Add suspicious_open_options lint.
changelog: [`suspicious_open_options`]: Checks for the suspicious use of std::fs::OpenOptions::create() without an explicit OpenOptions::truncate().
create() alone will either create a new file or open an existing file. If the file already exists, it will be overwritten when written to, but the file will not be truncated by default. If less data is written to the file than it already contains, the remainder of the file will remain unchanged, and the end of the file will contain old data.
In most cases, one should either use `create_new` to ensure the file is created from scratch, or ensure `truncate` is called so that the truncation behaviour is explicit. `truncate(true)` will ensure the file is entirely overwritten with new data, whereas `truncate(false)` will explicitely keep the default behavior.
```rust
use std::fs::OpenOptions;
OpenOptions::new().create(true).truncate(true);
```
- [x] Followed [lint naming conventions][lint_naming]
- [x] Added passing UI tests (including committed `.stderr` file)
- [x] `cargo test` passes locally
- [x] Executed `cargo dev update_lints`
- [x] Added lint documentation
- [x] Run `cargo dev fmt`
Correctly suggest std or core path depending if this is a `no_std` crate
A few lints emit suggestions using `std` paths whether or not this is a `no_std` crate, which is an issue when running `rustfix` afterwards. So in case this is an item that is defined in both `std` and `core`, we need to check if the crate is `no_std` to emit the right path.
r? `@llogiq`
changelog: Correctly suggest std or core path depending if this is a `no_std` crate
- New ineffective_open_options had to be fixed.
- Now not raising an issue on missing `truncate` when `append(true)`
makes the intent clear.
- Try implementing more advanced tests for non-chained operations. Fail
Checks for the suspicious use of OpenOptions::create()
without an explicit OpenOptions::truncate().
create() alone will either create a new file or open an
existing file. If the file already exists, it will be
overwritten when written to, but the file will not be
truncated by default. If less data is written to the file
than it already contains, the remainder of the file will
remain unchanged, and the end of the file will contain old
data.
In most cases, one should either use `create_new` to ensure
the file is created from scratch, or ensure `truncate` is
called so that the truncation behaviour is explicit.
`truncate(true)` will ensure the file is entirely overwritten
with new data, whereas `truncate(false)` will explicitely
keep the default behavior.
```rust
use std::fs::OpenOptions;
OpenOptions::new().create(true).truncate(true);
```
[`useless_asref`]: check that the clone receiver is the parameter
Fixes#12135
There was no check for the receiver of the `clone` call in the map closure. This makes sure that it's a path to the parameter.
changelog: [`useless_asref`]: check that the clone receiver is the closure parameter
Fix suggestion for `map_clone` lint on types implementing `Copy`
Follow-up of https://github.com/rust-lang/rust-clippy/pull/12104.
It was missing this check to suggest the correct method.
r? `@llogiq`
changelog: Fix suggestion for `map_clone` lint on types implementing `Copy`
Fixed ICE introduced in #12004
Issue: in https://github.com/rust-lang/rust-clippy/pull/12004, we emit a lint for `filter(Option::is_some)`. If the
parent expression is a `.map` we don't emit that lint as there exists a
more specialized lint for that.
The ICE introduced in https://github.com/rust-lang/rust-clippy/pull/12004 is a consequence of the assumption that a
parent expression after a filter would be a method call with the filter
call being the receiver. However, it is entirely possible to have a
closure of the form
```
|| { vec![Some(1), None].into_iter().filter(Option::is_some) }
```
The previous implementation looked at the parent expression; namely the
closure, and tried to check the parameters by indexing [0] on an empty
list.
This commit is an overhaul of the lint with significantly more FP tests
and checks.
Impl details:
1. We verify that the filter method we are in is a proper trait method
to avoid FPs.
2. We check that the parent expression is not a map by checking whether
it exists; if is a trait method; and then a method call.
3. We check that we don't have comments in the span.
4. We verify that we are in an Iterator of Option and Result.
5. We check the contents of the filter.
1. For closures we peel it. If it is not a single expression, we don't
lint. We then try again by checking the peeled expression.
2. For paths, we do a typecheck to avoid FPs for types that impl
functions with the same names.
3. For calls, we verify the type, via the path, and that the param of
the closure is the single argument to the call.
4. For method calls we verify that the receiver is the parameter of
the closure. Since we handle single, non-block exprs, the
parameter can't be shadowed, so no FP.
This commit also adds additional FP tests.
Fixes: #12058
Adding `@xFrednet` as you've the most context for this as you reviewed it last time.
`@rustbot` r? `@xFrednet`
---
changelog: none
(Will be backported and therefore don't effect stable)
Issue: in #12004, we emit a lint for `filter(Option::is_some)`. If the
parent expression is a `.map` we don't emit that lint as there exists a
more specialized lint for that.
The ICE introduced in #12004 is a consequence of the assumption that a
parent expression after a filter would be a method call with the filter
call being the receiver. However, it is entirely possible to have a
closure of the form
```
|| { vec![Some(1), None].into_iter().filter(Option::is_some) }
```
The previous implementation looked at the parent expression; namely the
closure, and tried to check the parameters by indexing [0] on an empty
list.
This commit is an overhaul of the lint with significantly more FP tests
and checks.
Impl details:
1. We verify that the filter method we are in is a proper trait method
to avoid FPs.
2. We check that the parent expression is not a map by checking whether
it exists; if is a trait method; and then a method call.
3. We check that we don't have comments in the span.
4. We verify that we are in an Iterator of Option and Result.
5. We check the contents of the filter.
1. For closures we peel it. If it is not a single expression, we don't
lint.
2. For paths, we do a typecheck to avoid FPs for types that impl
functions with the same names.
3. For calls, we verify the type, via the path, and that the param of
the closure is the single argument to the call.
4. For method calls we verify that the receiver is the parameter of
the closure. Since we handle single, non-block exprs, the
parameter can't be shadowed, so no FP.
This commit also adds additional FP tests.
Handle "calls" inside the closure as well in `map_clone` lint
Follow-up of https://github.com/rust-lang/rust-clippy/pull/12104.
I just realized that I didn't handle the case where the `clone` method was made as a call and not a method call.
r? `@llogiq`
changelog: Handle "calls" inside the closure as well in `map_clone` lint
Extend `map_clone` lint to also work on non-explicit closures
I found it weird that this case was not handled by the current line so I added it. The only thing is that I don't see an obvious way to infer the current type to determine if it's copyable or not, so for now I always suggest `cloned` and I added a FIXME.
r? `@llogiq`
changelog: Extend `map_clone` lint to also work on non-explicit closures
Add .as_ref() to suggestion to remove .to_string()
The case of `.to_owned().split(…)` is treated specially in the `unnecessary_to_owned` lint. Test cases check that it works both for slices and for strings, but they missed a corner case: `x.to_string().split(…)` when `x` implements `AsRef<str>` but not `Deref<Target = str>`. In this case, it is wrong to suggest to remove `.to_string()` without adding `.as_ref()` instead.
Fix#12068
changelog: [`unnecessary_to_owned`]: suggest replacing `.to_string()` by `.as_ref()`
new lint: `option_as_ref_cloned`
Closes#12009
Adds a new lint that looks for `.as_ref().cloned()` on `Option`s. That's the same as just `.clone()`-ing the option directly.
changelog: new lint: [`option_as_ref_cloned`]
feat: add `manual_is_variant_and` lint
changelog: add a new lint [`manual_is_variant_and`].
- Replace `option.map(f).unwrap_or_default()` and `result.map(f).unwrap_or_default()` with `option.is_some_and(f)` and `result.is_ok_and(f)` where `f` is a function or closure that returns `bool`.
- MSRV is set to 1.70.0 for this lint; when `is_some_and` and `is_ok_and` was stabilised
---
For example, for the following code:
```rust
let opt = Some(0);
opt.map(|x| x > 1).unwrap_or_default();
```
It suggests to instead write:
```rust
let opt = Some(0);
opt.is_some_and(|x| x > 1)
```
