## Summary
This PR fixes an error in the example Neovim configuration on [this
documentation
page](https://docs.astral.sh/ruff/editors/settings/#configuration).
The `configuration` block should be nested under `settings`, consistent
with other properties and as outlined
[here](https://docs.astral.sh/ruff/editors/setup/#neovim).
I encountered this issue when copying the example to configure ruff
integration in my neovim - the config didn’t work until I corrected the
nesting.
## Test Plan
- [x] Confirmed that the corrected configuration works in a real Neovim
+ Ruff setup
- [x] Verified that the updated configuration renders correctly in
MkDocs
<img width="382" alt="image"
src="https://github.com/user-attachments/assets/0722fb35-8ffa-4b10-90ba-c6e8417e40bf"
/>
## Summary
As the title says, this PR removes the `Message::to_rule` method by
replacing related uses of `Rule` with `NoqaCode` (or the rule's name in
the case of the cache). Where it seemed a `Rule` was really needed, we
convert back to the `Rule` by parsing either the rule name (with
`str::parse`) or the `NoqaCode` (with `Rule::from_code`).
I thought this was kind of like cheating and that it might not resolve
this part of Micha's
[comment](https://github.com/astral-sh/ruff/pull/18391#issuecomment-2933764275):
> because we can't add Rule to Diagnostic or **have it anywhere in our
shared rendering logic**
but after looking again, the only remaining `Rule` conversion in
rendering code is for the SARIF output format. The other two non-test
`Rule` conversions are for caching and writing a fix summary, which I
don't think fall into the shared rendering logic. That leaves the SARIF
format as the only real problem, but maybe we can delay that for now.
The motivation here is that we won't be able to store a `Rule` on the
new `Diagnostic` type, but we should be able to store a `NoqaCode`,
likely as a string.
## Test Plan
Existing tests
##
[Benchmarks](https://codspeed.io/astral-sh/ruff/branches/brent%2Fremove-to-rule)
Almost no perf regression, only -1% on
`linter/default-rules[large/dataset.py]`.
---------
Co-authored-by: Micha Reiser <micha@reiser.io>
## Summary
https://github.com/astral-sh/ty/issues/214 will require a couple
invasive changes that I would like to get merged even before garbage
collection is fully implemented (to avoid rebasing):
- `ParsedModule` can no longer be dereferenced directly. Instead you
need to load a `ParsedModuleRef` to access the AST, which requires a
reference to the salsa database (as it may require re-parsing the AST if
it was collected).
- `AstNodeRef` can only be dereferenced with the `node` method, which
takes a reference to the `ParsedModuleRef`. This allows us to encode the
fact that ASTs do not live as long as the database and may be collected
as soon a given instance of a `ParsedModuleRef` is dropped. There are a
number of places where we currently merge the `'db` and `'ast`
lifetimes, so this requires giving some types/functions two separate
lifetime parameters.
## Summary
This is a spin-off from
https://github.com/astral-sh/ruff/pull/18447#discussion_r2125844669 to
avoid using `Message::noqa_code` to differentiate between lints and
syntax errors. I went through all of the calls on `main` and on the
branch from #18447, and the instance in `ruff_server` noted in the
linked comment was actually the primary place where this was being done.
Other calls to `noqa_code` are typically some variation of
`message.noqa_code().map_or(String::new, format!(...))`, with the major
exception of the gitlab output format:
a120610b5b/crates/ruff_linter/src/message/gitlab.rs (L93-L105)
which obviously assumes that `None` means syntax error. A simple fix
here would be to use `message.name()` for `check_name` instead of the
noqa code, but I'm not sure how breaking that would be. This could just
be:
```rust
let description = message.body();
let description = description.strip_prefix("SyntaxError: ").unwrap_or(description).to_string();
let check_name = message.name();
```
In that case. This sounds reasonable based on the [Code Quality report
format](https://docs.gitlab.com/ci/testing/code_quality/#code-quality-report-format)
docs:
> | Name | Type | Description|
> |-----|-----|----|
> |`check_name` | String | A unique name representing the check, or
rule, associated with this violation. |
## Test Plan
Existing tests
## Summary
Fixes https://github.com/astral-sh/ty/issues/556.
On Windows, system installations have different layouts to virtual
environments. In Windows virtual environments, the Python executable is
found at `<sys.prefix>/Scripts/python.exe`. But in Windows system
installations, the Python executable is found at
`<sys.prefix>/python.exe`. That means that Windows users were able to
point to Python executables inside virtual environments with the
`--python` flag, but they weren't able to point to Python executables
inside system installations.
This PR fixes that issue. It also makes a couple of other changes:
- Nearly all `sys.prefix` resolution is moved inside `site_packages.rs`.
That was the original design of the `site-packages` resolution logic,
but features implemented since the initial implementation have added
some resolution and validation to `resolver.rs` inside the module
resolver. That means that we've ended up with a somewhat confusing code
structure and a situation where several checks are unnecessarily
duplicated between the two modules.
- I noticed that we had quite bad error messages if you e.g. pointed to
a path that didn't exist on disk with `--python` (we just gave a
somewhat impenetrable message saying that we "failed to canonicalize"
the path). I improved the error messages here and added CLI tests for
`--python` and the `environment.python` configuration setting.
## Test Plan
- Existing tests pass
- Added new CLI tests
- I manually checked that virtual-environment discovery still works if
no configuration is given
- Micha did some manual testing to check that pointing `--python` to a
system-installation executable now works on Windows
## Summary
This PR partially solves https://github.com/astral-sh/ty/issues/164
(derived from #17643).
Currently, the definitions we manage are limited to those for simple
name (symbol) targets, but we expand this to track definitions for
attribute and subscript targets as well.
This was originally planned as part of the work in #17643, but the
changes are significant, so I made it a separate PR.
After merging this PR, I will reflect this changes in #17643.
There is still some incomplete work remaining, but the basic features
have been implemented, so I am publishing it as a draft PR.
Here is the TODO list (there may be more to come):
* [x] Complete rewrite and refactoring of documentation (removing
`Symbol` and replacing it with `Place`)
* [x] More thorough testing
* [x] Consolidation of duplicated code (maybe we can consolidate the
handling related to name, attribute, and subscript)
This PR replaces the current `Symbol` API with the `Place` API, which is
a concept that includes attributes and subscripts (the term is borrowed
from Rust).
## Test Plan
`mdtest/narrow/assignment.md` is added.
---------
Co-authored-by: David Peter <sharkdp@users.noreply.github.com>
Co-authored-by: Carl Meyer <carl@astral.sh>
## Summary
This optimizes some of the logic added in
https://github.com/astral-sh/ruff/pull/18444. In general, we only
calculate information for subdiagnostics if we know we'll actually emit
the diagnostic. The check to see whether we'll emit the diagnostic is
work we'll definitely have to do whereas the the work to gather
information for a subdiagnostic isn't work we necessarily have to do if
the diagnostic isn't going to be emitted at all.
This PR makes us lazier about gathering the information we need for the
subdiagnostic, and moves all the subdiagnostic logic into one function
rather than having some `unresolved-reference` subdiagnostic logic in
`infer.rs` and some in `diagnostic.rs`.
## Test Plan
`cargo test -p ty_python_semantic`
## Summary
As well as excluding a hardcoded set of special attributes, CPython at
runtime also excludes any attributes or declarations starting with
`_abc_` from the set of members that make up a protocol interface. I
missed this in my initial implementation.
This is a bit of a CPython implementation detail, but I do think it's
important that we try to model the runtime as best we can here. The
closer we are to the runtime behaviour, the closer we come to sound
behaviour when narrowing types from `isinstance()` checks against
runtime-checkable protocols (for example)
## Test Plan
Extended an existing mdtest
## Summary
Closes https://github.com/astral-sh/ty/issues/502.
In the following example:
```py
class Foo:
x: int
def method(self):
y = x
```
The user may intended to use `y = self.x` in `method`.
This is now added as a subdiagnostic in the following form :
`info: An attribute with the same name as 'x' is defined, consider using
'self.x'`
## Test Plan
Added mdtest with snapshot diagnostics.
## Summary
Previously, all symbols where provided as possible completions. In an
example like the following, both `foo` and `f` were suggested as
completions, because `f` itself is a symbol.
```py
foo = 1
f<CURSOR>
```
Similarly, in the following example, `hidden_symbol` was suggested, even
though it is not statically visible:
```py
if 1 + 2 != 3:
hidden_symbol = 1
hidden_<CURSOR>
```
With the change suggested here, we only use statically visible
declarations and bindings as a source for completions.
## Test Plan
- Updated snapshot tests
- New test for statically hidden definitions
- Added test for star import
## Summary
Implement a hotfix for the playground/LSP crashes related to missing
`expression_scope_id`s.
relates to: https://github.com/astral-sh/ty/issues/572
## Test Plan
* Regression tests from https://github.com/astral-sh/ruff/pull/18441
* Ran the playground locally to check if panics occur / completions
still work.
---------
Co-authored-by: Andrew Gallant <andrew@astral.sh>
## Summary
Part of astral-sh/ty#104, closes: astral-sh/ty#468
This PR implements the argument type expansion which is step 3 of the
overload call evaluation algorithm.
Specifically, this step needs to be taken if type checking resolves to
no matching overload and there are argument types that can be expanded.
## Test Plan
Add new test cases.
## Ecosystem analysis
This PR removes 174 `no-matching-overload` false positives -- I looked
at a lot of them and they all are false positives.
One thing that I'm not able to understand is that in
2b7e3adf27/sphinx/ext/autodoc/preserve_defaults.py (L179)
the inferred type of `value` is `str | None` by ty and Pyright, which is
correct, but it's only ty that raises `invalid-argument-type` error
while Pyright doesn't. The constructor method of `DefaultValue` has
declared type of `str` which is invalid.
There are few cases of false positives resulting due to the fact that ty
doesn't implement narrowing on attribute expressions.
