variant. (Before
it was just a method on `ConstraintSet`.)
---------
Co-authored-by: David Peter <sharkdp@users.noreply.github.com>
## Summary
Currently our diagnostic only covers the range of the thing being
subscripted:
<img width="1702" height="312" alt="image"
src="https://github.com/user-attachments/assets/7e630431-e846-46ca-93c1-139f11aaba11"
/>
But it should probably cover the _whole_ subscript expression (arguably
the more "incorrect" bit is the `["foo"]` part of this expression, not
the `x` part of this expression!)
## Test Plan
Added a snapshot
Co-authored-by: Brent Westbrook
<36778786+ntBre@users.noreply.github.com>
## Summary
Extends literal promotion to apply to any generic method, as opposed to
only generic class constructors. This PR also improves our literal
promotion heuristics to only promote literals in non-covariant position
in the return type, and avoid promotion if the literal is present in
non-covariant position in any argument type.
Resolves https://github.com/astral-sh/ty/issues/1357.
## Summary
- Always restore the previous `deferred_state` after parsing a type
expression: we don't want that state leaking out into other contexts
where we shouldn't be deferring expression inference
- Always defer the right-hand-side of a PEP-613 type alias in a stub
file, allowing for forward references on the right-hand side of `T:
TypeAlias = X | Y` in a stub file
Addresses @carljm's review in
https://github.com/astral-sh/ruff/pull/21401#discussion_r2524260153
## Test Plan
I added a regression test for a regression that the first version of
this PR introduced (we need to make sure the r.h.s. of a PEP-613
`TypeAlias`es is always deferred in a stub file)
## Summary
We currently fail to account for the type context when inferring generic
classes constructed with `__new__`, or synthesized `__init__` for
dataclasses.
There are a few places in Python where it is known that new names are
being introduced and thus we probably shouldn't offer completions. We
already handle this today for things like `class <CURSOR>` and `def
<CURSOR>`. But we didn't handle `as <CURSOR>`, which can appear in
`import`, `with`, `except` and `match` statements. Indeed, these are
exactly the 4 cases where the `as` keyword can occur. So we look for the
presence of `as` and suppress completions based on that.
While we're here, we also make the implementation a bit more robust with
respect to suppressing completions when the user hasn't typed anything.
Namely, previously, we'd still offer completions in a `class <CURSOR>`
context. But it looks like LSP clients (at least, VS Code) doesn't ask
for completions here, so we were "saved" incidentally. This PR detects
this case and suppresses completions there so we don't rely on LSP
client behavior to handle that case correctly.
Fixesastral-sh/ty#1287
## Summary
Infer the first argument `type` inside `Annotated[type, …]` as a type
expression. This allows us to support stringified annotations inside
`Annotated`.
## Ecosystem
* The removed diagnostic on `prefect` shows that we now understand the
`State.data` type annotation in
`src/prefect/client/schemas/objects.py:230`, which uses a stringified
annotation in `Annoated`. The other diagnostics are downstream changes
that result from this, it seems to be a commonly used data type.
* `artigraph` does something like `Annotated[cast(Any,
field_info.annotation), *field_info.metadata]` which I'm not sure we
need to allow? It's unfortunate since this is probably supported at
runtime, but it seems reasonable that they need to add a `# type:
ignore` for that.
* `pydantic` uses something like `Annotated[(self.annotation,
*self.metadata)]` but adds a `# type: ignore`
## Test Plan
New Markdown test
## Summary
Typeshed has a (fake) `__getattr__` method on `types.ModuleType` with a
return type of `Any`. We ignore this method when accessing attributes on
module *literals*, but with this PR, we respect this method when dealing
with `ModuleType` itself. That is, we allow arbitrary attribute accesses
on instances of `types.ModuleType`. This is useful because dynamic
import mechanisms such as `importlib.import_module` use `ModuleType` as
a return type.
closes https://github.com/astral-sh/ty/issues/1346
## Ecosystem
Massive reduction in diagnostics. The few new diagnostics are true
positives.
## Test Plan
Added regression test.
## Summary
Add synthetic members to completions on dataclasses and dataclass
instances.
Also, while we're at it, add support for `__weakref__` and
`__match_args__`.
closes https://github.com/astral-sh/ty/issues/1542
## Test Plan
New Markdown tests
## Summary
Support various legacy `typing` special forms (`List`, `Dict`, …) in
implicit type aliases.
## Ecosystem impact
A lot of true positives (e.g. on `alerta`)!
## Test Plan
New Markdown tests
## Summary
Support `type[…]` in implicit type aliases, for example:
```py
SubclassOfInt = type[int]
reveal_type(SubclassOfInt) # GenericAlias
def _(subclass_of_int: SubclassOfInt):
reveal_type(subclass_of_int) # type[int]
```
part of https://github.com/astral-sh/ty/issues/221
## Typing conformance
```diff
-specialtypes_type.py:138:5: error[type-assertion-failure] Argument does not have asserted type `type[Any]`
-specialtypes_type.py:140:5: error[type-assertion-failure] Argument does not have asserted type `type[Any]`
```
Two new tests passing ✔️
```diff
-specialtypes_type.py:146:1: error[unresolved-attribute] Object of type `GenericAlias` has no attribute `unknown`
```
An `TA4.unknown` attribute on a PEP 613 alias (`TA4: TypeAlias =
type[Any]`) is being accessed, and the conformance suite expects this to
be an error. Since we currently use the inferred type for these type
aliases (and possibly in the future as well), we treat this as a direct
access of the attribute on `type[Any]`, which falls back to an access on
`Any` itself, which succeeds. 🔴
```
+specialtypes_type.py:152:16: error[invalid-type-form] `typing.TypeVar` is not a generic class
+specialtypes_type.py:156:16: error[invalid-type-form] `typing.TypeVar` is not a generic class
```
New errors because we don't handle `T = TypeVar("T"); MyType = type[T];
MyType[T]` yet. Support for this is being tracked in
https://github.com/astral-sh/ty/issues/221🔴
## Ecosystem impact
Looks mostly good, a few known problems.
## Test Plan
New Markdown tests
## Summary
Allow users of `mdtest.py` to press enter to rerun all mdtests without
recompiling (thanks @AlexWaygood).
I swear I tried three other approaches (including a fully async version)
before I settled on this solution. It is indeed silly, but works just
fine.
## Test Plan
Interactive playing around
## Summary
Further improve subscript assignment diagnostics, especially for
`dict`s:
```py
config: dict[str, int] = {}
config["retries"] = "three"
```
<img width="1276" height="274" alt="image"
src="https://github.com/user-attachments/assets/9762c733-8d1c-4a57-8c8a-99825071dc7d"
/>
I have many more ideas, but this looks like a reasonable first step.
Thank you @AlexWaygood for some of the suggestions here.
## Test Plan
Update tests
## Summary
This change to the mdtest runner makes it easy to run on a subset of
tests/files. For example:
```
▶ uv run crates/ty_python_semantic/mdtest.py implicit
running 1 test
test mdtest__implicit_type_aliases ... ok
test result: ok. 1 passed; 0 failed; 0 ignored; 0 measured; 281 filtered out; finished in 0.83s
Ready to watch for changes...
```
Subsequent changes to either that test file or the Rust source code will
also only rerun the `implicit_type_aliases` test.
Multiple arguments can be provided, and filters can either be partial
file paths (`loops/for.md`, `loops/for`, `for`) or mangled test names
(`loops_for`):
```
▶ uv run crates/ty_python_semantic/mdtest.py implicit binary/union
running 2 tests
test mdtest__binary_unions ... ok
test mdtest__implicit_type_aliases ... ok
test result: ok. 2 passed; 0 failed; 0 ignored; 0 measured; 280 filtered out; finished in 0.85s
Ready to watch for changes...
```
## Test Plan
Tested it interactively for a while
## Summary
This PR renames the `CallableBinding::matching_overload_index` field to
`CallableBinding::matching_overload_after_parameter_matching` to clarify
the main use case of this field which is to surface type checking errors
on the matching overloads directly instead of using the
`no-matching-overload` diagnostic. This can only happen after parameter
matching as following steps could filter out this overload which should
then result in `no-matching-overload` diagnostic.
Callers should use the `matching_overload_index` _method_ to get the
matching overloads.
## Summary
We synthesize a (potentially large) set of `__setitem__` overloads for
every item in a `TypedDict`. Previously, validation of subscript
assignments on `TypedDict`s relied on actually calling `__setitem__`
with the provided key and value types, which implied that we needed to
do the full overload call evaluation for this large set of overloads.
This PR improves the performance of subscript assignment checks on
`TypedDict`s by validating the assignment directly instead of calling
`__setitem__`.
This PR also adds better handling for assignments to subscripts on union
and intersection types (but does not attempt to make it perfect). It
achieves this by distributing the check over unions and intersections,
instead of calling `__setitem__` on the union/intersection directly. We
already do something similar when validating *attribute* assignments.
## Ecosystem impact
* A lot of diagnostics change their rule type, and/or split into
multiple diagnostics. The new version is more verbose, but easier to
understand, in my opinion
* Almost all of the invalid-key diagnostics come from pydantic, and they
should all go away (including many more) when we implement
https://github.com/astral-sh/ty/issues/1479
* Everything else looks correct to me. There may be some new diagnostics
due to the fact that we now check intersections.
## Test Plan
New Markdown tests.
## Summary
cf. https://github.com/astral-sh/ruff/pull/20962
In the following code, `foo` in the comprehension was not reported as
unresolved:
```python
# error: [unresolved-reference] "Name `foo` used when not defined"
foo
foo = [
# no error!
# revealed: Divergent
reveal_type(x) for _ in () for x in [foo]
]
baz = [
# error: [unresolved-reference] "Name `baz` used when not defined"
# revealed: Unknown
reveal_type(x) for _ in () for x in [baz]
]
```
In fact, this is a more serious bug than it looks: for `foo`,
[`explicit_global_symbol` is
called](6cc3393ccd/crates/ty_python_semantic/src/types/infer/builder.rs (L8052)),
causing a symbol that should actually be `Undefined` to be reported as
being of type `Divergent`.
This PR fixes this bug. As a result, the code in
`mdtest/regression/pr_20962_comprehension_panics.md` no longer panics.
## Test Plan
`corpus\cyclic_symbol_in_comprehension.py` is added.
New tests are added in `mdtest/comprehensions/basic.md`.
---------
Co-authored-by: Micha Reiser <micha@reiser.io>
Co-authored-by: Carl Meyer <carl@astral.sh>
## Summary
Added the PyScripter IDE to the list of "Who is using Ruff?".
PyScripter is a popular python IDE that is using ruff for code
diagnostics, fixes and code formatting.
## Summary
Fixes#21393
Now the rule checks if the index variable is initialized as an `int`
type rather than only flagging if the index variable is initialized to
`0`. I used `ResolvedPythonType` to check if the index variable is an
`int` type.
## Test Plan
Updated snapshot test for `SIM113`.
---------
Co-authored-by: Brent Westbrook <36778786+ntBre@users.noreply.github.com>
## Summary
Add (snapshot) tests for subscript assignment diagnostics. This is
mainly intended to establish a baseline before I hope to improve some of
these messages.
## Summary
Add support for `typing.Union` in implicit type aliases / in value
position.
## Typing conformance tests
Two new tests are passing
## Ecosystem impact
* The 2k new `invalid-key` diagnostics on pydantic are caused by
https://github.com/astral-sh/ty/issues/1479#issuecomment-3513854645.
* Everything else I've checked is either a known limitation (often
related to type narrowing, because union types are often narrowed down
to a subset of options), or a true positive.
## Test Plan
New Markdown tests
I don't know why, but it always takes me an eternity to find the failing
project name a few lines below in the output. So I'm suggesting we just
add the project name to the assertion message.
## Summary
Fix https://github.com/astral-sh/ty/issues/664
This PR adds support for storing attributes in comprehension scopes (any
eager scope.)
For example in the following code we infer type of `z` correctly:
```py
class C:
def __init__(self):
[None for self.z in range(1)]
reveal_type(C().z) # previously [unresolved-attribute] but now shows Unknown | int
```
The fix works by adjusting the following logics:
To identify if an attriute is an assignment to self or cls we need to
check the scope is a method. To allow comprehension scopes here we skip
any eager scope in the check.
Also at this stage the code checks if self or the first method argument
is shadowed by another binding that eager scope to prevent this:
```py
class D:
g: int
class C:
def __init__(self):
[[None for self.g in range(1)] for self in [D()]]
reveal_type(C().g) # [unresolved-attribute]
```
When determining scopes that attributes might be defined after
collecting all the methods of the class the code also returns any
decendant scope that is eager and only has eager parents until the
method scope.
When checking reachability of a attribute definition if the attribute is
defined in an eager scope we use the reachability of the first non eager
scope which must be a method. This allows attributes to be marked as
reachable and be seen.
There are also which I didn't add support for:
```py
class C:
def __init__(self):
def f():
[None for self.z in range(1)]
f()
reveal_type(C().z) # [unresolved-attribute]
```
In the above example we will not even return the comprehension scope as
an attribute scope because there is a non eager scope (`f` function)
between the comprehension and the `__init__` method
---------
Co-authored-by: Carl Meyer <carl@astral.sh>
It looks like VS Code does this forcefully. As in, I don't think we can
override it. It also seems like a plausibly good idea. But by us doing
it too, it makes our completion evaluation framework match real world
conditions. (To the extent that "VS Code" and "real world conditions"
are the same. Which... they aren't. But it's close, since VS Code is so
popular.)
This should round out the rest of the set. I think I had hesitated doing
this before because some of these don't make sense in every context. But
I think identifying the correct context for every keyword could be quite
difficult. And at the very least, I think offering these at least as a
choice---even if they aren't always correct---is better than not doing
it at all.
## Summary
Fixes https://github.com/astral-sh/ty/issues/1409
This PR allows `Final` instance attributes to be initialized in
`__init__` methods, as mandated by the Python typing specification (PEP
591). Previously, ty incorrectly prevented this initialization, causing
false positive errors.
The fix checks if we're inside an `__init__` method before rejecting
Final attribute assignments, allowing assignments during
instance initialization while still preventing reassignment elsewhere.
## Test Plan
- Added new test coverage in `final.md` for the reported issue with
`Self` annotations
- Updated existing tests that were incorrectly expecting errors
- All 278 mdtest tests pass
- Manually tested with real-world code examples
---------
Co-authored-by: Carl Meyer <carl@astral.sh>
Fixes https://github.com/astral-sh/ty/issues/1487
This one is a true extension of non-standard semantics, and is therefore
a certified Hot Take we might conclude is simply a Bad Take (let's see
what ecosystem tests say...).
By resolving `.` and the LHS of the from import during semantic
indexing, we can check if the LHS is a submodule of `.`, and handle
`from whatever.thispackage.x.y import z` exactly like we do `from .x.y
import z`.
Fixes https://github.com/astral-sh/ty/issues/1484
This manifested as an error when inferring the type of a PEP-695 generic
class via its constructor parameters:
```py
class D[T, U]:
@overload
def __init__(self: "D[str, U]", u: U) -> None: ...
@overload
def __init__(self, t: T, u: U) -> None: ...
def __init__(self, *args) -> None: ...
# revealed: D[Unknown, str]
# SHOULD BE: D[str, str]
reveal_type(D("string"))
```
This manifested because `D` is inferred to be bivariant in both `T` and
`U`. We weren't seeing this in the equivalent example for legacy
typevars, since those default to invariant. (This issue also showed up
for _covariant_ typevars, so this issue was not limited to bivariance.)
The underlying cause was because of a heuristic that we have in our
current constraint solver, which attempts to handle situations like
this:
```py
def f[T](t: T | None): ...
f(None)
```
Here, the `None` argument matches the non-typevar union element, so this
argument should not add any constraints on what `T` can specialize to.
Our previous heuristic would check for this by seeing if the argument
type is a subtype of the parameter annotation as a whole — even if it
isn't a union! That would cause us to erroneously ignore the `self`
parameter in our constructor call, since bivariant classes are
equivalent to each other, regardless of their specializations.
The quick fix is to move this heuristic "down a level", so that we only
apply it when the parameter annotation is a union. This heuristic should
go away completely 🤞 with the new constraint solver.
This loses any ability to have "per-function" implicit submodule
imports, to avoid the "ok but now we need per-scope imports" and "ok but
this should actually introduce a global that only exists during this
function" problems. A simple and clean implementation with no weird
corners.
Fixes https://github.com/astral-sh/ty/issues/1482
This rips out the previous implementation in favour of a new
implementation with 3 rules:
- **froms are locals**: a `from..import` can only define locals, it does
not have global
side-effects. Specifically any submodule attribute `a` that's implicitly
introduced by either
`from .a import b` or `from . import a as b` (in an `__init__.py(i)`) is
a local and not a
global. If you do such an import at the top of a file you won't notice
this. However if you do
such an import in a function, that means it will only be function-scoped
(so you'll need to do
it in every function that wants to access it, making your code less
sensitive to execution
order).
- **first from first serve**: only the *first* `from..import` in an
`__init__.py(i)` that imports a
particular direct submodule of the current package introduces that
submodule as a local.
Subsequent imports of the submodule will not introduce that local. This
reflects the fact that
in actual python only the first import of a submodule (in the entire
execution of the program)
introduces it as an attribute of the package. By "first" we mean "the
first time in this scope
(or any parent scope)". This pairs well with the fact that we are
specifically introducing a
local (as long as you don't accidentally shadow or overwrite the local).
- **dot re-exports**: `from . import a` in an `__init__.pyi` is
considered a re-export of `a`
(equivalent to `from . import a as a`). This is required to properly
handle many stubs in the
wild. Currently it must be *exactly* `from . import ...`.
This implementation is intentionally limited/conservative (notably,
often requiring a from import to be relative). I'm going to file a ton
of followups for improvements so that their impact can be evaluated
separately.
Fixes https://github.com/astral-sh/ty/issues/133
## Summary
Fixed RUF065 (`logging-eager-conversion`) to only flag `str()` calls
when they perform a simple conversion that can be safely removed. The
rule now ignores `str()` calls with no arguments, multiple arguments,
starred arguments, or keyword unpacking, preventing false positives.
Fixes#21315
## Problem Analysis
The RUF065 rule was incorrectly flagging all `str()` calls in logging
statements, even when `str()` was performing actual conversion work
beyond simple type coercion. Specifically, the rule flagged:
- `str()` with no arguments - which returns an empty string
- `str(b"data", "utf-8")` with multiple arguments - which performs
encoding conversion
- `str(*args)` with starred arguments - which unpacks arguments
- `str(**kwargs)` with keyword unpacking - which passes keyword
arguments
These cases cannot be safely removed because `str()` is doing meaningful
work (encoding conversion, argument unpacking, etc.), not just redundant
type conversion.
The root cause was that the rule only checked if the function was
`str()` without validating the call signature. It didn't distinguish
between simple `str(value)` conversions (which can be removed) and more
complex `str()` calls that perform actual work.
## Approach
The fix adds validation to the `str()` detection logic in
`logging_eager_conversion.rs`:
1. **Check argument count**: Only flag `str()` calls with exactly one
positional argument (`str_call_args.args.len() == 1`)
2. **Check for starred arguments**: Ensure the single argument is not
starred (`!str_call_args.args[0].is_starred_expr()`)
3. **Check for keyword arguments**: Ensure there are no keyword
arguments (`str_call_args.keywords.is_empty()`)
This ensures the rule only flags cases like `str(value)` where `str()`
is truly redundant and can be removed, while ignoring cases where
`str()` performs actual conversion work.
The fix maintains backward compatibility - all existing valid test cases
continue to be flagged correctly, while the new edge cases are properly
ignored.
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
It's everyone's favourite language corner case!
Also having kicked the tires on it, I'm pretty happy to call this (in
conjunction with #21367):
Fixes https://github.com/astral-sh/ty/issues/494
There's cases where you can make noisy Literal hints appear, so we can
always iterate on it, but this handles like, 98% of the cases in the
wild, which is great.
---------
Co-authored-by: David Peter <sharkdp@users.noreply.github.com>
I'm not 100% sold on this implementation, but it's a strict improvement
and it adds a ton of snapshot tests for future iteration.
Part of https://github.com/astral-sh/ty/issues/494
## Summary
Fixes FURB105 (`print-empty-string`) to detect empty f-strings in
addition to regular empty strings. Previously, the rule only flagged
`print("")` but missed `print(f"")`. This fix ensures both cases are
detected and can be automatically fixed.
Fixes#21346
## Problem Analysis
The FURB105 rule checks for unnecessary empty strings passed to
`print()` calls. The `is_empty_string` helper function was only checking
for `Expr::StringLiteral` with empty values, but did not handle
`Expr::FString` (f-strings). As a result, `print(f"")` was not being
flagged as a violation, even though it's semantically equivalent to
`print("")` and should be simplified to `print()`.
The issue occurred because the function used a `matches!` macro that
only checked for string literals:
```rust
fn is_empty_string(expr: &Expr) -> bool {
matches!(
expr,
Expr::StringLiteral(ast::ExprStringLiteral { value, .. }) if value.is_empty()
)
}
```
## Approach
1. **Import the helper function**: Added `is_empty_f_string` to the
imports from `ruff_python_ast::helpers`, which already provides logic to
detect empty f-strings.
2. **Update `is_empty_string` function**: Changed the implementation
from a `matches!` macro to a `match` expression that handles both string
literals and f-strings:
```rust
fn is_empty_string(expr: &Expr) -> bool {
match expr {
Expr::StringLiteral(ast::ExprStringLiteral { value, .. }) =>
value.is_empty(),
Expr::FString(f_string) => is_empty_f_string(f_string),
_ => false,
}
}
```
The fix leverages the existing `is_empty_f_string` helper function which
properly handles the complexity of f-strings, including nested f-strings
and interpolated expressions. This ensures the detection is accurate and
consistent with how empty strings are detected elsewhere in the
codebase.
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## Summary
Resolves https://github.com/astral-sh/ty/issues/1494
## Test Plan
Add a test showing if we are in `from <name> <name> ` we provide the
keyword completion "import"
This elides the following inlay hints:
```py
foo([x=]x)
foo([x=]y.x)
foo([x=]x[0])
foo([x=]x(...))
# composes to complex situations
foo([x=]y.x(..)[0])
```
Fixes https://github.com/astral-sh/ty/issues/1514
Summary
--
Fixes#21360 by using the union of names instead of overwriting them, as
Micha suggested originally on #21104.
This avoids overwriting the `n` name in the `Subscript` by the empty set
of names visited in the nested OR pattern before visiting the other arm
of the outer OR pattern.
Test Plan
--
A new inline test case taken from the issue
Summary
--
This PR adds a new section to CONTRIBUTING.md describing the expected
contents of the PR summary and test plan, using the ecosystem report,
and communicating the status of a PR.
This seemed like a pretty good place to insert this in the document, at
the end of the advice on preparing actual code changes, but I'm
certainly open to other suggestions about both the content and
placement.
Test Plan
--
Future PRs :)
---------
Co-authored-by: Micha Reiser <micha@reiser.io>
## Summary
Detect usages of implicit `self` in property getters, which allows us to
treat their signature as being generic.
closes https://github.com/astral-sh/ty/issues/1502
## Typing conformance
Two new type assertions that are succeeding.
## Ecosystem results
Mostly look good. There are a few new false positives related to a bug
with constrained typevars that is unrelated to the work here. I reported
this as https://github.com/astral-sh/ty/issues/1503.
## Test Plan
Added regression tests.
## Summary
Add support for `Optional` and `Annotated` in implicit type aliases
part of https://github.com/astral-sh/ty/issues/221
## Typing conformance changes
New expected diagnostics.
## Ecosystem
A lot of true positives, some known limitations unrelated to this PR.
## Test Plan
New Markdown tests
## Summary
This PR adds extra validation for `isinstance()` and `issubclass()`
calls that use `UnionType` instances for their second argument.
According to typeshed's annotations, any `UnionType` is accepted for the
second argument, but this isn't true at runtime: at runtime, all
elements in the `UnionType` must either be class objects or be `None` in
order for the `isinstance()` or `issubclass()` call to reliably succeed:
```pycon
% uvx python3.14
Python 3.14.0 (main, Oct 10 2025, 12:54:13) [Clang 20.1.4 ] on darwin
Type "help", "copyright", "credits" or "license" for more information.
>>> from typing import LiteralString
>>> import types
>>> type(LiteralString | int) is types.UnionType
True
>>> isinstance(42, LiteralString | int)
Traceback (most recent call last):
File "<python-input-5>", line 1, in <module>
isinstance(42, LiteralString | int)
~~~~~~~~~~^^^^^^^^^^^^^^^^^^^^^^^^^
File "/Users/alexw/Library/Application Support/uv/python/cpython-3.14.0-macos-aarch64-none/lib/python3.14/typing.py", line 559, in __instancecheck__
raise TypeError(f"{self} cannot be used with isinstance()")
TypeError: typing.LiteralString cannot be used with isinstance()
```
## Test Plan
Added mdtests/snapshots
This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
|
[cargo-bins/cargo-binstall](https://redirect.github.com/cargo-bins/cargo-binstall)
| action | patch | `v1.15.10` -> `v1.15.11` |
---
> [!WARNING]
> Some dependencies could not be looked up. Check the Dependency
Dashboard for more information.
---
### Release Notes
<details>
<summary>cargo-bins/cargo-binstall (cargo-bins/cargo-binstall)</summary>
###
[`v1.15.11`](https://redirect.github.com/cargo-bins/cargo-binstall/releases/tag/v1.15.11)
[Compare
Source](https://redirect.github.com/cargo-bins/cargo-binstall/compare/v1.15.10...v1.15.11)
*Binstall is a tool to fetch and install Rust-based executables as
binaries. It aims to be a drop-in replacement for `cargo install` in
most cases. Install it today with `cargo install cargo-binstall`, from
the binaries below, or if you already have it, upgrade with `cargo
binstall cargo-binstall`.*
##### In this release:
- Fix binstalk-downloader cannot decode some zip files on macos (x64 and
arm64) platforms
([#​2049](https://redirect.github.com/cargo-bins/cargo-binstall/issues/2049)
[#​2362](https://redirect.github.com/cargo-bins/cargo-binstall/issues/2362))
- Fix grammer in `HELP.md` and `--help` output
([#​2357](https://redirect.github.com/cargo-bins/cargo-binstall/issues/2357)
[#​2359](https://redirect.github.com/cargo-bins/cargo-binstall/issues/2359))
- Update documentation link in Cargo.toml
([#​2355](https://redirect.github.com/cargo-bins/cargo-binstall/issues/2355))
##### Other changes:
- Upgrade dependencies
</details>
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This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
| [jiff](https://redirect.github.com/BurntSushi/jiff) |
workspace.dependencies | patch | `0.2.15` -> `0.2.16` |
---
> [!WARNING]
> Some dependencies could not be looked up. Check the Dependency
Dashboard for more information.
---
### Release Notes
<details>
<summary>BurntSushi/jiff (jiff)</summary>
###
[`v0.2.16`](https://redirect.github.com/BurntSushi/jiff/blob/HEAD/CHANGELOG.md#0216-2025-11-07)
[Compare
Source](https://redirect.github.com/BurntSushi/jiff/compare/0.2.15...0.2.16)
\===================
This release contains a number of enhancements and bug fixes that have
accrued
over the last few months. Most are small polishes. A couple of the bug
fixes
apply to panics that could occur when parsing invalid `TZ` strings or
invalid
`strptime` format strings.
Also, parsing into a `Span` should now be much faster (for both the ISO
8601
and "friendly" duration formats).
Enhancements:
- [#​298](https://redirect.github.com/BurntSushi/jiff/issues/298):
Add Serde helpers for (de)serializing `std::time::Duration` values.
- [#​396](https://redirect.github.com/BurntSushi/jiff/issues/396):
Add `Sub` and `Add` trait implementations for `Zoned` (in addition to
the
already existing trait implementations for `&Zoned`).
- [#​397](https://redirect.github.com/BurntSushi/jiff/pull/397):
Add `BrokenDownTime::set_meridiem` and ensure it overrides the hour when
formatting.
- [#​409](https://redirect.github.com/BurntSushi/jiff/pull/409):
Switch dependency on `serde` to `serde_core`. This should help speed up
compilation times in some cases.
- [#​430](https://redirect.github.com/BurntSushi/jiff/pull/430):
Add new `Zoned::series` API, making it consistent with the same API on
other
datetime types.
- [#​432](https://redirect.github.com/BurntSushi/jiff/pull/432):
When `lenient` mode is enabled for `strftime`, Jiff will no longer error
when
the formatting string contains invalid UTF-8.
- [#​432](https://redirect.github.com/BurntSushi/jiff/pull/432):
Formatting of `%y` and `%g` no longer fails based on the specific year
value.
- [#​432](https://redirect.github.com/BurntSushi/jiff/pull/432):
Parsing of `%s` is now a bit more consistent with other fields.
Moreover,
`BrokenDownTime::{to_timestamp,to_zoned}` will now prefer timestamps
parsed
with `%s` over any other fields that have been parsed.
- [#​433](https://redirect.github.com/BurntSushi/jiff/pull/433):
Allow parsing just a `%s` into a `Zoned` via the `Etc/Unknown` time
zone.
Bug fixes:
- [#​386](https://redirect.github.com/BurntSushi/jiff/issues/386):
Fix a bug where `2087-12-31T23:00:00Z` in the `Africa/Casablanca` time
zone
could not be round-tripped (because its offset was calculated
incorrectly as
a result of not handling "permanent DST" POSIX time zones).
- [#​407](https://redirect.github.com/BurntSushi/jiff/issues/407):
Fix a panic that occurred when parsing an empty string as a POSIX time
zone.
- [#​410](https://redirect.github.com/BurntSushi/jiff/issues/410):
Fix a panic that could occur when parsing `%:` via `strptime` APIs.
- [#​414](https://redirect.github.com/BurntSushi/jiff/pull/414):
Update some parts of the documentation to indicate that
`TimeZone::unknown()`
is a fallback for `TimeZone::system()` (instead of the `jiff 0.1`
behavior of
using `TimeZone::UTC`).
- [#​423](https://redirect.github.com/BurntSushi/jiff/issues/423):
Fix a panicking bug when reading malformed TZif data.
- [#​426](https://redirect.github.com/BurntSushi/jiff/issues/426):
Fix a panicking bug when parsing century (`%C`) via `strptime`.
- [#​445](https://redirect.github.com/BurntSushi/jiff/pull/445):
Fixed bugs with parsing durations like `-9223372036854775808s`
and `-PT9223372036854775808S`.
Performance:
- [#​445](https://redirect.github.com/BurntSushi/jiff/pull/445):
Parsing into `Span` or `SignedDuration` is now a fair bit faster in some
cases.
</details>
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## Summary
Fixed FURB101 (`read-whole-file`) to handle annotated assignments.
Previously, the rule would detect violations in code like `contents: str
= f.read()` but fail to generate a fix. Now it correctly generates fixes
that preserve type annotations (e.g., `contents: str =
Path("file.txt").read_text(encoding="utf-8")`).
Fixes#21274
## Problem Analysis
The FURB101 rule was only checking for `Stmt::Assign` statements when
determining whether a fix could be applied. When encountering annotated
assignments (`Stmt::AnnAssign`) like `contents: str = f.read()`, the
rule would:
1. Correctly detect the violation (the diagnostic was reported)
2. Fail to generate a fix because:
- The `visit_expr` method only matched `Stmt::Assign`, not
`Stmt::AnnAssign`
- The `generate_fix` function only accepted `Stmt::Assign` in its body
validation
- The replacement code generation didn't account for type annotations
This occurred because Python's AST represents annotated assignments as a
different node type (`StmtAnnAssign`) with separate fields for the
target, annotation, and value, unlike regular assignments which use a
list of targets.
## Approach
The fix extends the rule to handle both assignment types:
1. **Updated `visit_expr` method**: Now matches both `Stmt::Assign` and
`Stmt::AnnAssign`, extracting:
- Variable name from the target expression
- Type annotation code (when present) using the code generator
2. **Updated `generate_fix` function**:
- Added `annotation: Option<String>` parameter to accept annotation code
- Updated body validation to accept both `Stmt::Assign` and
`Stmt::AnnAssign`
- Modified replacement code generation to preserve annotations: `{var}:
{annotation} = {binding}({filename_code}).{suggestion}`
3. **Added test case**: Added an annotated assignment test case to
verify the fix works correctly.
The implementation maintains backward compatibility with regular
assignments while adding support for annotated assignments, ensuring
type annotations are preserved in the generated fixes.
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
We have lots of `TypeVisitor`s that end up having very similar
`visit_type` implementations. This PR consolidates some of the code for
these so that there's less repetition and duplication.
When checking whether a constraint set is satisfied, if a typevar has a
non-fully-static upper bound or constraint, we are free to choose any
materialization that makes the check succeed.
In non-inferable positions, we have to show that the constraint set is
satisfied for all valid specializations, so it's best to choose the most
restrictive materialization, since that minimizes the set of valid
specializations that have to pass.
In inferable positions, we only have to show that the constraint set is
satisfied for _some_ valid specializations, so it's best to choose the
most permissive materialization, since that maximizes our chances of
finding a specialization that passes.
Summary
--
These rules are themselves in preview, so we don't need the additional
preview checks on the fixes or the separate preview tests. This has
confused me in a couple of reviews of changes to the fixes.
Test Plan
--
Existing tests, with the fixes previously only shown in the preview
tests now in the "non-preview" tests.
## Summary
Add support for `Literal` types in implicit type aliases.
part of https://github.com/astral-sh/ty/issues/221
## Ecosystem analysis
This looks good to me, true positives and known problems.
## Test Plan
New Markdown tests.
## Summary
This PR adds support for understanding the legacy definition and PEP 695
definition for `ParamSpec`.
This is still very initial and doesn't really implement any of the
semantics.
Part of https://github.com/astral-sh/ty/issues/157
## Test Plan
Add mdtest cases.
## Ecosystem analysis
Most of the diagnostics in `starlette` are due to the fact that ty now
understands `ParamSpec` is not a `Todo` type, so the assignability check
fails. The code looks something like:
```py
class _MiddlewareFactory(Protocol[P]):
def __call__(self, app: ASGIApp, /, *args: P.args, **kwargs: P.kwargs) -> ASGIApp: ... # pragma: no cover
class Middleware:
def __init__(
self,
cls: _MiddlewareFactory[P],
*args: P.args,
**kwargs: P.kwargs,
) -> None:
self.cls = cls
self.args = args
self.kwargs = kwargs
# ty complains that `ServerErrorMiddleware` is not assignable to `_MiddlewareFactory[P]`
Middleware(ServerErrorMiddleware, handler=error_handler, debug=debug)
```
There are multiple diagnostics where there's an attribute access on the
`Wrapped` object of `functools` which Pyright also raises:
```py
from functools import wraps
def my_decorator(f):
@wraps(f)
def wrapper(*args, **kwds):
return f(*args, **kwds)
# Pyright: Cannot access attribute "__signature__" for class "_Wrapped[..., Unknown, ..., Unknown]"
Attribute "__signature__" is unknown [reportAttributeAccessIssue]
# ty: Object of type `_Wrapped[Unknown, Unknown, Unknown, Unknown]` has no attribute `__signature__` [unresolved-attribute]
wrapper.__signature__
return wrapper
```
There are additional diagnostics that is due to the assignability checks
failing because ty now infers the `ParamSpec` instead of using the
`Todo` type which would always succeed. This results in a few
`no-matching-overload` diagnostics because the assignability checks
fail.
There are a few diagnostics related to
https://github.com/astral-sh/ty/issues/491 where there's a variable
which is either a bound method or a variable that's annotated with
`Callable` that doesn't contain the instance as the first parameter.
Another set of (valid) diagnostics are where the code hasn't provided
all the type variables. ty is now raising diagnostics for these because
we include `ParamSpec` type variable in the signature. For example,
`staticmethod[Any]` which contains two type variables.
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
Closes https://github.com/astral-sh/ty/issues/989
There are various situations where users expect the Python packages
installed in the same environment as ty itself to be considered during
type checking. A minimal example would look like:
```
uv venv my-env
uv pip install my-env ty httpx
echo "import httpx" > foo.py
./my-env/bin/ty check foo.py
```
or
```
uv tool install ty --with httpx
echo "import httpx" > foo.py
ty check foo.py
```
While these are a bit contrived, there are real-world situations where a
user would expect a similar behavior to work. Notably, all of the other
type checkers consider their own environment when determining search
paths (though I'll admit that I have not verified when they choose not
to do this).
One common situation where users are encountering this today is with
`uvx --with-requirements script.py ty check script.py` — which is
currently our "best" recommendation for type checking a PEP 723 script,
but it doesn't work.
Of the options discussed in
https://github.com/astral-sh/ty/issues/989#issuecomment-3307417985, I've
chosen (2) as our criteria for including ty's environment in the search
paths.
- If no virtual environment is discovered, we will always include ty's
environment.
- If a `.venv` is discovered in the working directory, we will _prepend_
ty's environment to the search paths. The dependencies in ty's
environment (e.g., from `uvx --with`) will take precedence.
- If a virtual environment is active, e.g., `VIRTUAL_ENV` (i.e.,
including conda prefixes) is set, we will not include ty's environment.
The reason we need to special case the `.venv` case is that we both
1. Recommend `uvx ty` today as a way to check your project
2. Want to enable `uvx --with <...> ty`
And I don't want (2) to break when you _happen_ to be in a project
(i.e., if we only included ty's environment when _no_ environment is
found) and don't want to remove support for (1).
I think long-term, I want to make `uvx <cmd>` layer the environment on
_top_ of the project environment (in uv), which would obviate the need
for this change when you're using uv. However, that change is breaking
and I think users will expect this behavior in contexts where they're
not using uv, so I think we should handle it in ty regardless.
I've opted not to include the environment if it's non-virtual (i.e., a
system environment) for now. It seems better to start by being more
restrictive. I left a comment in the code.
## Test Plan
I did some manual testing with the initial commit, then subsequently
added some unit tests.
```
❯ echo "import httpx" > example.py
❯ uvx --with httpx ty check example.py
Installed 8 packages in 19ms
error[unresolved-import]: Cannot resolve imported module `httpx`
--> foo/example.py:1:8
|
1 | import httpx
| ^^^^^
|
info: Searched in the following paths during module resolution:
info: 1. /Users/zb/workspace/ty/python (first-party code)
info: 2. /Users/zb/workspace/ty (first-party code)
info: 3. vendored://stdlib (stdlib typeshed stubs vendored by ty)
info: make sure your Python environment is properly configured: https://docs.astral.sh/ty/modules/#python-environment
info: rule `unresolved-import` is enabled by default
Found 1 diagnostic
❯ uvx --from . --with httpx ty check example.py
All checks passed!
```
```
❯ uv init --script foo.py
Initialized script at `foo.py`
❯ uv add --script foo.py httpx
warning: The Python request from `.python-version` resolved to Python 3.13.8, which is incompatible with the script's Python requirement: `>=3.14`
Updated `foo.py`
❯ echo "import httpx" >> foo.py
❯ uvx --with-requirements foo.py ty check foo.py
error[unresolved-import]: Cannot resolve imported module `httpx`
--> foo.py:15:8
|
13 | if __name__ == "__main__":
14 | main()
15 | import httpx
| ^^^^^
|
info: Searched in the following paths during module resolution:
info: 1. /Users/zb/workspace/ty/python (first-party code)
info: 2. /Users/zb/workspace/ty (first-party code)
info: 3. vendored://stdlib (stdlib typeshed stubs vendored by ty)
info: make sure your Python environment is properly configured: https://docs.astral.sh/ty/modules/#python-environment
info: rule `unresolved-import` is enabled by default
Found 1 diagnostic
❯ uvx --from . --with-requirements foo.py ty check foo.py
All checks passed!
```
Notice we do not include ty's environment if `VIRTUAL_ENV` is set
```
❯ VIRTUAL_ENV=.venv uvx --with httpx ty check foo/example.py
error[unresolved-import]: Cannot resolve imported module `httpx`
--> foo/example.py:1:8
|
1 | import httpx
| ^^^^^
|
info: Searched in the following paths during module resolution:
info: 1. /Users/zb/workspace/ty/python (first-party code)
info: 2. /Users/zb/workspace/ty (first-party code)
info: 3. vendored://stdlib (stdlib typeshed stubs vendored by ty)
info: 4. /Users/zb/workspace/ty/.venv/lib/python3.13/site-packages (site-packages)
info: make sure your Python environment is properly configured: https://docs.astral.sh/ty/modules/#python-environment
info: rule `unresolved-import` is enabled by default
Found 1 diagnostic
```
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
Since 4c4ddc8c29, ruff uses the `WalkBuilder::current_dir` API
[introduced in `ignore` version
0.4.24](https://diff.rs/ignore/0.4.23/0.4.24/src%2Fwalk.rs), so it
should explicitly depend on this minimum version.
See also https://github.com/astral-sh/ruff/pull/20979.
## Test Plan
<!-- How was it tested? -->
Source inspection verifies this version is necessary; no additional
testing is required since `Cargo.lock` already has (at least) this
version.
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## Summary
Raised by @AlexWaygood.
We previously did not favour imported symbols, when we probably
should've
## Test Plan
Add test showing that we favour imported symbol even if it is
alphabetically after other symbols that are builtin.
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
This PR ports PLE0117 as a semantic syntax error.
## Test Plan
<!-- How was it tested? -->
Tests previously written
---------
Signed-off-by: 11happy <soni5happy@gmail.com>
Co-authored-by: Brent Westbrook <36778786+ntBre@users.noreply.github.com>
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
This PR carries over some of the `has_relation_to` logic for comparing a
typevar with itself. A typevar will specialize to the same type if it's
mentioned multiple times, so it is always assignable to and a subtype of
itself. (Note that typevars can only specialize to fully static types.)
This is also true when the typevar appears in a union on the right-hand
side, or in an intersection on the left-hand side. Similarly, a typevar
is always disjoint from its negation, so when a negated typevar appears
on the left-hand side, the constraint set is never satisfiable.
(Eventually this will allow us to remove the corresponding clauses from
`has_relation_to`, but that can't happen until more of #20093 lands.)
## Summary
Splitting this one out from https://github.com/astral-sh/ruff/pull/21210. This is also something that should be made obselete by the new constraint solver, but is easy enough to fix now.
## Summary
Fixes FURB157 false negative where `Decimal("_-1")` was not flagged as
verbose when underscores precede the sign character. This fixes#21186.
## Problem Analysis
The `verbose-decimal-constructor` (FURB157) rule failed to detect
verbose `Decimal` constructors when the sign character (`+` or `-`) was
preceded by underscores. For example, `Decimal("_-1")` was not flagged,
even though it can be simplified to `Decimal(-1)`.
The bug occurred because the rule checked for the sign character at the
start of the string before stripping leading underscores. According to
Python's `Decimal` parser behavior (as documented in CPython's
`_pydecimal.py`), underscores are removed before parsing the sign. The
rule's logic didn't match this behavior, causing a false negative for
cases like `"_-1"` where the underscore came before the sign.
This was a regression introduced in version 0.14.3, as these cases were
correctly flagged in version 0.14.2.
## Approach
The fix updates the sign extraction logic to:
1. Strip leading underscores first (matching Python's Decimal parser
behavior)
2. Extract the sign from the underscore-stripped string
3. Preserve the string after the sign for normalization purposes
This ensures that cases like `Decimal("_-1")`, `Decimal("_+1")`, and
`Decimal("_-1_000")` are correctly detected and flagged. The
normalization logic was also updated to use the string after the sign
(without underscores) to avoid double signs in the replacement output.
## Summary
Allow values of type `None` in type expressions. The [typing
spec](https://typing.python.org/en/latest/spec/annotations.html#type-and-annotation-expressions)
could be more explicit on whether this is actually allowed or not, but
it seems relatively harmless and does help in some use cases like:
```py
try:
from module import MyClass
except ImportError:
MyClass = None # ty: ignore
def f(m: MyClass):
pass
```
## Test Plan
Updated tests, ecosystem check.
## Summary
This reduces the walltime benchmarks from 15m to 10m, and we should see an even bigger improvement once build caching kicks in, so I think it's worth the downsides.
Summary
--
This PR fixes#17796 by taking the approach mentioned in
https://github.com/astral-sh/ruff/issues/17796#issuecomment-2847943862
of simply recursing into the `MatchAs` patterns when checking if we need
parentheses. This allows us to reuse the parentheses in the inner
pattern before also breaking the `MatchAs` pattern itself:
```diff
match class_pattern:
case Class(xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx) as capture:
pass
- case (
- Class(xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx) as capture
- ):
+ case Class(
+ xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
+ ) as capture:
pass
- case (
- Class(
- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
- ) as capture
- ):
+ case Class(
+ xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
+ ) as capture:
pass
case (
Class(
@@ -685,13 +683,11 @@
match sequence_pattern_brackets:
case [xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx] as capture:
pass
- case (
- [xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx] as capture
- ):
+ case [
+ xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
+ ] as capture:
pass
- case (
- [
- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
- ] as capture
- ):
+ case [
+ xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
+ ] as capture:
pass
```
I haven't really resolved the question of whether or not it's okay
always to recurse, but I'm hoping the ecosystem check on this PR might
shed some light on that.
Test Plan
--
New tests based on the issue and then reviewing the ecosystem check here
## Summary
A lot of the bidirectional inference work relies on `dict` not being
assignable to `TypedDict`, so I think it makes sense to add this before
fully implementing https://github.com/astral-sh/ty/issues/1387.
## Summary
Add support for implicit type aliases that use PEP 604 unions:
```py
IntOrStr = int | str
reveal_type(IntOrStr) # UnionType
def _(int_or_str: IntOrStr):
reveal_type(int_or_str) # int | str
```
## Typing conformance
The changes are either removed false positives, or new diagnostics due
to known limitations unrelated to this PR.
## Ecosystem impact
Spot checked, a mix of true positives and known limitations.
## Test Plan
New Markdown tests.
Fixes https://github.com/astral-sh/ty/issues/1053
## Summary
Other type checkers prioritize a submodule over a package `__getattr__`
in `from mod import sub`, even though the runtime precedence is the
other direction. In effect, this is making an implicit assumption that a
module `__getattr__` will not handle (that is, will raise
`AttributeError`) for names that are also actual submodules, rather than
shadowing them. In practice this seems like a realistic assumption in
the ecosystem? Or at least the ecosystem has adapted to it, and we need
to adapt this precedence also, for ecosystem compatibility.
The implementation is a bit ugly, precisely because it departs from the
runtime semantics, and our implementation is oriented toward modeling
runtime semantics accurately. That is, `__getattr__` is modeled within
the member-lookup code, so it's hard to split "member lookup result from
module `__getattr__`" apart from other member lookup results. I did this
via a synthetic `TypeQualifier::FROM_MODULE_GETATTR` that we attach to a
type resulting from a member lookup, which isn't beautiful but it works
well and doesn't introduce inefficiency (e.g. redundant member lookups).
## Test Plan
Updated mdtests.
Also added a related mdtest formalizing our support for a module
`__getattr__` that is explicitly annotated to accept a limited set of
names. In principle this could be an alternative (more explicit) way to
handle the precedence problem without departing from runtime semantics,
if the ecosystem would adopt it.
### Ecosystem analysis
Lots of removed diagnostics which are an improvement because we now
infer the expected submodule.
Added diagnostics are mostly unrelated issues surfaced now because we
previously had an earlier attribute error resulting in `Unknown`; now we
correctly resolve the module so that earlier attribute error goes away,
we get an actual type instead of `Unknown`, and that triggers a new
error.
In scipy and sklearn, the module `__getattr__` which we were respecting
previously is un-annotated so returned a forgiving `Unknown`; now we
correctly see the actual module, which reveals some cases of
https://github.com/astral-sh/ty/issues/133 that were previously hidden
(`scipy/optimize/__init__.py` [imports `from
._tnc`](eff82ca575/scipy/optimize/__init__.py (L429)).)
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
* extend AIR301 to include deprecated argument `concurrency` in
`airflow....DAG`
## Test Plan
<!-- How was it tested? -->
update the existing test fixture in the first commit and then reorganize
in the second one
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## Summary
Resolves https://github.com/astral-sh/ty/issues/1464
We sort the completions before we add the unimported ones, meaning that
imported completions show up before unimported ones.
This is also spoken about in
https://github.com/astral-sh/ty/issues/1274, and this is probably a
duplicate of that.
@AlexWaygood mentions this
[here](https://github.com/astral-sh/ty/issues/1274#issuecomment-3345942698)
too.
## Test Plan
Add a test showing even if an unimported completion "should"
(alphabetically before) come first, we favor the imported one.
Summary
--
This code has been unused since #14233 but not detected by clippy I
guess. This should help to remove the temptation to use the set
comparison again like I suggested in #21144. And we shouldn't do the set
comparison because of #13802, which #14233 fixed.
Test Plan
--
Existing tests
This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
|
[globset](https://redirect.github.com/BurntSushi/ripgrep/tree/master/crates/globset)
([source](https://redirect.github.com/BurntSushi/ripgrep/tree/HEAD/crates/globset))
| workspace.dependencies | patch | `0.4.17` -> `0.4.18` |
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### Release Notes
<details>
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###
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This PR contains the following updates:
| Package | Type | Update | Change |
|---|---|---|---|
| [aho-corasick](https://redirect.github.com/BurntSushi/aho-corasick) |
workspace.dependencies | patch | `1.1.3` -> `1.1.4` |
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Fixes https://github.com/astral-sh/ty/issues/1368
## Summary
Add support for patterns like this, where a type alias to a literal type
(or union of literal types) is used to subscript `typing.Literal`:
```py
type MyAlias = Literal[1]
def _(x: Literal[MyAlias]): ...
```
This shows up in the ecosystem report for PEP 613 type alias support.
One interesting case is an alias to `bool` or an enum type. `bool` is an
equivalent type to `Literal[True, False]`, which is a union of literal
types. Similarly an enum type `E` is also equivalent to a union of its
member literal types. Since (for explicit type aliases) we infer the RHS
directly as a type expression, this makes it difficult for us to
distinguish between `bool` and `Literal[True, False]`, so we allow
either one to (or an alias to either one) to appear inside `Literal`,
where other type checkers allow only the latter.
I think for implicit type aliases it may be simpler to support only
types derived from actually subscripting `typing.Literal`, though, so I
didn't make a TODO-comment commitment here.
## Test Plan
Added mdtests, including TODO-filled tests for PEP 613 and implicit type
aliases.
### Conformance suite
All changes here are positive -- we now emit errors on lines that should
be errors. This is a side effect of the new implementation, not the
primary purpose of this PR, but it's still a positive change.
### Ecosystem
Eliminates one ecosystem false positive, where a PEP 695 type alias for
a union of literal types is used to subscript `typing.Literal`.
## Summary
There have been some larger-scale updates to the conformance suite since
we introduced our CI job, so it seems sensible to bump the version of
the conformance suite to the latest state.
## Test plan
This is a bit awkward to test. Here is the diff of running ty on the
conformance suite before and after this bump. I filtered out line/column
information (`sed -re 's/\.py:[0-9]+:[0-9]+:/.py/'`) to avoid spurious
changes from content that has simply been moved around.
```diff
1,2c1
< fatal[panic] Panicked at /home/shark/.cargo/git/checkouts/salsa-e6f3bb7c2a062968/cdd0b85/src/function/execute.rs:419:17 when checking `/home/shark/typing/conformance/tests/aliases_typealiastype.py`: `infer_definition_types(Id(1a99c)): execute: too many cycle iterations`
< src/type_checker.py error[unresolved-import] Cannot resolve imported module `tqdm`
---
> fatal[panic] Panicked at /home/shark/.cargo/git/checkouts/salsa-e6f3bb7c2a062968/cdd0b85/src/function/execute.rs:419:17 when checking `/home/shark/typing/conformance/tests/aliases_typealiastype.py`: `infer_definition_types(Id(6e4c)): execute: too many cycle iterations`
205,206d203
< tests/constructors_call_metaclass.py error[type-assertion-failure] Argument does not have asserted type `Never`
< tests/constructors_call_metaclass.py error[missing-argument] No argument provided for required parameter `x` of function `__new__`
268a266,273
> tests/dataclasses_match_args.py error[type-assertion-failure] Argument does not have asserted type `tuple[Literal["x"]]`
> tests/dataclasses_match_args.py error[unresolved-attribute] Class `DC1` has no attribute `__match_args__`
> tests/dataclasses_match_args.py error[type-assertion-failure] Argument does not have asserted type `tuple[Literal["x"]]`
> tests/dataclasses_match_args.py error[unresolved-attribute] Class `DC2` has no attribute `__match_args__`
> tests/dataclasses_match_args.py error[type-assertion-failure] Argument does not have asserted type `tuple[Literal["x"]]`
> tests/dataclasses_match_args.py error[unresolved-attribute] Class `DC3` has no attribute `__match_args__`
> tests/dataclasses_match_args.py error[unresolved-attribute] Class `DC4` has no attribute `__match_args__`
> tests/dataclasses_match_args.py error[type-assertion-failure] Argument does not have asserted type `tuple[()]`
339a345
> tests/directives_assert_type.py error[type-assertion-failure] Argument does not have asserted type `Any`
424a431
> tests/generics_defaults.py error[type-assertion-failure] Argument does not have asserted type `Any`
520a528,529
> tests/generics_syntax_infer_variance.py error[invalid-return-type] Function always implicitly returns `None`, which is not assignable to return type `T@ShouldBeCovariant2 | Sequence[T@ShouldBeCovariant2]`
> tests/generics_syntax_infer_variance.py error[invalid-return-type] Function always implicitly returns `None`, which is not assignable to return type `int`
711a721
> tests/namedtuples_define_class.py error[too-many-positional-arguments] Too many positional arguments: expected 3, got 4
795d804
< tests/protocols_explicit.py error[invalid-attribute-access] Cannot assign to ClassVar `cm1` from an instance of type `Self@__init__`
822,823d830
< tests/qualifiers_annotated.py error[invalid-syntax] named expression cannot be used within a type annotation
< tests/qualifiers_annotated.py error[invalid-syntax] await expression cannot be used within a type annotation
922a930,953
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `Movie`: Unknown key "novel_adaptation"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `Movie`: Unknown key "year"
> tests/typeddicts_extra_items.py error[type-assertion-failure] Argument does not have asserted type `bool`
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `Movie`: Unknown key "novel_adaptation"
> tests/typeddicts_extra_items.py error[invalid-argument-type] Invalid argument to key "year" with declared type `int` on TypedDict `InheritedMovie`: value of type `None`
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `InheritedMovie`: Unknown key "other_extra_key"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `MovieEI`: Unknown key "year"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `MovieExtraInt`: Unknown key "year"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `MovieExtraStr`: Unknown key "description"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `MovieExtraInt`: Unknown key "year"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `NonClosedMovie`: Unknown key "year"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `ExtraMovie`: Unknown key "year"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `ExtraMovie`: Unknown key "language"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `ClosedMovie`: Unknown key "year"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `MovieExtraStr`: Unknown key "summary"
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `MovieExtraInt`: Unknown key "year"
> tests/typeddicts_extra_items.py error[invalid-assignment] Object of type `dict[Unknown | str, Unknown | str | int]` is not assignable to `Mapping[str, int]`
> tests/typeddicts_extra_items.py error[type-assertion-failure] Argument does not have asserted type `list[tuple[str, int | str]]`
> tests/typeddicts_extra_items.py error[type-assertion-failure] Argument does not have asserted type `list[int | str]`
> tests/typeddicts_extra_items.py error[unresolved-attribute] Object of type `IntDict` has no attribute `clear`
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `IntDictWithNum`: Unknown key "bar" - did you mean "num"?
> tests/typeddicts_extra_items.py error[type-assertion-failure] Argument does not have asserted type `tuple[str, int]`
> tests/typeddicts_extra_items.py error[invalid-key] Cannot access `IntDictWithNum` with a key of type `str`. Only string literals are allowed as keys on TypedDicts.
> tests/typeddicts_extra_items.py error[invalid-key] Invalid key for TypedDict `IntDictWithNum` of type `str`
950c981
< Found 949 diagnostics
---
> Found 980 diagnostics
```
## Summary
Adds type inference for list/dict/set comprehensions, including
bidirectional inference:
```py
reveal_type({k: v for k, v in [("a", 1), ("b", 2)]}) # dict[Unknown | str, Unknown | int]
squares: list[int | None] = [x for x in range(10)]
reveal_type(squares) # list[int | None]
```
## Ecosystem impact
I did spot check the changes and most of them seem like known
limitations or true positives. Without proper bidirectional inference,
we saw a lot of false positives.
## Test Plan
New Markdown tests
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## Summary
@BurntSushi provided some feedback in #21146 so i address it here.
Summary
--
This is a first step toward fixing #9745. After reviewing our open
issues and several Black issues and PRs, I personally found the function
case the most compelling, especially with very long argument lists:
```py
def func(
self,
arg1: int,
arg2: bool,
arg3: bool,
arg4: float,
arg5: bool,
) -> tuple[...]:
if arg2 and arg3:
raise ValueError
```
or many annotations:
```py
def function(
self, data: torch.Tensor | tuple[torch.Tensor, ...], other_argument: int
) -> torch.Tensor | tuple[torch.Tensor, ...]:
do_something(data)
return something
```
I think docstrings help the situation substantially both because syntax
highlighting will usually give a very clear separation between the
annotations and the docstring and because we already allow a blank line
_after_ the docstring:
```py
def function(
self, data: torch.Tensor | tuple[torch.Tensor, ...], other_argument: int
) -> torch.Tensor | tuple[torch.Tensor, ...]:
"""
A function doing something.
And a longer description of the things it does.
"""
do_something(data)
return something
```
There are still other comments on #9745, such as [this one] with 9
upvotes, where users specifically request blank lines in all block
types, or at least including conditionals and loops. I'm sympathetic to
that case as well, even if personally I don't find an [example] like
this:
```py
if blah:
# Do some stuff that is logically related
data = get_data()
# Do some different stuff that is logically related
results = calculate_results()
return results
```
to be much more readable than:
```py
if blah:
# Do some stuff that is logically related
data = get_data()
# Do some different stuff that is logically related
results = calculate_results()
return results
```
I'm probably just used to the latter from the formatters I've used, but
I do prefer it. I also think that functions are the least susceptible to
the accidental introduction of a newline after refactoring described in
Micha's [comment] on #8893.
I actually considered further restricting this change to functions with
multiline headers. I don't think very short functions like:
```py
def foo():
return 1
```
benefit nearly as much from the allowed newline, but I just went with
any function without a docstring for now. I guess a marginal case like:
```py
def foo(a_long_parameter: ALongType, b_long_parameter: BLongType) -> CLongType:
return 1
```
might be a good argument for not restricting it.
I caused a couple of syntax errors before adding special handling for
the ellipsis-only case, so I suspect that there are some other
interesting edge cases that may need to be handled better.
Test Plan
--
Existing tests, plus a few simple new ones. As noted above, I suspect
that we may need a few more for edge cases I haven't considered.
[this one]:
https://github.com/astral-sh/ruff/issues/9745#issuecomment-2876771400
[example]:
https://github.com/psf/black/issues/902#issuecomment-1562154809
[comment]:
https://github.com/astral-sh/ruff/issues/8893#issuecomment-1867259744
## Summary
Discussion with @ibraheemdev clarified that
https://github.com/astral-sh/ruff/pull/21168 was incorrect. In a case of
failed inference of a dict literal as a `TypedDict`, we should store the
context-less inferred type of the dict literal as the type of the dict
literal expression itself; the fallback to declared type should happen
at the level of the overall assignment definition.
The reason the latter isn't working yet is because currently we
(wrongly) consider a homogeneous dict type as assignable to a
`TypedDict`, so we don't actually consider the assignment itself as
failed. So the "bug" I observed (and tried to fix) will naturally be
fixed by implementing TypedDict assignability rules.
Rollback https://github.com/astral-sh/ruff/pull/21168 except for the
tests, and modify the tests to include TODOs as needed.
## Test Plan
Updated mdtests.
The parser currently uses single quotes to wrap tokens. This is
inconsistent with the rest of ruff/ty, which use backticks.
For example, see the inconsistent diagnostics produced in this simple
example: https://play.ty.dev/0a9d6eab-6599-4a1d-8e40-032091f7f50f
Consistently wrapping tokens in backticks produces uniform diagnostics.
Following the style decision of #723, in #2889 some quotes were already
switched into backticks.
This is also in line with Rust's guide on diagnostics
(https://rustc-dev-guide.rust-lang.org/diagnostics.html#diagnostic-structure):
> When code or an identifier must appear in a message or label, it
should be surrounded with backticks
## Summary
In general, when we have an invalid assignment (inferred assigned type
is not assignable to declared type), we fall back to inferring the
declared type, since the declared type is a more explicit declaration of
the programmer's intent. This also maintains the invariant that our
inferred type for a name is always assignable to the declared type for
that same name. For example:
```py
x: str = 1
reveal_type(x) # revealed: str
```
We weren't following this pattern for dictionary literals inferred (via
type context) as a typed dictionary; if the literal was not valid for
the annotated TypedDict type, we would just fall back to the normal
inferred type of the dict literal, effectively ignoring the annotation,
and resulting in inferred type not assignable to declared type.
## Test Plan
Added mdtest assertions.
## Summary
The solver is currently order-dependent, and will choose a supertype
over the exact type if it appears earlier in the list of constraints. We
could be smarter and try to choose the most precise subtype, but I
imagine this is something the new constraint solver will fix anyways,
and this fixes the issue showing up on
https://github.com/astral-sh/ruff/pull/21070.
This PR adds a new `satisfied_by_all_typevar` method, which implements
one of the final steps of actually using these dang constraint sets.
Constraint sets exist to help us check assignability and subtyping of
types in the presence of typevars. We construct a constraint set
describing the conditions under which assignability holds between the
two types. Then we check whether that constraint set is satisfied for
the valid specializations of the relevant typevars (which is this new
method).
We also add a new `ty_extensions.ConstraintSet` method so that we can
test this method's behavior in mdtests, before hooking it up to the rest
of the specialization inference machinery.
## Summary
We currently perform a subtyping check instead of the intended subclass
check (and the subtyping check is confusingly named `is_subclass_of`).
This showed up in https://github.com/astral-sh/ruff/pull/21070.
## Summary
Before this PR, we would emit diagnostics like "Invalid key access" for
a TypedDict literal with invalid key, which doesn't make sense since
there's no "access" in that case. This PR just adjusts the wording to be
more general, and adjusts the documentation of the lint rule too.
I noticed this in the playground and thought it would be a quick fix. As
usual, it turned out to be a bit more subtle than I expected, but for
now I chose to punt on the complexity. We may ultimately want to have
different rules for invalid subscript vs invalid TypedDict literal,
because an invalid key in a TypedDict literal is low severity: it's a
typo detector, but not actually a type error. But then there's another
wrinkle there: if the TypedDict is `closed=True`, then it _is_ a type
error. So would we want to separate the open and closed cases into
separate rules, too? I decided to leave this as a question for future.
If we wanted to use separate rules, or use specific wording for each
case instead of the generalized wording I chose here, that would also
involve a bit of extra work to distinguish the cases, since we use a
generic set of functions for reporting these errors.
## Test Plan
Added and updated mdtests.
This is a second take at the implicit imports approach, allowing `from .
import submodule` in an `__init__.pyi` to create the
`mypackage.submodule` attribute everyhere.
This implementation operates inside of the
available_submodule_attributes subsystem instead of as a re-export rule.
The upside of this is we are no longer purely syntactic, and absolute
from imports that happen to target submodules work (an intentional
discussed deviation from pyright which demands a relative from import).
Also we don't re-export functions or classes.
The downside(?) of this is star imports no longer see these attributes
(this may be either good or bad. I believe it's not a huge lift to make
it work with star imports but it's some non-trivial reworking).
I've also intentionally made `import mypackage.submodule` not trigger
this rule although it's trivial to change that.
I've tried to cover as many relevant cases as possible for discussion in
the new test file I've added (there are some random overlaps with
existing tests but trying to add them piecemeal felt confusing and
weird, so I just made a dedicated file for this extension to the rules).
Fixes https://github.com/astral-sh/ty/issues/133
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## Summary
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## Test Plan
<!-- How was it tested? -->
## Summary
Fixes https://github.com/astral-sh/ty/issues/1427
This PR fixes a regression introduced in alpha.24 where non-dataclass
children of generic dataclasses lost generic type parameter information
during `__init__` synthesis.
The issue occurred because when looking up inherited members in the MRO,
the child class's `inherited_generic_context` was correctly passed down,
but `own_synthesized_member()` (which synthesizes dataclass `__init__`
methods) didn't accept this parameter. It only used
`self.inherited_generic_context(db)`, which returned the parent's
context instead of the child's.
The fix threads the child's generic context through to the synthesis
logic, allowing proper generic type inference for inherited dataclass
constructors.
## Test Plan
- Added regression test for non-dataclass inheriting from generic
dataclass
- Verified the exact repro case from the issue now works
- All 277 mdtest tests passing
- Clippy clean
- Manually verified with Python runtime, mypy, and pyright - all accept
this code pattern
## Verification
Tested against multiple type checkers:
- ✅ Python runtime: Code works correctly
- ✅ mypy: No issues found
- ✅ pyright: 0 errors, 0 warnings
- ✅ ty alpha.23: Worked (before regression)
- ❌ ty alpha.24: Regression
- ✅ ty with this fix: Works correctly
---------
Co-authored-by: Claude <noreply@anthropic.com>
Co-authored-by: David Peter <mail@david-peter.de>
It's possible for a constraint to mention two typevars. For instance, in
the body of
```py
def f[S: int, T: S](): ...
```
the baseline constraint set would be `(T ≤ S) ∧ (S ≤ int)`. That is, `S`
must specialize to some subtype of `int`, and `T` must specialize to a
subtype of the type that `S` specializes to.
This PR updates the new "constraint implication" relationship from
#21010 to work on these kinds of constraint sets. For instance, in the
example above, we should be able to see that `T ≤ int` must always hold:
```py
def f[S, T]():
constraints = ConstraintSet.range(Never, S, int) & ConstraintSet.range(Never, T, S)
static_assert(constraints.implies_subtype_of(T, int)) # now succeeds!
```
This did not require major changes to the implementation of
`implies_subtype_of`. That method already relies on how our `simplify`
and `domain` methods expand a constraint set to include the transitive
closure of the constraints that it mentions, and to mark certain
combinations of constraints as impossible. Previously, that transitive
closure logic only looked at pairs of constraints that constrain the
same typevar. (For instance, to notice that `(T ≤ bool) ∧ ¬(T ≤ int)` is
impossible.)
Now we also look at pairs of constraints that constraint different
typevars, if one of the constraints is bound by the other — that is,
pairs of the form `T ≤ S` and `S ≤ something`, or `S ≤ T` and `something
≤ S`. In those cases, transitivity lets us add a new derived constraint
that `T ≤ something` or `something ≤ T`, respectively. Having done that,
our existing `implies_subtype_of` logic finds and takes into account
that derived constraint.
Summary
--
Fixes#21121 by upgrading `RuntimeEvaluated` annotations like
`dataclasses.KW_ONLY` to `RuntimeRequired`. We already had special
handling for
`TypingOnly` annotations in this context but not `RuntimeEvaluated`.
Combining
that with the `future-annotations` setting, which allowed ignoring the
`RuntimeEvaluated` flag, led to the reported bug where we would try to
move
`KW_ONLY` into a `TYPE_CHECKING` block.
Test Plan
--
A new test based on the issue
## Summary
We weren't correctly modeling it as a `staticmethod` in all cases,
leading us to incorrectly infer that the `cls` argument would be bound
if it was accessed on an instance (rather than the class object).
## Test Plan
Added mdtests that fail on `main`. The primer output also looks good!
## Summary
Fixes#21101 by storing the child visitor's names in the parent visitor.
This makes sure that `visitor.names` on line 1818 isn't empty after we
visit a nested OR pattern.
## Test Plan
New inline test cases derived from the issue,
[playground](https://play.ruff.rs/7b6439ac-ee8f-4593-9a3e-c2aa34a595d0)
## Summary
Adds proper type narrowing and reachability analysis for matching on
non-inferable type variables bound to enums. For example:
```py
from enum import Enum
class Answer(Enum):
NO = 0
YES = 1
def is_yes(self) -> bool: # no error here!
match self:
case Answer.YES:
return True
case Answer.NO:
return False
```
closes https://github.com/astral-sh/ty/issues/1404
## Test Plan
Added regression tests
## Summary
We previously didn't understand `range` and wrote these custom
`IntIterable`/`IntIterator` classes for tests. We can now remove them
and make the tests shorter in some places.
## Summary
Infer a type of unannotated `self` parameters in decorated methods /
properties.
closes https://github.com/astral-sh/ty/issues/1448
## Test Plan
Existing tests, some new tests.
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## Summary
Fixed the incorrect import example in the "correct exmaple"
<!-- What's the purpose of the change? What does it do, and why? -->
## Test Plan
🤷
<!-- How was it tested? -->
Note that this doesn't change the evaluation results unfortunately.
In particular, prior to this fix, the correct result was ranked above
the redundant result. Our MRR-based evaluation doesn't care about
anything below the rank of the correct answer, and so this change isn't
reflected in our evaluation.
Fixesastral-sh/ty#1445
The status quo grew organically and didn't do well when one wanted to
mix and match different settings to generate a snapshot.
This does a small refactor to use more of a builder to generate
snapshots.
This fixes a bug where the `import module` part of a completion for
unimported candidates would be missing. This makes it especially
confusing because the user can't tell where the symbol is coming from,
and there is no hint that an `import` statement will be inserted.
Previously, we were using [`CompletionItemLabelDetails`] to render the
`import module` part of the suggestion. But this is only supported in
clients that support version 3.17 (or newer) of the LSP specification.
It turns out that this support isn't widespread yet. In particular,
Heliex doesn't seem to support "label details."
To fix this, we take a [cue from rust-analyzer][rust-analyzer-details].
We detect if the client supports "label details," and if so, use it.
Otherwise, we push the `import module` text into the completion label
itself.
Fixes https://github.com/astral-sh/ruff/pull/20439#issuecomment-3313689568
[`CompletionItemLabelDetails`]: https://microsoft.github.io/language-server-protocol/specifications/lsp/3.17/specification/#completionItemLabelDetails
[rust-analyzer-details]: 5d905576d4/crates/rust-analyzer/src/lsp/to_proto.rs (L391-L404)
This PR updates the mdtests that test how our generics solver interacts
with our new constraint set implementation. Because the rendering of a
constraint set can get long, this standardizes on putting the `revealed`
assertion on a separate line. We also add a `static_assert` test for
each constraint set to verify that they are all coerced into simple
`bool`s correctly.
This is a pure reformatting (not even a refactoring!) that changes no
behavior. I've pulled it out of #20093 to reduce the amount of effort
that will be required to review that PR.
We have several functions in `ty_extensions` for testing our constraint
set implementation. This PR refactors those functions so that they are
all methods of the `ConstraintSet` class, rather than being standalone
top-level functions. 🎩 to @sharkdp for pointing out that
`KnownBoundMethod` gives us what we need to implement that!
This PR adds the new **_constraint implication_** relationship between
types, aka `is_subtype_of_given`, which tests whether one type is a
subtype of another _assuming that the constraints in a particular
constraint set hold_.
For concrete types, constraint implication is exactly the same as
subtyping. (A concrete type is any fully static type that is not a
typevar. It can _contain_ a typevar, though — `list[T]` is considered
concrete.)
The interesting case is typevars. The other typing relationships (TODO:
will) all "punt" on the question when considering a typevar, by
translating the desired relationship into a constraint set. At some
point, though, we need to resolve a constraint set; at that point, we
can no longer punt on the question. Unlike with concrete types, the
answer will depend on the constraint set that we are considering.
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
This PR refactors semantic error tests in each seperate file
## Test Plan
<!-- How was it tested? -->
## CC
- @ntBre
---------
Signed-off-by: 11happy <soni5happy@gmail.com>
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
Summary
--
Fixes#19550
This PR copies our non-watch diagnostic rendering code into
`Printer::write_continuously` in preview mode, allowing it to use
whatever output format is passed in.
I initially marked this as also fixing #19552, but I guess that's not
true currently but will be true once this is stabilized and we can
remove the warning.
Test Plan
--
Existing tests, but I don't think we have any `watch` tests, so some
manual testing as well. The default with just `ruff check --watch` is
still `concise`, adding just `--preview` still gives the `full` output,
and then specifying any other output format works, with JSON as one
example:
<img width="695" height="719" alt="Screenshot 2025-10-27 at 9 21 41 AM"
src="https://github.com/user-attachments/assets/98957911-d216-4fc4-8b6c-22c56c963b3f"
/>
When formatting clause headers for clauses that are not their own node,
like an `else` clause or `finally` clause, we begin searching for the
keyword at the end of the previous statement. However, if the previous
statement ended in a semicolon this caused a panic because we only
expected trivia between the end of the last statement and the keyword.
This PR adjusts the starting point of our search for the keyword to
begin after the optional semicolon in these cases.
Closes#21065
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## Summary
Add docstring sections which were missing from the numpy list as pointed
out here #20923. For now these are only the official sections as
documented
[here](https://numpydoc.readthedocs.io/en/latest/format.html#sections).
## Test Plan
Added a test case for DOC102
## Summary
Fixes#20973 (`docstring-extraneous-exception`) false positive when
exceptions mentioned in docstrings are caught and explicitly re-raised
using `raise e` or `raise e from None`.
## Problem Analysis
The DOC502 rule was incorrectly flagging exceptions mentioned in
docstrings as "not explicitly raised" when they were actually being
explicitly re-raised through exception variables bound in `except`
clauses.
**Root Cause**: The `BodyVisitor` in `check_docstring.rs` only checked
for direct exception references (like `raise OSError()`) but didn't
recognize when a variable bound to an exception in an `except` clause
was being re-raised.
**Example of the bug**:
```python
def f():
"""Do nothing.
Raises
------
OSError
If the OS errors.
"""
try:
pass
except OSError as e:
raise e # This was incorrectly flagged as not explicitly raising OSError
```
The issue occurred because `resolve_qualified_name(e)` couldn't resolve
the variable `e` to a qualified exception name, since `e` is just a
variable binding, not a direct reference to an exception class.
## Approach
Modified the `BodyVisitor` in
`crates/ruff_linter/src/rules/pydoclint/rules/check_docstring.rs` to:
1. **Track exception variable bindings**: Added `exception_variables`
field to map exception variable names to their exception types within
`except` clauses
2. **Enhanced raise statement detection**: Updated `visit_stmt` to check
if a `raise` statement uses a variable name that's bound to an exception
in the current `except` clause
3. **Proper scope management**: Clear exception variable mappings when
leaving `except` handlers to prevent cross-contamination
**Key changes**:
- Added `exception_variables: FxHashMap<&'a str, QualifiedName<'a>>` to
track variable-to-exception mappings
- Enhanced `visit_except_handler` to store exception variable bindings
when entering `except` clauses
- Modified `visit_stmt` to check for variable-based re-raising: `raise
e` → lookup `e` in `exception_variables`
- Clear mappings when exiting `except` handlers to maintain proper scope
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
That PR title might be a bit inscrutable.
Consider the two constraints `T ≤ bool` and `T ≤ int`. Since `bool ≤
int`, by transitivity `T ≤ bool` implies `T ≤ int`. (Every type that is
a subtype of `bool` is necessarily also a subtype of `int`.) That means
that `T ≤ bool ∧ T ≰ int` is an impossible combination of constraints,
and is therefore not a valid input to any BDD. We say that that
assignment is not in the _domain_ of the BDD.
The implication `T ≤ bool → T ≤ int` can be rewritten as `T ≰ bool ∨ T ≤
int`. (That's the definition of implication.) If we construct that
constraint set in an mdtest, we should get a constraint set that is
always satisfiable. Previously, that constraint set would correctly
_display_ as `always`, but a `static_assert` on it would fail.
The underlying cause is that our `is_always_satisfied` method would only
test if the BDD was the `AlwaysTrue` terminal node. `T ≰ bool ∨ T ≤ int`
does not simplify that far, because we purposefully keep around those
constraints in the BDD structure so that it's easier to compare against
other BDDs that reference those constraints.
To fix this, we need a more nuanced definition of "always satisfied".
Instead of evaluating to `true` for _every_ input, we only need it to
evaluate to `true` for every _valid_ input — that is, every input in its
domain.
## Summary
implement pylint rule stop-iteration-return / R1708
## Test Plan
<!-- How was it tested? -->
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
* Extend `airflow.models.Param` to include `airflow.models.param.Param`
case and include both `airflow.models.param.ParamDict` and
`airflow.models.param.DagParam` and their `airflow.models.` counter part
## Test Plan
<!-- How was it tested? -->
update the text fixture accordingly and reorganize them in the third
commit
Summary
--
Inspired by #20859, this PR adds the version a rule was added, and the
file and line where it was defined, to `ViolationMetadata`. The file and
line just use the standard `file!` and `line!` macros, while the more
interesting version field uses a new `violation_metadata` attribute
parsed by our `ViolationMetadata` derive macro.
I moved the commit modifying all of the rule files to the end, so it
should be a lot easier to review by omitting that one.
As a curiosity and a bit of a sanity check, I also plotted the rule
numbers over time:
<img width="640" height="480" alt="image"
src="https://github.com/user-attachments/assets/75b0b5cc-3521-4d40-a395-8807e6f4925f"
/>
I think this looks pretty reasonable and avoids some of the artifacts
the earlier versions of the script ran into, such as the `rule`
sub-command not being available or `--explain` requiring a file
argument.
<details><summary>Script and summary data</summary>
```shell
gawk --csv '
NR > 1 {
split($2, a, ".")
major = a[1]; minor = a[2]; micro = a[3]
# sum the number of rules added per minor version
versions[minor] += 1
}
END {
tot = 0
for (i = 0; i <= 14; i++) {
tot += versions[i]
print i, tot
}
}
' ruff_rules_metadata.csv > summary.dat
```
```
0 696
1 768
2 778
3 803
4 822
5 848
6 855
7 865
8 893
9 915
10 916
11 924
12 929
13 932
14 933
```
</details>
Test Plan
--
I built and viewed the documentation locally, and it looks pretty good!
<img width="1466" height="676" alt="image"
src="https://github.com/user-attachments/assets/5e227df4-7294-4d12-bdaa-31cac4e9ad5c"
/>
The spacing seems a bit awkward following the `h1` at the top, so I'm
wondering if this might look nicer as a footer in Ruff. The links work
well too:
- [v0.0.271](https://github.com/astral-sh/ruff/releases/tag/v0.0.271)
- [Related
issues](https://github.com/astral-sh/ruff/issues?q=sort%3Aupdated-desc%20is%3Aissue%20is%3Aopen%20airflow-variable-name-task-id-mismatch)
- [View
source](https://github.com/astral-sh/ruff/blob/main/crates%2Fruff_linter%2Fsrc%2Frules%2Fairflow%2Frules%2Ftask_variable_name.rs#L34)
The last one even works on `main` now since it points to the
`derive(ViolationMetadata)` line.
In terms of binary size, this branch is a bit bigger than main with
38,654,520 bytes compared to 38,635,728 (+20 KB). I guess that's not
_too_ much of an increase, but I wanted to check since we're generating
a lot more code with macros.
---------
Co-authored-by: GiGaGon <107241144+MeGaGiGaGon@users.noreply.github.com>
## Summary
Infer a type of `Self` for unannotated `self` parameters in methods of
classes.
part of https://github.com/astral-sh/ty/issues/159
closes https://github.com/astral-sh/ty/issues/1081
## Conformance tests changes
```diff
+enums_member_values.py:85:9: error[invalid-assignment] Object of type `int` is not assignable to attribute `_value_` of type `str`
```
A true positive ✔️
```diff
-generics_self_advanced.py:35:9: error[type-assertion-failure] Argument does not have asserted type `Self@method2`
-generics_self_basic.py:14:9: error[type-assertion-failure] Argument does not have asserted type `Self@set_scale
```
Two false positives going away ✔️
```diff
+generics_syntax_infer_variance.py:82:9: error[invalid-assignment] Cannot assign to final attribute `x` on type `Self@__init__`
```
This looks like a true positive to me, even if it's not marked with `#
E` ✔️
```diff
+protocols_explicit.py:56:9: error[invalid-assignment] Object of type `tuple[int, int, str]` is not assignable to attribute `rgb` of type `tuple[int, int, int]`
```
True positive ✔️
```
+protocols_explicit.py:85:9: error[invalid-attribute-access] Cannot assign to ClassVar `cm1` from an instance of type `Self@__init__`
```
This looks like a true positive to me, even if it's not marked with `#
E`. But this is consistent with our understanding of `ClassVar`, I
think. ✔️
```py
+qualifiers_final_annotation.py:52:9: error[invalid-assignment] Cannot assign to final attribute `ID4` on type `Self@__init__`
+qualifiers_final_annotation.py:65:9: error[invalid-assignment] Cannot assign to final attribute `ID7` on type `Self@method1`
```
New true positives ✔️
```py
+qualifiers_final_annotation.py:52:9: error[invalid-assignment] Cannot assign to final attribute `ID4` on type `Self@__init__`
+qualifiers_final_annotation.py:57:13: error[invalid-assignment] Cannot assign to final attribute `ID6` on type `Self@__init__`
+qualifiers_final_annotation.py:59:13: error[invalid-assignment] Cannot assign to final attribute `ID6` on type `Self@__init__`
```
This is a new false positive, but that's a pre-existing issue on main
(if you annotate with `Self`):
https://play.ty.dev/3ee1c56d-7e13-43bb-811a-7a81e236e6ab❌ => reported
as https://github.com/astral-sh/ty/issues/1409
## Ecosystem
* There are 5931 new `unresolved-attribute` and 3292 new
`possibly-missing-attribute` attribute errors, way too many to look at
all of them. I randomly sampled 15 of these errors and found:
* 13 instances where there was simply no such attribute that we could
plausibly see. Sometimes [I didn't find it
anywhere](8644d886c6/openlibrary/plugins/openlibrary/tests/test_listapi.py (L33)).
Sometimes it was set externally on the object. Sometimes there was some
[`setattr` dynamicness going
on](a49f6b927d/setuptools/wheel.py (L88-L94)).
I would consider all of them to be true positives.
* 1 instance where [attribute was set on `obj` in
`__new__`](9e87b44fd4/sympy/tensor/array/array_comprehension.py (L45C1-L45C36)),
which we don't support yet
* 1 instance [where the attribute was defined via `__slots__`
](e250ec0fc8/lib/spack/spack/vendor/pyrsistent/_pdeque.py (L48C5-L48C14))
* I see 44 instances [of the false positive
above](https://github.com/astral-sh/ty/issues/1409) with `Final`
instance attributes being set in `__init__`. I don't think this should
block this PR.
## Test Plan
New Markdown tests.
---------
Co-authored-by: Shaygan Hooshyari <sh.hooshyari@gmail.com>
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
Fixes#21017
Taught UP032’s parenthesize check to ignore underscores when inspecting
decimal integer literals so the converter emits `f"{(1_2).real}"`
instead of invalid syntax.
## Test Plan
Added test cases to UP032_2.py.
<!-- How was it tested? -->
## Summary
Also bumps `cargo dist` to 0.30, and moves us
back to the upstream copy of `dist` now that
the latest version has integrated our fork's
patches.
## Test Plan
See what happens in CI 🙂
---------
Signed-off-by: William Woodruff <william@astral.sh>
This PR adds another useful simplification when rendering constraint
sets: `T = int` instead of `T = int ∧ T ≠ str`. (The "smaller"
constraint `T = int` implies the "larger" constraint `T ≠ str`.
Constraint set clauses are intersections, and if one constraint in a
clause implies another, we can throw away the "larger" constraint.)
While we're here, we also normalize the bounds of a constraint, so that
we equate e.g. `T ≤ int | str` with `T ≤ str | int`, and change the
ordering of BDD variables so that all constraints with the same typevar
are ordered adjacent to each other.
Lastly, we also add a new `display_graph` helper method that prints out
the full graph structure of a BDD.
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
## Summary
Fall back to `C[Divergent]` if we are trying to specialize `C[T]` with a
type that itself already contains deeply nested specialized generic
classes. This is a way to prevent infinite recursion for cases like
`self.x = [self.x]` where type inference for the implicit instance
attribute would not converge.
closes https://github.com/astral-sh/ty/issues/1383
closes https://github.com/astral-sh/ty/issues/837
## Test Plan
Regression tests.
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## Summary
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Fixes#18778
Prevent SIM911 from triggering when zip() is called on .keys()/.values()
that take any positional or keyword arguments, so Ruff
never suggests the lossy rewrite.
## Test Plan
<!-- How was it tested? -->
Added a test case to SIM911.py.
## Summary
I spun this out from #21005 because I thought it might be helpful
separately. It just renders a nice `Diagnostic` for syntax errors
pointing to the source of the error. This seemed a bit more helpful to
me than just the byte offset when working on #21005, and we had most of
the code around after #20443 anyway.
## Test Plan
This doesn't actually affect any passing tests, but here's an example of
the additional output I got when I broke the spacing after the `in`
token:
```
error[internal-error]: Expected 'in', found name
--> /home/brent/astral/ruff/crates/ruff_python_formatter/resources/test/fixtures/black/cases/cantfit.py:50:79
|
48 | need_more_to_make_the_line_long_enough,
49 | )
50 | del ([], name_1, name_2), [(), [], name_4, name_3], name_1[[name_2 for name_1 inname_0]]
| ^^^^^^^^
51 | del ()
|
```
I just appended this to the other existing output for now.
This is an alternative to #21012 that more narrowly handles this logic
in the stub-mapping machinery rather than pervasively allowing us to
identify cached files as typeshed stubs. Much of the logic is the same
(pulling the logic out of ty_server so it can be reused).
I don't have a good sense for if one approach is "better" or "worse" in
terms of like, semantics and Weird Bugs that this can cause. This one is
just "less spooky in its broad consequences" and "less muddying of
separation of concerns" and puts the extra logic on a much colder path.
I won't be surprised if one day the previous implementation needs to be
revisited for its more sweeping effects but for now this is good.
Fixes https://github.com/astral-sh/ty/issues/1054
## Summary
We currently panic in the seemingly rare case where the type of a
default value of a parameter depends on the callable itself:
```py
class C:
def f(self: C):
self.x = lambda a=self.x: a
```
Types of default values are only used for display reasons, and it's
unclear if we even want to track them (or if we should rather track the
actual value). So it didn't seem to me that we should spend a lot of
effort (and runtime) trying to achieve a theoretically correct type here
(which would be infinite).
Instead, we simply replace *nested* default types with `Unknown`, i.e.
only if the type of the default value is a callable itself.
closes https://github.com/astral-sh/ty/issues/1402
## Test Plan
Regression tests
## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
This PR implements a new semantic syntax error where name is parameter &
global.
## Test Plan
<!-- How was it tested? -->
I have written inline test as directed in #17412
---------
Signed-off-by: 11happy <soni5happy@gmail.com>
Co-authored-by: Brent Westbrook <36778786+ntBre@users.noreply.github.com>
## Summary
Only run the "pull types" test after performing the "actual" mdtest. We
observed that the order matters. There is currently one mdtest which
panics when checked in the CLI or the playground. With this change, it
also panics in the mdtest suite.
reopens https://github.com/astral-sh/ty/issues/837?
## Summary
Implement handling of ellipsis (`...`) defaults in the `FAST002` autofix
to correctly differentiate between required and optional parameters in
FastAPI route definitions.
Previously, the autofix did not properly handle cases where parameters
used `...` as a default value (to indicate required parameters). This
could lead to incorrect transformations when applying the autofix.
This change updates the `FAST002` autofix logic to:
- Correctly recognize `...` as a valid FastAPI required default.
- Preserve the semantics of required parameters while still applying
other autofix improvements.
- Avoid incorrectly substituting or removing ellipsis defaults.
Fixes https://github.com/astral-sh/ruff/issues/20800
## Test Plan
Added a new test fixture at:
```crates/ruff_linter/resources/test/fixtures/fastapi/FAST002_2.py```
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
Fixes#20941
Skip autofix for keyword and __debug__ path params
## Test Plan
<!-- How was it tested? -->
I added two test cases to
crates/ruff_linter/resources/test/fixtures/fastapi/FAST003.py.
Closes#20997
This will _decrease_ the number of diagnostics emitted for
[zip-without-explicit-strict
(B905)](https://docs.astral.sh/ruff/rules/zip-without-explicit-strict/#zip-without-explicit-strict-b905),
since previously it triggered on any `zip` call no matter the number of
arguments. It may _increase_ the number of diagnostics for
[map-without-explicit-strict
(B912)](https://docs.astral.sh/ruff/rules/map-without-explicit-strict/#map-without-explicit-strict-b912)
since it will now trigger on a single starred argument where before it
would not. However, the latter rule is in `preview` so this is
acceptable.
Note - we do not need to make any changes to
[batched-without-explicit-strict
(B911)](https://docs.astral.sh/ruff/rules/batched-without-explicit-strict/#batched-without-explicit-strict-b911)
since that just takes a single iterable.
I am doing this in one PR rather than two because we should keep the
behavior of these rules consistent with one another.
For review: apologies for the unreadability of the snapshot for `B905`.
Unfortunately I saw no way of keeping a small diff and a correct fixture
(the fixture labeled a whole block as `# Error` whereas now several in
the block became `# Ok`).Probably simplest to just view the actual
snapshot - it's relatively small.
## Summary
Make rules `INT001`, `INT002`, and `INT003` also
* trigger on qualified names when we're sure the calls are calls to the
`gettext` module. For example
```python
from gettext import gettext as foo
foo(f"{'bar'}") # very certain that this is a call to a real `gettext`
function => worth linting
```
* trigger on `builtins` bindings
```python
from builtins, gettext
gettext.install("...") # binds `gettext.gettext` to `builtins._`
builtins.__dict__["_"] = ... # also a common pattern
_(f"{'bar'}") # should therefore also be linted
```
Fixes: https://github.com/astral-sh/ruff/issues/19028
## Test Plan
Tests have been added to all three rules.
---------
Co-authored-by: Brent Westbrook <36778786+ntBre@users.noreply.github.com>
Summary
--
This PR fixes the issue I added in #20867 and noticed in #20930. Cases
like this
cause an error on any Python version:
```py
f"{1:""}"
```
which gave me a false sense of security before. Cases like this are
still
invalid only before 3.12 and weren't flagged after the changes in
#20867:
```py
f'{1: abcd "{'aa'}" }'
# ^ reused quote
f'{1: abcd "{"\n"}" }'
# ^ backslash
```
I didn't recognize these as nested interpolations that also need to be
checked
for invalid expressions, so filtering out the whole format spec wasn't
quite
right. And `elements.interpolations()` only iterates over the outermost
interpolations, not the nested ones.
There's basically no code change in this PR, I just moved the existing
check
from `parse_interpolated_string`, which parses the entire string, to
`parse_interpolated_element`. This kind of seems more natural anyway and
avoids
having to try to recursively visit nested elements after the fact in
`parse_interpolated_string`. So viewing the diff with something like
```
git diff --color-moved --ignore-space-change --color-moved-ws=allow-indentation-change main
```
should make this more clear.
Test Plan
--
New tests
## Summary
More dogfooding of our own tools.
I didn't touch the build-binaries workflow (it's scary) or the
publish-docs workflow (which doesn't run on PRs) or the ruff-lsp job in
the ci.yaml workflow (ruff-lsp is deprecated; it doesn't seem worth
making changes there).
## Test Plan
CI on this PR
## Summary
- Type checkers (and type-checker authors) think in terms of types, but
I think most Python users think in terms of values. Rather than saying
that a _type_ `X` "has no attribute `foo`" (which I think sounds strange
to many users), say that "an object of type `X` has no attribute `foo`"
- Special-case certain types so that the diagnostic messages read more
like normal English: rather than saying "Type `<class 'Foo'>` has no
attribute `bar`" or "Object of type `<class 'Foo'>` has no attribute
`bar`", just say "Class `Foo` has no attribute `bar`"
## Test Plan
Mdtests and snapshots updated
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
This PR implements semantic syntax error where alternative patterns bind
different names
## Test Plan
<!-- How was it tested? -->
I have written inline tests as directed in #17412
---------
Signed-off-by: 11happy <soni5happy@gmail.com>
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
Same as https://github.com/astral-sh/ty/pull/1391:
> Last time I ran this script, due to what I assume was a `npm` version
mismatch, the `package-lock.json` file was updated while running `npm
install` in the `schemastore`. Due to the use of `git commit -a`, it was
accidentally included in the commit for the semi-automated schemastore
PR. The solution here is to only add the actual file that we want to
commit.
## Summary
Derived from #20900
Implement `VarianceInferable` for `KnownInstanceType` (especially for
`KnownInstanceType::TypeAliasType`).
The variance of a type alias matches its value type. In normal usage,
type aliases are expanded to value types, so the variance of a type
alias can be obtained without implementing this. However, for example,
if we want to display the variance when hovering over a type alias, we
need to be able to obtain the variance of the type alias itself (cf.
#20900).
## Test Plan
I couldn't come up with a way to test this in mdtest, so I'm testing it
in a test submodule at the end of `types.rs`.
I also added a test to `mdtest/generics/pep695/variance.md`, but it
passes without the changes in this PR.
## Summary
Fixes#20774 by tracking whether an `InterpolatedStringState` element is
nested inside of another interpolated element. This feels like kind of a
naive fix, so I'm welcome to other ideas. But it resolves the problem in
the issue and clears up the syntax error in the black compatibility
test, without affecting many other cases.
The other affected case is actually interesting too because the
[input](96b156303b/crates/ruff_python_formatter/resources/test/fixtures/ruff/expression/fstring.py (L707))
is invalid, but the previous quote selection fixed the invalid syntax:
```pycon
Python 3.11.13 (main, Sep 2 2025, 14:20:25) [Clang 20.1.4 ] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> f'{1: abcd "{'aa'}" }' # input
File "<stdin>", line 1
f'{1: abcd "{'aa'}" }'
^^
SyntaxError: f-string: expecting '}'
>>> f'{1: abcd "{"aa"}" }' # old output
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ValueError: Invalid format specifier ' abcd "aa" ' for object of type 'int'
>>> f'{1: abcd "{'aa'}" }' # new output
File "<stdin>", line 1
f'{1: abcd "{'aa'}" }'
^^
SyntaxError: f-string: expecting '}'
```
We now preserve the invalid syntax in the input.
Unfortunately, this also seems to be another edge case I didn't consider
in https://github.com/astral-sh/ruff/pull/20867 because we don't flag
this as a syntax error after 0.14.1:
<details><summary>Shell output</summary>
<p>
```
> uvx ruff@0.14.0 check --ignore ALL --target-version py311 - <<EOF
f'{1: abcd "{'aa'}" }'
EOF
invalid-syntax: Cannot reuse outer quote character in f-strings on Python 3.11 (syntax was added in Python 3.12)
--> -:1:14
|
1 | f'{1: abcd "{'aa'}" }'
| ^
|
Found 1 error.
> uvx ruff@0.14.1 check --ignore ALL --target-version py311 - <<EOF
f'{1: abcd "{'aa'}" }'
EOF
All checks passed!
> uvx python@3.11 -m ast <<EOF
f'{1: abcd "{'aa'}" }'
EOF
Traceback (most recent call last):
File "<frozen runpy>", line 198, in _run_module_as_main
File "<frozen runpy>", line 88, in _run_code
File "/home/brent/.local/share/uv/python/cpython-3.11.13-linux-x86_64-gnu/lib/python3.11/ast.py", line 1752, in <module>
main()
File "/home/brent/.local/share/uv/python/cpython-3.11.13-linux-x86_64-gnu/lib/python3.11/ast.py", line 1748, in main
tree = parse(source, args.infile.name, args.mode, type_comments=args.no_type_comments)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File "/home/brent/.local/share/uv/python/cpython-3.11.13-linux-x86_64-gnu/lib/python3.11/ast.py", line 50, in parse
return compile(source, filename, mode, flags,
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File "<stdin>", line 1
f'{1: abcd "{'aa'}" }'
^^
SyntaxError: f-string: expecting '}'
```
</p>
</details>
I assumed that was the same `ParseError` as the one caused by
`f"{1:""}"`, but this is a nested interpolation inside of the format
spec.
## Test Plan
New test copied from the black compatibility test. I guess this is a
duplicate now, I started working on this branch before the new black
tests were imported, so I could delete the separate test in our fixtures
if that's preferable.
## Summary
Support `dataclass_transform` when used on a (base) class.
## Typing conformance
* The changes in `dataclasses_transform_class.py` look good, just a few
mistakes due to missing `alias` support.
* I didn't look closely at the changes in
`dataclasses_transform_converter.py` since we don't support `converter`
yet.
## Ecosystem impact
The impact looks huge, but it's concentrated on a single project (ibis).
Their setup looks more or less like this:
* the real `Annotatable`:
d7083c2c96/ibis/common/grounds.py (L100-L101)
* the real `DataType`:
d7083c2c96/ibis/expr/datatypes/core.py (L161-L179)
* the real `Array`:
d7083c2c96/ibis/expr/datatypes/core.py (L1003-L1006)
```py
from typing import dataclass_transform
@dataclass_transform()
class Annotatable:
pass
class DataType(Annotatable):
nullable: bool = True
class Array[T](DataType):
value_type: T
```
They expect something like `Array([1, 2])` to work, but ty, pyright,
mypy, and pyrefly would all expect there to be a first argument for the
`nullable` field on `DataType`. I don't really understand on what
grounds they expect the `nullable` field to be excluded from the
signature, but this seems to be the main reason for the new diagnostics
here. Not sure if related, but it looks like their typing setup is not
really complete
(https://github.com/ibis-project/ibis/issues/6844#issuecomment-1868274770,
this thread also mentions `dataclass_transform`).
## Test Plan
Update pre-existing tests.
Detect legacy namespace packages and treat them like namespace packages
when looking them up as the *parent* of the module we're interested in.
In all other cases treat them like a regular package.
(This PR is coauthored by @MichaReiser in a shared coding session)
Fixes https://github.com/astral-sh/ty/issues/838
---------
Co-authored-by: Micha Reiser <micha@reiser.io>
## Summary
Prefer the declared type for collection literals, e.g.,
```py
x: list[Any] = [1, "2", (3,)]
reveal_type(x) # list[Any]
```
This solves a large part of https://github.com/astral-sh/ty/issues/136
for invariant generics, where respecting the declared type is a lot more
important. It also means that annotated dict literals with `dict[_,
Any]` is a way out of https://github.com/astral-sh/ty/issues/1248.
We have to track whether a typevar appears in a position where it's
inferable or not. In a non-inferable position (in the body of the
generic class or function that binds it), assignability must hold for
every possible specialization of the typevar. In an inferable position,
it only needs to hold for _some_ specialization.
https://github.com/astral-sh/ruff/pull/20093 is working on using
constraint sets to model assignability of typevars, and the constraint
sets that we produce will be the same for inferable vs non-inferable
typevars; what changes is what we _compare_ that constraint set to. (For
a non-inferable typevar, the constraint set must equal the set of valid
specializations; for an inferable typevar, it must not be `never`.)
When I first added support for tracking inferable vs non-inferable
typevars, it seemed like it would be easiest to have separate `Type`
variants for each. The alternative (which lines up with the Δ set in
[POPL15](https://doi.org/10.1145/2676726.2676991)) would be to
explicitly plumb through a list of inferable typevars through our type
property methods. That seemed cumbersome.
In retrospect, that was the wrong decision. We've had to jump through
hoops to translate types between the inferable and non-inferable
variants, which has been quite brittle. Combined with the original point
above, that much of the assignability logic will become more identical
between inferable and non-inferable, there is less justification for the
two `Type` variants. And plumbing an extra `inferable` parameter through
all of these methods turns out to not be as bad as I anticipated.
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
## Summary
Use the declared type of variables as type context for the RHS of assignment expressions, e.g.,
```py
x: list[int | str]
x = [1]
reveal_type(x) # revealed: list[int | str]
```
## Summary
Ignore the type context when specializing a generic call if it leads to
an unnecessarily wide return type. For example, [the example mentioned
here](https://github.com/astral-sh/ruff/pull/20796#issuecomment-3403319536)
works as expected after this change:
```py
def id[T](x: T) -> T:
return x
def _(i: int):
x: int | None = id(i)
y: int | None = i
reveal_type(x) # revealed: int
reveal_type(y) # revealed: int
```
I also added extended our usage of `filter_disjoint_elements` to tuple
and typed-dict inference, which resolves
https://github.com/astral-sh/ty/issues/1266.
## Summary
Add support for the `field_specifiers` parameter on
`dataclass_transform` decorator calls.
closes https://github.com/astral-sh/ty/issues/1068
## Conformance test results
All true positives ✔️
## Ecosystem analysis
* `trio`: this is the kind of change that I would expect from this PR.
The code makes use of a dataclass `Outcome` with a `_unwrapped: bool =
attr.ib(default=False, eq=False, init=False)` field that is excluded
from the `__init__` signature, so we now see a bunch of
constructor-call-related errors going away.
* `home-assistant/core`: They have a `domain: str = attr.ib(init=False,
repr=False)` field and then use
```py
@domain.default
def _domain_default(self) -> str:
# …
```
This accesses the `default` attribute on `dataclasses.Field[…]` with a
type of `default: _T | Literal[_MISSING_TYPE.MISSING]`, so we get those
"Object of type `_MISSING_TYPE` is not callable" errors. I don't really
understand how that is supposed to work. Even if `_MISSING_TYPE` would
be absent from that union, what does this try to call? pyright also
issues an error and it doesn't seem to work at runtime? So this looks
like a true positive?
* `attrs`: Similar here. There are some new diagnostics on code that
tries to access `.validator` on a field. This *does* work at runtime,
but I'm not sure how that is supposed to type-check (without a [custom
plugin](2c6c395935/mypy/plugins/attrs.py (L575-L602))).
pyright errors on this as well.
* A handful of new false positives because we don't support `alias` yet
## Test Plan
Updated tests.
Summary
--
This PR unifies the two different ways Ruff and ty construct syntax
errors. Ruff has been storing the primary message in the diagnostic
itself, while ty attached the message to the primary annotation:
```
> ruff check try.py
invalid-syntax: name capture `x` makes remaining patterns unreachable
--> try.py:2:10
|
1 | match 42:
2 | case x: ...
| ^
3 | case y: ...
|
Found 1 error.
> uvx ty check try.py
WARN ty is pre-release software and not ready for production use. Expect to encounter bugs, missing features, and fatal errors.
Checking ------------------------------------------------------------ 1/1 files
error[invalid-syntax]
--> try.py:2:10
|
1 | match 42:
2 | case x: ...
| ^ name capture `x` makes remaining patterns unreachable
3 | case y: ...
|
Found 1 diagnostic
```
I think there are benefits to both approaches, and I do like ty's
version, but I feel like we should pick one (and it might help with
#20901 eventually). I slightly prefer Ruff's version, so I went with
that. Hopefully this isn't too controversial, but I'm happy to close
this if it is.
Note that this shouldn't change any other diagnostic formats in ty
because
[`Diagnostic::primary_message`](98d27c4128/crates/ruff_db/src/diagnostic/mod.rs (L177))
was already falling back to the primary annotation message if the
diagnostic message was empty. As a result, I think this change will
partially resolve the FIXME therein.
Test Plan
--
Existing tests with updated snapshots
## Summary
Implement `docstring-extraneous-parameter` (`DOC102`). This rule checks
that all parameters present in a functions docstring are also present in
its signature.
Split from #13280, per this
[comment](https://github.com/astral-sh/ruff/pull/13280#issuecomment-3280575506).
Part of #12434.
## Test Plan
Test cases added.
---------
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
This is the ultra-minimal implementation of
* https://github.com/astral-sh/ty/issues/296
that was previously discussed as a good starting point. In particular we
don't actually bother trying to figure out the exact python versions,
but we still mention "hey btw for No Reason At All... you're on python
3.10" when you try to access something that has a definition rooted in
the stdlib that we believe exists sometimes.
This is a drive-by improvement that I stumbled backwards into while
looking into
* https://github.com/astral-sh/ty/issues/296
I was writing some simple tests for "thing not in old version of stdlib"
diagnostics and checked what was added in 3.14, and saw
`compression.zstd` and to my surprise discovered that `import
compression.zstd` and `from compression import zstd` had completely
different quality diagnostics.
This is because `compression` and `compression.zstd` were *both*
introduced in 3.14, and so per VERSIONS policy only an entry for
`compression` was added, and so we don't actually have any definite info
on `compression.zstd` and give up on producing a diagnostic. However the
`from compression import zstd` form fails on looking up `compression`
and we *do* have an exact match for that, so it gets a better
diagnostic!
(aside: I have now learned about the VERSIONS format and I *really* wish
they would just enumerate all the submodules but, oh well!)
The fix is, when handling an import failure, if we fail to find an exact
match *we requery with the parent module*. In cases like
`compression.zstd` this lets us at least identify that, hey, not even
`compression` exists, and luckily that fixes the whole issue. In cases
where the parent module and submodule were introduced at different times
then we may discover that the parent module is in-range and that's fine,
we don't produce the richer stdlib diagnostic.
## Summary
`dataclasses.field` and field-specifier functions of commonly used
libraries like `pydantic`, `attrs`, and `SQLAlchemy` all return the
default type for the field (or `Any`) instead of an actual `Field`
instance, even if this is not what happens at runtime. Let's make use of
this fact and assume that *all* field specifiers return the type of the
default value of the field.
For standard dataclasses, this leads to more or less the same outcome
(see test diff for details), but this change is important for 3rd party
dataclass-transformers.
## Test Plan
Tested the consequences of this change on the field-specifiers branch as
well.
## Summary
Resolves https://github.com/astral-sh/ty/issues/1349.
Fix match statement value patterns to use equality comparison semantics
instead of incorrectly narrowing to literal types directly. Value
patterns use equality for matching, and equality can be overridden, so
we can't always narrow to the matched literal.
## Test Plan
Updated match.md with corrected expected types and an additional example
with explanation
---------
Co-authored-by: David Peter <mail@david-peter.de>
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
This PR implements `F702`
https://docs.astral.sh/ruff/rules/continue-outside-loop/ as semantic
syntax error.
## Test Plan
<!-- How was it tested? -->
Tests are already previously written in F702
---------
Signed-off-by: 11happy <soni5happy@gmail.com>
## Summary
Part of astral-sh/ty#1341
The following changes will be made to `Place`.
* Introduce `TypeOrigin`
* `Place::Type` -> `Place::Defined`
* `Place::Unbound` -> `Place::Undefined`
* `Boundness` -> `Definedness`
`TypeOrigin::Declared`+`Definedness::PossiblyUndefined` are patterns
that weren't considered before, but this PR doesn't address them yet,
only refactors.
## Test Plan
Refactoring
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
`airflow.datasets.DatasetEvent` has been removed in 3 but `AssetEvent`
might be added in the future
## Test Plan
<!-- How was it tested? -->
update the test fixture and reorg in the second commit
Summary
--
Fixes#20844 by refining the unsupported syntax error check for [PEP
701]
f-strings before Python 3.12 to allow backslash escapes and escaped
outer quotes
in the format spec part of f-strings. These are only disallowed within
the
f-string expression part on earlier versions. Using the examples from
the PR:
```pycon
>>> f"{1:\x64}"
'1'
>>> f"{1:\"d\"}"
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ValueError: Invalid format specifier '"d"' for object of type 'int'
```
Note that the second case is a runtime error, but this is actually
avoidable if
you override `__format__`, so despite being pretty weird, this could
actually be
a valid use case.
```pycon
>>> class C:
... def __format__(*args, **kwargs): return "<C>"
...
>>> f"{C():\"d\"}"
'<C>'
```
At first I thought narrowing the range we check to exclude the format
spec would
only work for escapes, but it turns out that cases like `f"{1:""}"` are
already
covered by an existing `ParseError`, so we can just narrow the range of
both our
escape and quote checks.
Our comment check also seems to be working correctly because it's based
on the
actual tokens. A case like
[this](https://play.ruff.rs/9f1c2ff2-cd8e-4ad7-9f40-56c0a524209f):
```python
f"""{1:# }"""
```
doesn't include a comment token, instead the `#` is part of an
`InterpolatedStringLiteralElement`.
Test Plan
--
New inline parser tests
[PEP 701]: https://peps.python.org/pep-0701/
A large part of the diff on #20677 just involves threading a new
`inferable` parameter through all of the type property methods. In the
interests of making that PR easier to review, I've pulled that bit out
into here, so that it can be reviewed in isolation. This should be a
pure refactoring, with no logic changes or behavioral changes.
## Summary
I considered making a dedicated cargo profile for these, but the
`profiling` profile basically made all the modifications to `release`
that I would have also made.
## Test Plan
CI on this PR
## Summary
Fixed a typo. It should be "or", not "of". Both `.pop()` and `next()` on
an empty collection will raise `IndexError`, not "`[0]` of the `pop()`
function"
## Test Plan
n/a
Summary
--
This PR implements the black preview style from
https://github.com/psf/black/pull/4720. As of Python 3.14, you're
allowed to omit the parentheses around groups of exceptions, as long as
there's no `as` binding:
**3.13**
```pycon
Python 3.13.4 (main, Jun 4 2025, 17:37:06) [Clang 20.1.4 ] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> try: ...
... except (Exception, BaseException): ...
...
Ellipsis
>>> try: ...
... except Exception, BaseException: ...
...
File "<python-input-1>", line 2
except Exception, BaseException: ...
^^^^^^^^^^^^^^^^^^^^^^^^
SyntaxError: multiple exception types must be parenthesized
```
**3.14**
```pycon
Python 3.14.0rc2 (main, Sep 2 2025, 14:20:56) [Clang 20.1.4 ] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> try: ...
... except Exception, BaseException: ...
...
Ellipsis
>>> try: ...
... except (Exception, BaseException): ...
...
Ellipsis
>>> try: ...
... except Exception, BaseException as e: ...
...
File "<python-input-2>", line 2
except Exception, BaseException as e: ...
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
SyntaxError: multiple exception types must be parenthesized when using 'as'
```
I think this ended up being pretty straightforward, at least once Micha
showed me where to start :)
Test Plan
--
New tests
At first I thought we were deviating from black in how we handle
comments within the exception type tuple, but I think this applies to
how we format all tuples, not specifically with the new preview style.
Summary
--
```shell
git clone git@github.com:psf/black.git ../other/black
crates/ruff_python_formatter/resources/test/fixtures/import_black_tests.py ../other/black
```
Then ran our tests and accepted the snapshots
I had to make a small fix to our tuple normalization logic for `del`
statements
in the second commit, otherwise the tests were panicking at a changed
AST. I
think the new implementation is closer to the intention described in the
nearby
comment anyway, though.
The first commit adds the new Python, settings, and `.expect` files, the
next three commits make some small
fixes to help get the tests running, and then the fifth commit accepts
all but one of the new snapshots. The last commit includes the new
unsupported syntax error for one f-string example, tracked in #20774.
Test Plan
--
Newly imported tests. I went through all of the new snapshots and added
review comments below. I think they're all expected, except a few cases
I wasn't 100% sure about.
## Summary
If a function is decorated with a decorator that returns a union of
`Callable`s, also treat it as a union of function-like `Callable`s.
Labeling as `internal`, since the previous change has not been released
yet.
## Test Plan
New regression test.
## Summary
Rename "unwrapping" methods on `Type` from e.g.
`Type::into_class_literal` to `Type::as_class_literal`. I personally
find that name more intuitive, since no transformation of any kind is
happening. We are just unwrapping from certain enum variants. An
alternative would be `try_as_class_literal`, which would follow the
[`strum` naming
scheme](https://docs.rs/strum/latest/strum/derive.EnumTryAs.html), but
is slightly longer.
Also rename `Type::into_callable` to `Type::try_upcast_to_callable`.
Note that I intentionally kept names like
`FunctionType::into_callable_type`, because those return `CallableType`,
not `Option<Type<…>>`.
## Test Plan
Pure refactoring
As part of #20598, we added `is_identical_to` methods to
`TypeVarInstance` and `BoundTypeVarInstance`, which compare when two
typevar instances refer to "the same" underlying typevar, even if we
have forced their lazy bounds/constraints as part of marking typevars as
inferable. (Doing so results in a different salsa interned struct ID,
since we've changed the contents of the `bounds_or_constraints` field.)
It turns out that marking typevars as inferable is not the only way that
we might force lazy bounds/constraints; it also happens when we
materialize a type containing a typevar. This surfaced as ecosystem
report failures on #20677.
That means that we need a more long-term fix to this problem.
(`is_identical_to`, and its underlying `original` field, were meant to
be a temporary fix until we removed the `MarkTypeVarsInferable` type
mapping.)
This PR extracts out a separate type (`TypeVarIdentity`) that only
includes the fields that actually inform whether two typevars are "the
same". All other properties of the typevar (default, bounds/constraints,
etc) still live in `TypeVarInstance`. Call sites that care about typevar
identity can now either store just `TypeVarIdentity` (if they never need
access to those other properties), or continue to store
`TypeVarInstance` but pull out its `identity` when performing those "are
they the same typevar" comparisons. (All of this also applies
respectively to `BoundTypeVar{Identity,Instance}`.) In particular,
constraint sets now work on `BoundTypeVarIdentity`, and generic contexts
still _store_ a `BoundTypeVarInstance` (since we might need access to
defaults when specializing), but are keyed on `BoundTypeVarIdentity`.
Generic classes are not allowed to bind or reference a typevar from an
enclosing scope:
```py
def f[T](x: T, y: T) -> None:
class Ok[S]: ...
# error: [invalid-generic-class]
class Bad1[T]: ...
# error: [invalid-generic-class]
class Bad2(Iterable[T]): ...
class C[T]:
class Ok1[S]: ...
# error: [invalid-generic-class]
class Bad1[T]: ...
# error: [invalid-generic-class]
class Bad2(Iterable[T]): ...
```
It does not matter if the class uses PEP 695 or legacy syntax. It does
not matter if the enclosing scope is a generic class or function. The
generic class cannot even _reference_ an enclosing typevar in its base
class list.
This PR adds diagnostics for these cases.
In addition, the PR adds better fallback behavior for generic classes
that violate this rule: any enclosing typevars are not included in the
class's generic context. (That ensures that we don't inadvertently try
to infer specializations for those typevars in places where we
shouldn't.) The `dulwich` ecosystem project has [examples of
this](d912eaaffd/dulwich/config.py (L251))
that were causing new false positives on #20677.
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
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## Summary
<!-- What's the purpose of the change? What does it do, and why? -->
This PR implements https://docs.astral.sh/ruff/rules/break-outside-loop/
(F701) as a semantic syntax error.
## Test Plan
<!-- How was it tested? -->
---------
Signed-off-by: 11happy <soni5happy@gmail.com>
Co-authored-by: Brent Westbrook <brentrwestbrook@gmail.com>
## Summary
Treat `Callable`s as bound-method descriptors if `Callable` is the
return type of a decorator that is applied to a function definition. See
the [rendered version of the new test
file](https://github.com/astral-sh/ruff/blob/david/callables-as-descriptors/crates/ty_python_semantic/resources/mdtest/call/callables_as_descriptors.md)
for the full description of this new heuristic.
I could imagine that we want to treat `Callable`s as bound-method
descriptors in other cases as well, but this seems like a step in the
right direction. I am planning to add other "use cases" from
https://github.com/astral-sh/ty/issues/491 to this test suite.
partially addresses https://github.com/astral-sh/ty/issues/491
closes https://github.com/astral-sh/ty/issues/1333
## Ecosystem impact
All positive
* 2961 removed `unsupported-operator` diagnostics on `sympy`, which was
one of the main motivations for implementing this change
* 37 removed `missing-argument` diagnostics, and no added call-error
diagnostics, which is an indicator that this heuristic shouldn't cause
many false positives
* A few removed `possibly-missing-attribute` diagnostics when accessing
attributes like `__name__` on decorated functions. The two added
`unused-ignore-comment` diagnostics are also cases of this.
* One new `invalid-assignment` diagnostic on `dd-trace-py`, which looks
suspicious, but only because our `invalid-assignment` diagnostics are
not great. This is actually a "Implicit shadowing of function"
diagnostic that hides behind the `invalid-assignment` diagnostic,
because a module-global function is being patched through a
`module.func` attribute assignment.
## Test Plan
New Markdown tests.
This PR resolves the issue noticed in
https://github.com/astral-sh/ruff/pull/20777#discussion_r2417233227.
Namely, cases like this were being flagged as syntax errors despite
being perfectly valid on Python 3.8:
```pycon
Python 3.8.20 (default, Oct 2 2024, 16:34:12)
[Clang 18.1.8 ] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> with (open("foo.txt", "w")): ...
...
Ellipsis
>>> with (open("foo.txt", "w")) as f: print(f)
...
<_io.TextIOWrapper name='foo.txt' mode='w' encoding='UTF-8'>
```
The second of these was already allowed but not the first:
```shell
> ruff check --target-version py38 --ignore ALL - <<EOF
with (open("foo.txt", "w")): ...
with (open("foo.txt", "w")) as f: print(f)
EOF
invalid-syntax: Cannot use parentheses within a `with` statement on Python 3.8 (syntax was added in Python 3.9)
--> -:1:6
|
1 | with (open("foo.txt", "w")): ...
| ^
2 | with (open("foo.txt", "w")) as f: print(f)
|
Found 1 error.
```
There was some discussion of related cases in
https://github.com/astral-sh/ruff/pull/16523#discussion_r1984657793, but
it seems I overlooked the single-element case when flagging tuples. As
suggested in the other thread, we can just check if there's more than
one element or a trailing comma, which will cause the tuple parsing on
<=3.8 and avoid the false positives.
## Summary
Based on the suggestion in
https://github.com/astral-sh/ruff/issues/20774#issuecomment-3383153511,
I added rendering of unsupported syntax errors in our `format` test.
In support of this, I added a `DummyFileResolver` type to `ruff_db` to
pass to `DisplayDiagnostics::new` (first commit). Another option would
obviously be implementing this directly in the fixtures, but we'd have
to import a `NotebookIndex` somehow; either by depending directly on
`ruff_notebook` or re-exporting it from `ruff_db`. I thought it might be
convenient elsewhere to have a dummy resolver, for example in the
parser, where we currently have a separate rendering pipeline
[copied](https://github.com/astral-sh/ruff/blob/main/crates/ruff_python_parser/tests/fixtures.rs#L321)
from our old rendering code in `ruff_linter`. I also briefly tried
implementing a `TestDb` in the formatter since I noticed the
`ruff_python_formatter::db` module, but that was turning into a lot more
code than the dummy resolver.
We could also push this a bit further if we wanted. I didn't add the new
snapshots to the black compatibility tests or to the preview snapshots,
for example. I thought it was kind of noisy enough (and helpful enough)
already, though. We could also use a shorter diagnostic format, but the
full output seems most useful once we accept this initial large batch of
changes.
## Test Plan
I went through the baseline snapshots pretty quickly, but they all
looked reasonable to me, with one exception I noted below. I also tested
that the case from #20774 produces a new unsupported syntax error.
## Summary
Move the `class_member` function to the `member` module. This allows us
to move the `member` module into the `types` module and to reduce the
visibility of its contents to `pub(super)`. The drawback is that we need
to make `place::place_by_id` public.
## Test Plan
Pure refactoring.
## Summary
When accessing an (instance) attribute on a given class, we were
previously traversing its MRO, and building a union of types (if the
attribute was available on multiple classes in the MRO) until we found a
*definitely bound* symbol. The idea was that possibly unbound symbols in
a subclass might only partially shadow the underlying base class
attribute.
This behavior was problematic for two reasons:
* if the attribute was definitely bound on a class (e.g. `self.x =
None`), we would have stopped iterating, even if there might be a `x:
str | None` declaration in a base class (the bug reported in
https://github.com/astral-sh/ty/issues/1067).
* if the attribute originated from an implicit instance attribute
assignment (e.g. `self.x = 1` in method `Sub.foo`), we might stop
looking and miss another implicit instance attribute assignment in a
base class method (e.g. `self.x = 2` in method `Base.bar`).
With this fix, we still iterate the MRO of the class, but we only stop
iterating if we find a *definitely declared* symbol. In this case, we
only return the declared attribute type. Otherwise, we keep building a
union of inferred attribute types.
The implementation here seemed to be the easiest fix for
https://github.com/astral-sh/ty/issues/1067 that also kept the ecosystem
impact low (the changes that I see all look correct). However, as the
Markdown tests show, there are other things to fix in this area. For
example, we should do a similar thing for *class attributes*. This is
more involved, though (affects many different areas and probably
involves a change to our descriptor protocol implementation), so I'd
like to postpone this to a follow-up.
closes https://github.com/astral-sh/ty/issues/1067
## Test Plan
Updated Markdown tests, including a regression test for
https://github.com/astral-sh/ty/issues/1067.
## Summary
Implements bidirectional type inference using function return type
annotations.
This PR was originally proposed to solve astral-sh/ty#1167, but this
does not fully resolve it on its own.
Additionally, I believe we need to allow dataclasses to generate their
own `__new__` methods, [use constructor return types for
inference](5844c0103d/crates/ty_python_semantic/src/types.rs (L5326-L5328)),
and a mechanism to discard type narrowing like `& ~AlwaysFalsy` if
necessary (at a more general level than this PR).
## Test Plan
`mdtest/bidirectional.md` is added.
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
Co-authored-by: Ibraheem Ahmed <ibraheem@ibraheem.ca>
## Summary
Resolves#19384.
- Distinguishes more clearly between `date` and `datetime` objects.
- Uniformly links to the relevant Python docs from rules in this
category.
I've tried to be clearer, but there's still a contradiction in the rules
as written: we say "use timezone-aware objects", but `date`s are
inherently timezone-naive.
Also, the full docs don't always match the error message: for instance,
in [DTZ012](https://docs.astral.sh/ruff/rules/call-date-fromtimestamp/),
the example says to use:
```python
datetime.datetime.fromtimestamp(946684800, tz=datetime.UTC)
```
while `fix_title` returns "Use `datetime.datetime.fromtimestamp(ts,
tz=...)**.date()**` instead".
I have left this as it was for now.
## Test Plan
Ran `mkdocs` locally and inspected result.
## Summary
Adds a set of basic new tests corresponding to open points in
https://github.com/astral-sh/ty/issues/1327, to document the state of
support for `dataclass_transform`.
## Summary
Type annotations are deferred by default starting with Python 3.14. No
`from __future__ import annotations` import is necessary.
## Test Plan
New Markdown test
## Summary
Simplify and fix the implementation of
`ty_extensions.CallableTypeOf[..]`.
closes https://github.com/astral-sh/ty/issues/1331
## Test Plan
Added regression test.
## Summary
The original autofix for G004 was quietly dropping everything but the
f-string components of any implicit concatenation sequence; this
addresses that.
Side note: It looks like `f_strings` is a bit risky to use (since it
implicitly skips non-f-string parts); use iter and include implicitly
concatenated pieces. We should consider if it's worth having
(convenience vs. bit risky).
## Test Plan
```
cargo test -p ruff_linter
```
Backtest (run new testcases against previous implementation):
```
git checkout HEAD^ crates/ruff_linter/src/rules/flake8_logging_format/rules/logging_call.rs
cargot test -p ruff_linter
```
## Summary
This allows us to handle self-referential bounds/constraints/defaults
without panicking.
Handles more cases from https://github.com/astral-sh/ty/issues/256
This also changes the way we infer the types of legacy TypeVars. Rather
than understanding a constructor call to `typing[_extension].TypeVar`
inside of any (arbitrarily nested) expression, and having to use a
special `assigned_to` field of the semantic index to try to best-effort
figure out what name the typevar was assigned to, we instead understand
the creation of a legacy `TypeVar` only in the supported syntactic
position (RHS of a simple un-annotated assignment with one target). In
any other position, we just infer it as creating an opaque instance of
`typing.TypeVar`. (This behavior matches all other type checkers.)
So we now special-case TypeVar creation in `TypeInferenceBuilder`, as a
special case of an assignment definition, rather than deeper inside call
binding. This does mean we re-implement slightly more of
argument-parsing, but in practice this is minimal and easy to handle
correctly.
This is easier to implement if we also make the RHS of a simple (no
unpacking) one-target assignment statement no longer a standalone
expression. Which is fine to do, because simple one-target assignments
don't need to infer the RHS more than once. This is a bonus performance
(0-3% across various projects) and significant memory-usage win, since
most assignment statements are simple one-target assignment statements,
meaning we now create many fewer standalone-expression salsa
ingredients.
This change does mean that inference of manually-constructed
`TypeAliasType` instances can no longer find its Definition in
`assigned_to`, which regresses go-to-definition for these aliases. In a
future PR, `TypeAliasType` will receive the same treatment that
`TypeVar` did in this PR (moving its special-case inference into
`TypeInferenceBuilder` and supporting it only in the correct syntactic
position, and lazily inferring its value type to support recursion),
which will also fix the go-to-definition regression. (I decided a
temporary edge-case regression is better in this case than doubling the
size of this PR.)
This PR also tightens up and fixes various aspects of the validation of
`TypeVar` creation, as seen in the tests.
We still (for now) treat all typevars as instances of `typing.TypeVar`,
even if they were created using `typing_extensions.TypeVar`. This means
we'll wrongly error on e.g. `T.__default__` on Python 3.11, even if `T`
is a `typing_extensions.TypeVar` instance at runtime. We share this
wrong behavior with both mypy and pyrefly. It will be easier to fix
after we pull in https://github.com/python/typeshed/pull/14840.
There are some issues that showed up here with typevar identity and
`MarkTypeVarsInferable`; the fix here (using the new `original` field
and `is_identical_to` methods on `BoundTypeVarInstance` and
`TypeVarInstance`) is a bit kludgy, but it can go away when we eliminate
`MarkTypeVarsInferable`.
## Test Plan
Added and updated mdtests.
### Conformance suite impact
The impact here is all positive:
* We now correctly error on a legacy TypeVar with exactly one constraint
type given.
* We now correctly error on a legacy TypeVar with both an upper bound
and constraints specified.
### Ecosystem impact
Basically none; in the setuptools case we just issue slightly different
errors on an invalid TypeVar definition, due to the modified validation
code.
---------
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>
## Summary
Avoid literal promotion when a literal type annotation is provided, e.g.,
```py
x: list[Literal[1]] = [1]
```
Resolves https://github.com/astral-sh/ty/issues/1198. This does not fix
issue https://github.com/astral-sh/ty/issues/1284, but it does make it
more relevant because after this change, it is possible to directly
instantiate a generic type with a literal specialization.
## Summary
Respect parameters such as `frozen_default` for metaclass-based
`@dataclass_transformer` models.
Related to: https://github.com/astral-sh/ty/issues/1260
## Typing conformance changes
Those are all correct (new true positives)
## Test Plan
New Markdown tests
## Summary
- Add support for eq, kw_only, and frozen parameter overrides in
@dataclass_transform
- Previously only order parameter override was supported
- Update test documentation to reflect fixed behavior
- Resolves issue where kw_only_default and frozen_default could not be
overridden
closes https://github.com/astral-sh/ty/issues/1260
## Test Plan
New Markdown tests
---------
Co-authored-by: David Peter <mail@david-peter.de>
## Summary
Two stable property tests are currently failing on `main`, following
f054b8a55e
(of course, I only thought to run the property tests again around 30
minutes _after_ landing that PR...). The issue is quite subtle, and took
me an annoying amount of time to pin down: we're matching over `(self,
other)` in `Type::is_disjoint_from_impl`, but `other` here is shadowed
by the binding in the `match` branch, which means that the wrong key is
inserted into the cache of the `IsDisjointFrom` cycle detector:
f054b8a55e/crates/ty_python_semantic/src/types.rs (L2408-L2435)
This PR fixes that issue, and also adds a few `Debug` implementations to
our cycle detectors, so that issues like this are easier to debug in the
future.
I'm adding the `internal` label, as this fixes a bug that hasn't yet
appeared in any released version of ty, so it doesn't deserve its own
changelog entry.
## Test Plan
`QUICKCHECK_TESTS=1000000 cargo test --release -p ty_python_semantic --
--ignored types::property_tests::stable` now once again passes on `main`
I considered adding new mdtests as well, but the examples that the
property tests were throwing at me all seemed _quite_ obscure and
somewhat unlikely to occur in the real world. I don't think it's worth
it.
## Summary
Even disambiguating classes using their fully qualified names is not
enough for some diagnostics. We've seen real-world examples in the
ecosystem (and https://github.com/astral-sh/ruff/pull/20368 introduces
some more!) where two types can be different, but can still have the
same fully qualified name. In these cases, our disambiguation machinery
needs to print the file path and line number of the class in order to
disambiguate classes with similar names in our diagnostics.
Helps with https://github.com/astral-sh/ty/issues/1306
## Test Plan
Mdtests
## Summary
This adds a couple of new test cases related to
https://github.com/astral-sh/ty/issues/1067 and beyond that. For now,
they are just documenting the current (problematic) behavior. Since the
topic has some subtleties, I'd like to merge this prior to the actual
bugfix(es) in order to evaluate the changes in an easier way.
## Summary
The `types` module currently re-exports a lot of functions and data
types from `types::ide_support`. One of these is called `Member`, a name
that is overloaded several times already. And I'd like to add one more
`Member` struct soon. Making the whole `ide_support` module public seems
cleaner to me, anyway.
## Test Plan
Pure refactoring.
This is still early days, but I hope the framework introduced here makes
it very easy to add new truth data. Truth data should be seen as a form
of regression test for non-ideal ranking of completion suggestions.
I think it would help to read `crates/ty_completion_eval/README.md`
first to get an idea of what you're reviewing.
## Summary
We have the following test in `protocols.md`:
```py
class HasX(Protocol):
x: int
# […]
class Foo:
x: int
# […]
class FooBool(Foo):
x: bool
static_assert(not is_subtype_of(FooBool, HasX))
static_assert(not is_assignable_to(FooBool, HasX))
```
If `Foo` was indeed intended to be a base class of `FooBool`, then `x:
bool` should be reported as a Liskov violation. And then it's a matter
of definition whether or not these assertions should hold true or not
(should the incorrect override take precedence or not?). So it looks to
me like this is just an oversight, probably a copy-paste error from
another test right before it, where `FooSub` is indeed intended to be a
subclass of `Foo`.
I am fixing this because this test started to fail on a branch of mine
that changes how attribute lookup in inheritance chains works.
## Summary
Fixes [astral-sh/ty#1307](https://github.com/astral-sh/ty/issues/1307)
Unions with length <= 5 are unaffected to minimize test churn
Unions with length > 5 will only display the first 3 elements + "...
omitted x union elements"
Here "length" is defined as the number of elements after condensation to
literals
Edit: we no longer truncate in revel case.
Before:
> info: Attempted to call union type `(def f1() -> int) | (def f2(name:
str) -> int) | (def f3(a: int, b: int) -> int) | (def f4[T](x: T@f4) ->
int) | Literal[5] | (Overload[() -> None, (x: str) -> str]) |
(Overload[() -> None, (x: str, y: str) -> str]) | PossiblyNotCallable`
After:
> info: Attempted to call union type `(def f1() -> int) | (def f2(name:
str) -> int) | (def f3(a: int, b: int) -> int) | ... omitted 5 union
elements`
The below comparisons are outdated, but left here as a reference.
Before:
```reveal_type(x) # revealed: Literal[1, 2] | A | B | C | D | E | F | G```
```reveal_type(x) # revealed: Result1A | Result1B | Result2A | Result2B
| Result3 | Result4```
After:
```reveal_type(x) # revealed: Literal[1, 2] | A | B | ... omitted 5 union elements```
```reveal_type(x) # revealed: Result1A | Result1B | Result2A | ...
omitted 3 union elements```
This formatting is consistent with
`crates/ty_python_semantic/src/types/call/bind.rs` line 2992
## Test Plan
Cosmetic only, covered and verified by changes in mdtest
## Summary
Bump the latest supported Python version of ty to 3.14 and updates some
references from 3.13 to 3.14.
This also fixes a bug with `dataclasses.field` on 3.14 (which adds a new
keyword-only parameter to that function, breaking our previously naive
matching on the parameter structure of that function).
## Test Plan
A `ty check` on a file with template strings (without any further
configuration) doesn't raise errors anymore.
## Summary
Typevar attributes (bound/constraints/default) can be either lazily
evaluated or eagerly evaluated. Currently they are lazily evaluated for
PEP 695 typevars, and eager for legacy and synthetic typevars.
https://github.com/astral-sh/ruff/pull/20598 will make them lazy also
for legacy typevars, and the ecosystem report on that PR surfaced the
issue fixed here (because legacy typevars are much more common in the
ecosystem than PEP 695 typevars.)
Applying a transform to a typevar (normalization, materialization, or
mark-inferable) will reify all lazy attributes and create a new typevar
with eager attributes. In terms of Salsa identity, this transformed
typevar will be considered different from the original typevar, whether
or not the attributes were actually transformed.
In general, this is not a problem, since all typevars in a given generic
context will be transformed, or not, together.
The exception to this was implicit-self vs explicit Self annotations.
The typevar we created for implicit self was created initially using
inferable typevars, whereas an explicit Self annotation is initially
non-inferable, then transformed via mark-inferable when accessed as part
of a function signature. If the containing class (which becomes the
upper bound of `Self`) is generic, and has e.g. a lazily-evaluated
default, then the explicit-Self annotation will reify that default in
the upper bound, and the implicit-self would not, leading them to be
treated as different typevars, and causing us to fail to solve a call to
a method such as `def method(self) -> Self` correctly.
The fix here is to treat implicit-self more like explicit-Self,
initially creating it as non-inferable and then using the mark-inferable
transform on it. This is less efficient, but restores the invariant that
all typevars in a given generic context are transformed together, or
not, fixing the bug.
In the improved-constraint-solver work, the separation of typevars into
"inferable" and "non-inferable" is expected to disappear, along with the
mark-inferable transform, which would render both this bug and the fix
moot. So this fix is really just temporary until that lands.
There is a performance regression, but not a huge one: 1-2% on most
projects, 5% on one outlier. This seems acceptable, given that it should
be fully recovered by removing the mark-inferable transform.
## Test Plan
Added mdtests that failed before this change.
Resolves https://github.com/astral-sh/ruff/issues/20694
This PR updates the `zip_without_explicit_strict` and
`map_without_explicit_strict` rules so their fixes are always marked
unsafe, following Brent's guidance that adding `strict=False` can
silently preserve buggy behaviour when inputs differ. The fix safety
docs now spell out that reasoning, the applicability drops to `Unsafe`,
and the snapshots were refreshed so Ruff clearly warns users before
applying the edit.
- \[`flake8-bugbear`\] Catch `yield` expressions within other statements (`B901`) ([#21200](https://github.com/astral-sh/ruff/pull/21200))
- \[`flake8-use-pathlib`\] Mark fixes unsafe for return type changes (`PTH104`, `PTH105`, `PTH109`, `PTH115`) ([#21440](https://github.com/astral-sh/ruff/pull/21440))
- Show partial fixability indicator in statistics output ([#21513](https://github.com/astral-sh/ruff/pull/21513))
### Contributors
- [@mikeleppane](https://github.com/mikeleppane)
- [@senekor](https://github.com/senekor)
- [@ShaharNaveh](https://github.com/ShaharNaveh)
- [@JumboBear](https://github.com/JumboBear)
- [@prakhar1144](https://github.com/prakhar1144)
- [@tsvikas](https://github.com/tsvikas)
- [@danparizher](https://github.com/danparizher)
- [@chirizxc](https://github.com/chirizxc)
- [@AlexWaygood](https://github.com/AlexWaygood)
- [@MichaReiser](https://github.com/MichaReiser)
## 0.14.6
Released on 2025-11-21.
### Preview features
- \[`flake8-bandit`\] Support new PySNMP API paths (`S508`, `S509`) ([#21374](https://github.com/astral-sh/ruff/pull/21374))
### Bug fixes
- Adjust own-line comment placement between branches ([#21185](https://github.com/astral-sh/ruff/pull/21185))
- Avoid syntax error when formatting attribute expressions with outer parentheses, parenthesized value, and trailing comment on value ([#20418](https://github.com/astral-sh/ruff/pull/20418))
- Fix panic when formatting comments in unary expressions ([#21501](https://github.com/astral-sh/ruff/pull/21501))
- Respect `fmt: skip` for compound statements on a single line ([#20633](https://github.com/astral-sh/ruff/pull/20633))
- \[`ruff`\] Ignore `str()` when not used for simple conversion (`RUF065`) ([#21330](https://github.com/astral-sh/ruff/pull/21330))
### Bug fixes
- Fix syntax error false positive on alternative `match` patterns ([#21362](https://github.com/astral-sh/ruff/pull/21362))
- \[`flake8-simplify`\] Fix false positive for iterable initializers with generator arguments (`SIM222`) ([#21187](https://github.com/astral-sh/ruff/pull/21187))
- \[`pyupgrade`\] Fix false positive on relative imports from local `.builtins` module (`UP029`) ([#21309](https://github.com/astral-sh/ruff/pull/21309))
- \[`pyupgrade`\] Consistently set the deprecated tag (`UP035`) ([#21396](https://github.com/astral-sh/ruff/pull/21396))
- [formatter] Allow newlines after function headers without docstrings ([#21110](https://github.com/astral-sh/ruff/pull/21110))
- [formatter] Avoid extra parentheses for long `match` patterns with `as` captures ([#21176](https://github.com/astral-sh/ruff/pull/21176))
- \[`refurb`\] Expand fix safety for keyword arguments and `Decimal`s (`FURB164`) ([#21259](https://github.com/astral-sh/ruff/pull/21259))
- \[`refurb`\] Preserve argument ordering in autofix (`FURB103`) ([#20790](https://github.com/astral-sh/ruff/pull/20790))
### Bug fixes
- [server] Fix missing diagnostics for notebooks ([#21156](https://github.com/astral-sh/ruff/pull/21156))
- \[`flake8-bugbear`\] Ignore non-NFKC attribute names in `B009` and `B010` ([#21131](https://github.com/astral-sh/ruff/pull/21131))
- \[`refurb`\] Fix false negative for underscores before sign in `Decimal` constructor (`FURB157`) ([#21190](https://github.com/astral-sh/ruff/pull/21190))
- \[`ruff`\] Fix false positives on starred arguments (`RUF057`) ([#21256](https://github.com/astral-sh/ruff/pull/21256))
### Rule changes
- \[`airflow`\] extend deprecated argument `concurrency` in `airflow..DAG` (`AIR301`) ([#21220](https://github.com/astral-sh/ruff/pull/21220))
- \[`pyflakes`\] Revert to stable behavior if imports for module lie in alternate branches for `F401` ([#20878](https://github.com/astral-sh/ruff/pull/20878))
- \[`ruff`\] Add support for additional eager conversion patterns (`RUF065`) ([#20657](https://github.com/astral-sh/ruff/pull/20657))
### Bug fixes
- Fix finding keyword range for clause header after statement ending with semicolon ([#21067](https://github.com/astral-sh/ruff/pull/21067))
- Fix syntax error false positive on nested alternative patterns ([#21104](https://github.com/astral-sh/ruff/pull/21104))
- \[`ISC001`\] Fix panic when string literals are unclosed ([#21034](https://github.com/astral-sh/ruff/pull/21034))
- \[`flake8-django`\] Apply `DJ001` to annotated fields ([#20907](https://github.com/astral-sh/ruff/pull/20907))
- \[`flake8-pyi`\] Fix `PYI034` to not trigger on metaclasses (`PYI034`) ([#20881](https://github.com/astral-sh/ruff/pull/20881))
- \[`flake8-type-checking`\] Fix `TC003` false positive with `future-annotations` ([#21125](https://github.com/astral-sh/ruff/pull/21125))
- \[`pyflakes`\] Fix false positive for `__class__` in lambda expressions within class definitions (`F821`) ([#20564](https://github.com/astral-sh/ruff/pull/20564))
- \[`pyupgrade`\] Fix false positive for `TypeVar` with default on Python \<3.13 (`UP046`,`UP047`) ([#21045](https://github.com/astral-sh/ruff/pull/21045))
### Rule changes
- Add missing docstring sections to the numpy list ([#20931](https://github.com/astral-sh/ruff/pull/20931))
- Avoid reusing nested, interpolated quotes before Python 3.12 ([#20930](https://github.com/astral-sh/ruff/pull/20930))
- Catch syntax errors in nested interpolations before Python 3.12 ([#20949](https://github.com/astral-sh/ruff/pull/20949))
- \[`fastapi`\] Handle ellipsis defaults in `FAST002` autofix ([#20810](https://github.com/astral-sh/ruff/pull/20810))
- \[`flake8-simplify`\] Skip `SIM911` when unknown arguments are present ([#20697](https://github.com/astral-sh/ruff/pull/20697))
- \[`pyupgrade`\] Always parenthesize assignment expressions in fix for `f-string` (`UP032`) ([#21003](https://github.com/astral-sh/ruff/pull/21003))
- \[`pyupgrade`\] Fix `UP032` conversion for decimal ints with underscores ([#21022](https://github.com/astral-sh/ruff/pull/21022))
- \[`fastapi`\] Skip autofix for keyword and `__debug__` path params (`FAST003`) ([#20960](https://github.com/astral-sh/ruff/pull/20960))
### Rule changes
- \[`flake8-bugbear`\] Skip `B905` and `B912` for fewer than two iterables and no starred arguments ([#20998](https://github.com/astral-sh/ruff/pull/20998))
- \[`ruff`\] Use `DiagnosticTag` for more `pyflakes` and `pandas` rules ([#20801](https://github.com/astral-sh/ruff/pull/20801))
### CLI
- Improve JSON output from `ruff rule` ([#20168](https://github.com/astral-sh/ruff/pull/20168))
### Documentation
- Add source to testimonial ([#20971](https://github.com/astral-sh/ruff/pull/20971))
- Document when a rule was added ([#21035](https://github.com/astral-sh/ruff/pull/21035))
### Other changes
- [syntax-errors] Name is parameter and global ([#20426](https://github.com/astral-sh/ruff/pull/20426))
- [syntax-errors] Alternative `match` patterns bind different names ([#20682](https://github.com/astral-sh/ruff/pull/20682))
- \[`pyupgrade`\] Extend `UP019` to detect `typing_extensions.Text` (`UP019`) ([#20825](https://github.com/astral-sh/ruff/pull/20825))
- \[`pyupgrade`\] Fix false negative for `TypeVar` with default argument in `non-pep695-generic-class` (`UP046`) ([#20660](https://github.com/astral-sh/ruff/pull/20660))
### Bug fixes
- Fix false negatives in `Truthiness::from_expr` for lambdas, generators, and f-strings ([#20704](https://github.com/astral-sh/ruff/pull/20704))
- Fix syntax error false positives for escapes and quotes in f-strings ([#20867](https://github.com/astral-sh/ruff/pull/20867))
- \[`fastapi`\] Fix false positives for path parameters that FastAPI doesn't recognize (`FAST003`) ([#20687](https://github.com/astral-sh/ruff/pull/20687))
- \[`flake8-pyi`\] Fix operator precedence by adding parentheses when needed (`PYI061`) ([#20508](https://github.com/astral-sh/ruff/pull/20508))
- \[`ruff`\] Suppress diagnostic for f-string interpolations with debug text (`RUF010`) ([#20525](https://github.com/astral-sh/ruff/pull/20525))
### Rule changes
- \[`airflow`\] Add warning to `airflow.datasets.DatasetEvent` usage (`AIR301`) ([#20551](https://github.com/astral-sh/ruff/pull/20551))
- \[`flake8-bugbear`\] Mark `B905` and `B912` fixes as unsafe ([#20695](https://github.com/astral-sh/ruff/pull/20695))
- Use `DiagnosticTag` for more rules - changes display in editors ([#20758](https://github.com/astral-sh/ruff/pull/20758),[#20734](https://github.com/astral-sh/ruff/pull/20734))
### Documentation
- Update Python compatibility from 3.13 to 3.14 in README.md ([#20852](https://github.com/astral-sh/ruff/pull/20852))
@ -280,14 +280,56 @@ Note that plugin-specific configuration options are defined in their own modules
Finally, regenerate the documentation and generated code with `cargo dev generate-all`.
Finally, regenerate the documentation and generated code with `cargo dev generate-all`.
## MkDocs
### Opening a PR
> [!NOTE]
After you finish your changes, the next step is to open a PR. By default, two
>
sections will be filled into the PR body: the summary and the test plan.
> The documentation uses Material for MkDocs Insiders, which is closed-source software.
> This means only members of the Astral organization can preview the documentation exactly as it
#### The summary
> will appear in production.
> Outside contributors can still preview the documentation, but there will be some differences. Consult [the Material for MkDocs documentation](https://squidfunk.github.io/mkdocs-material/insiders/benefits/#features) for which features are exclusively available in the insiders version.
The summary is intended to give us as maintainers information about your PR.
This should typically include a link to the relevant issue(s) you're addressing
in your PR, as well as a summary of the issue and your approach to fixing it. If
you have any questions about your approach or design, or if you considered
alternative approaches, that can also be helpful to include.
AI can be helpful in generating both the code and summary of your PR, but a
successful contribution should still be carefully reviewed by you and the
summary editorialized before submitting a PR. A great summary is thorough but
also succinct and gives us the context we need to review your PR.
You can find examples of excellent issues and PRs by searching for the
@ -28,7 +28,7 @@ An extremely fast Python linter and code formatter, written in Rust.
- ⚡️ 10-100x faster than existing linters (like Flake8) and formatters (like Black)
- ⚡️ 10-100x faster than existing linters (like Flake8) and formatters (like Black)
- 🐍 Installable via `pip`
- 🐍 Installable via `pip`
- 🛠️ `pyproject.toml` support
- 🛠️ `pyproject.toml` support
- 🤝 Python 3.13 compatibility
- 🤝 Python 3.14 compatibility
- ⚖️ Drop-in parity with [Flake8](https://docs.astral.sh/ruff/faq/#how-does-ruffs-linter-compare-to-flake8), isort, and [Black](https://docs.astral.sh/ruff/faq/#how-does-ruffs-formatter-compare-to-black)
- ⚖️ Drop-in parity with [Flake8](https://docs.astral.sh/ruff/faq/#how-does-ruffs-linter-compare-to-flake8), isort, and [Black](https://docs.astral.sh/ruff/faq/#how-does-ruffs-formatter-compare-to-black)
- 📦 Built-in caching, to avoid re-analyzing unchanged files
- 📦 Built-in caching, to avoid re-analyzing unchanged files
@ -57,8 +57,11 @@ Ruff is extremely actively developed and used in major open-source projects like
...and [many more](#whos-using-ruff).
...and [many more](#whos-using-ruff).
Ruff is backed by [Astral](https://astral.sh). Read the [launch post](https://astral.sh/blog/announcing-astral-the-company-behind-ruff),
Ruff is backed by [Astral](https://astral.sh), the creators of
or the original [project announcement](https://notes.crmarsh.com/python-tooling-could-be-much-much-faster).
[uv](https://github.com/astral-sh/uv) and [ty](https://github.com/astral-sh/ty).
Read the [launch post](https://astral.sh/blog/announcing-astral-the-company-behind-ruff), or the
original [project announcement](https://notes.crmarsh.com/python-tooling-could-be-much-much-faster).
## Testimonials
## Testimonials
@ -89,8 +92,7 @@ creator of [isort](https://github.com/PyCQA/isort):
> Just switched my first project to Ruff. Only one downside so far: it's so fast I couldn't believe
> Just switched my first project to Ruff. Only one downside so far: it's so fast I couldn't believe
> it was working till I intentionally introduced some errors.
> it was working till I intentionally introduced some errors.
[**Tim Abbott**](https://github.com/astral-sh/ruff/issues/465#issuecomment-1317400028), lead
[**Tim Abbott**](https://github.com/zulip/zulip/pull/23431#issuecomment-1302557034), lead developer of [Zulip](https://github.com/zulip/zulip) (also [here](https://github.com/astral-sh/ruff/issues/465#issuecomment-1317400028)):
developer of [Zulip](https://github.com/zulip/zulip):
> This is just ridiculously fast... `ruff` is amazing.
> This is just ridiculously fast... `ruff` is amazing.
@ -148,8 +150,8 @@ curl -LsSf https://astral.sh/ruff/install.sh | sh
"summary": "`{name}` imported but unused; consider using `importlib.util.find_spec` to test for availability",
"message_formats": [
"`{name}` imported but unused; consider using `importlib.util.find_spec` to test for availability",
"`{name}` imported but unused; consider removing, adding to `__all__`, or using a redundant alias",
"`{name}` imported but unused"
],
"fix": "Fix is sometimes available.",
"fix_availability": "Sometimes",
"explanation": "## What it does\nChecks for unused imports.\n\n## Why is this bad?\nUnused imports add a performance overhead at runtime, and risk creating\nimport cycles. They also increase the cognitive load of reading the code.\n\nIf an import statement is used to check for the availability or existence\nof a module, consider using `importlib.util.find_spec` instead.\n\nIf an import statement is used to re-export a symbol as part of a module's\npublic interface, consider using a \"redundant\" import alias, which\ninstructs Ruff (and other tools) to respect the re-export, and avoid\nmarking it as unused, as in:\n\n```python\nfrom module import member as member\n```\n\nAlternatively, you can use `__all__` to declare a symbol as part of the module's\ninterface, as in:\n\n```python\n# __init__.py\nimport some_module\n\n__all__ = [\"some_module\"]\n```\n\n## Preview\nWhen [preview] is enabled (and certain simplifying assumptions\nare met), we analyze all import statements for a given module\nwhen determining whether an import is used, rather than simply\nthe last of these statements. This can result in both different and\nmore import statements being marked as unused.\n\nFor example, if a module consists of\n\n```python\nimport a\nimport a.b\n```\n\nthen both statements are marked as unused under [preview], whereas\nonly the second is marked as unused under stable behavior.\n\nAs another example, if a module consists of\n\n```python\nimport a.b\nimport a\n\na.b.foo()\n```\n\nthen a diagnostic will only be emitted for the first line under [preview],\nwhereas a diagnostic would only be emitted for the second line under\nstable behavior.\n\nNote that this behavior is somewhat subjective and is designed\nto conform to the developer's intuition rather than Python's actual\nexecution. To wit, the statement `import a.b` automatically executes\n`import a`, so in some sense `import a` is _always_ redundant\nin the presence of `import a.b`.\n\n\n## Fix safety\n\nFixes to remove unused imports are safe, except in `__init__.py` files.\n\nApplying fixes to `__init__.py` files is currently in preview. The fix offered depends on the\ntype of the unused import. Ruff will suggest a safe fix to export first-party imports with\neither a redundant alias or, if already present in the file, an `__all__` entry. If multiple\n`__all__` declarations are present, Ruff will not offer a fix. Ruff will suggest an unsafe fix\nto remove third-party and standard library imports -- the fix is unsafe because the module's\ninterface changes.\n\nSee [this FAQ section](https://docs.astral.sh/ruff/faq/#how-does-ruff-determine-which-of-my-imports-are-first-party-third-party-etc)\nfor more details on how Ruff\ndetermines whether an import is first or third-party.\n\n## Example\n\n```python\nimport numpy as np # unused import\n\n\ndef area(radius):\n return 3.14 * radius**2\n```\n\nUse instead:\n\n```python\ndef area(radius):\n return 3.14 * radius**2\n```\n\nTo check the availability of a module, use `importlib.util.find_spec`:\n\n```python\nfrom importlib.util import find_spec\n\nif find_spec(\"numpy\") is not None:\n print(\"numpy is installed\")\nelse:\n print(\"numpy is not installed\")\n```\n\n## Options\n- `lint.ignore-init-module-imports`\n- `lint.pyflakes.allowed-unused-imports`\n\n## References\n- [Python documentation: `import`](https://docs.python.org/3/reference/simple_stmts.html#the-import-statement)\n- [Python documentation: `importlib.util.find_spec`](https://docs.python.org/3/library/importlib.html#importlib.util.find_spec)\n- [Typing documentation: interface conventions](https://typing.python.org/en/latest/spec/distributing.html#library-interface-public-and-private-symbols)\n\n[preview]: https://docs.astral.sh/ruff/preview/\n",
Phong Do
Aria Desires
Douglas Creager
Carl Meyer
Rob Hand
Andrew Gallant
Zanie Blue
David Peter
Micha Reiser
Charlie Marsh
RasmusNygren
Dylan
Alex Waygood
renovate[bot]
Dhruv Manilawala
Bhuminjay Soni
Leandro Braga
Peter Law
Simon Lamon
Shunsuke Shibayama
Brent Westbrook
Jack O'Connor
Amethyst Reese
Luca Chiodini
Denys Zhak
Ibraheem Ahmed
Avasam
Loïc Riegel
Prakhar Pratyush
Louis Maddox
mahiro
William Woodruff
github-actions[bot]
Dan Parizher
Kieran Ryan
Matthew Mckee
Shahar Naveh
Tsvika Shapira
JumboBear
chiri
Mikko Leppänen
Remo Senekowitsch
Ruchir
Josh Cannon
Thamer Mahmoud
Gautham Venkataraman
Hugo
Bhuminjay Soni
charliecloudberry
pyscripter
Nikolas Hearp
Shaygan Hooshyari
Mahmoud Saada
justin
Henry Schreiner
Hugo van Kemenade
William Woodruff
Ben Beasley
Wei Lee
Tom Kuson
Jonas Vacek
Takayuki Maeda
Auguste Lalande
wangxiaolei
decorator-factory
Eric Mark Martin
Hengky Kurniawan
Robsdedude
ShalokShalom
Renkai Ge
Mark Z. Ding
Justin Su
Emil Sadek
Paillat
Matt Norton
Martín Gaitán
ageorgou
pieterh-oai
liam