Closes#11617Closes#14368
Clippy gives wrong suggestions when the filter and then cannot be put
into closure directly. Since trying to transform these can be too
complicated, Clippy will simply warn but don't try to fix.
changelog: [`filter_map_bool_then`]: fix wrong suggestions when the
closure cannot be decompose directly
Sometimes, in doc comments, there are 3 spaces + 1 instead of 4 spaces + 1.
To make it coherent with the rest of the clippy codebase, I `fd -t f -X sed -E -i 's,/// (\S),/// \1,g'` and manually verified and fixed the relevant part of code that had bad indentation.
Continuing the work from #137350.
Removes the unused methods: `expect_variant`, `expect_field`,
`expect_foreign_item`.
Every method gains a `hir_` prefix.
Since the error kind (`io::ErrorKind::other`) is in the root context,
the error message must be found in the root context as well to compute
the correct span to remove.
These method chains can be expressed concisely with `if`/`else`.
changelog: [`obfuscated_if_else`]: support `then().unwrap_or_else()` and
`then_some().unwrap_or_else()`
In the case where `iter` is a `DoubleEndedIterator`, replacing a call to
`iter.last()` (which consumes `iter`) by `iter.next_back()` (which
requires a mutable reference to `iter`) cannot be done when `iter` is a
non-mutable binding which is not a mutable reference. When possible, a
local immutable binding is made into a mutable one.
Also, the applicability is switched to `MaybeIncorrect` and a note is
added to the output when the element types have a significant drop,
because the drop order will potentially be modified because
`.next_back()` does not consume the iterator nor the elements before the
last one.
Fix#14139
changelog: [`double_ended_iterator_last`]: do not trigger on
non-reference immutable receiver, and warn about possible drop order
change
`iter.last()` will drop all elements of `iter` in order, while
`iter.next_back()` will drop the non-last elements of `iter` when
`iter` goes out of scope since `.next_back()` does not consume its
argument.
When the transformation proposed by `double_ended_iterator_last` would
concern an iterator whose element type has a significant drop, a note is
added to warn about the possible drop order change, and the suggestion
is switched from `MachineApplicable` to `MaybeIncorrect`.
In the case where `iter` is a `DoubleEndedIterator`, replacing a call to
`iter.last()` (which consumes `iter`) by `iter.next_back()` (which
requires a mutable reference to `iter`) cannot be done when `iter`
Is not a mutable binding or a mutable reference.
When `iter` is a local binding, it can be made mutable by fixing its
definition site.
Continuing the work started in #136466.
Every method gains a `hir_` prefix, though for the ones that already
have a `par_` or `try_par_` prefix I added the `hir_` after that.
First of all, note that `Map` has three different relevant meanings.
- The `intravisit::Map` trait.
- The `map::Map` struct.
- The `NestedFilter::Map` associated type.
The `intravisit::Map` trait is impl'd twice.
- For `!`, where the methods are all unreachable.
- For `map::Map`, which gets HIR stuff from the `TyCtxt`.
As part of getting rid of `map::Map`, this commit changes `impl
intravisit::Map for map::Map` to `impl intravisit::Map for TyCtxt`. It's
fairly straightforward except various things are renamed, because the
existing names would no longer have made sense.
- `trait intravisit::Map` becomes `trait intravisit::HirTyCtxt`, so named
because it gets some HIR stuff from a `TyCtxt`.
- `NestedFilter::Map` assoc type becomes `NestedFilter::MaybeTyCtxt`,
because it's always `!` or `TyCtxt`.
- `Visitor::nested_visit_map` becomes `Visitor::maybe_tcx`.
I deliberately made the new trait and associated type names different to
avoid the old `type Map: Map` situation, which I found confusing. We now
have `type MaybeTyCtxt: HirTyCtxt`.
The end goal is to eliminate `Map` altogether.
I added a `hir_` prefix to all of them, that seemed simplest. The
exceptions are `module_items` which became `hir_module_free_items` because
there was already a `hir_module_items`, and `items` which became
`hir_free_items` for consistency with `hir_module_free_items`.
By default, do not lint `.unwrap()` and `.expect(…)` in always const
contexts, as a failure would be detected at compile time anyway.
New options `allow_expect_in_consts` and `allow_unwrap_in_consts`,
defaulting to `true`, can be turned unset to still lint in always const
contexts.
When looking for `Default` impls that could be derived, we look at the
body of their `fn default()` and if it is an fn call or literal we check
if they are equivalent to what `#[derive(Default)]` would have used.
Now, when checking those fn calls in the `fn default()` body, we also
compare against the corresponding type's `Default::default` body to see
if our call is equivalent to that one.
For example, given
```rust
struct S;
impl S {
fn new() -> S { S }
}
impl Default for S {
fn default() -> S { S::new() }
}
```
`<S as Default>::default()` and `S::new()` are considered equivalent.
Given that, if the user also writes
```rust
struct R {
s: S,
}
impl Default for R {
fn default() -> R {
R { s: S::new() }
}
}
```
the `derivable_impls` lint will now trigger.
An `if … { … } else { … }` used as the left operand of a binary
expression requires parentheses to be parsed as an expression.
Fix#11141
changelog: [`obfuscated_if_else`]: fix bug in suggestion by issuing
required parentheses around the left side of a binary expression
While extending the `option_map_or_err_ok` lint (warn by default,
"style") to recognize η-expanded forms of `Ok`, as in
```rust
// Should suggest `opt.ok_or("foobar")`
let _ = opt.map_or(Err("foobar"), |x| Ok(x));
```
I discovered that the `manual_ok_or` lint (allow by default, "pedantic")
already covered exactly the cases handled by `option_map_or_err_ok`,
including the one I was adding. Apparently, `option_map_or_err_ok` was
added without realizing that the lint already existed under the
`manual_ok_or` name. As a matter of fact, artifacts of this second lint
were even present in the first lint `stderr` file and went unnoticed for
more than a year.
This PR:
- deprecates `option_map_or_err_ok` with a message saying to use
`manual_ok_or`
- moves `manual_ok_or` from "pedantic" to "style" (the category in which
`option_map_or_err_ok` was)
In addition, I think that this lint, which is short, machine applicable,
and leads to shorter and clearer code with less arguments (`Ok`
disappears) and the removal of one level of call (`Err(x)` is replaced
by `x`), is a reason by itself to be in "style".
changelog: [`option_map_or_err_ok` and `manual_ok_or`]: move
`manual_ok_or` from "pedantic" to "style", and deprecate the redundant
style lint `option_map_or_err_ok`.
Removing the `.as_ref()` or `.as_mut()` as the top-level expression in a
closure may change the type of the result. In this case, it may be
better not to lint rather than proposing a fix that would not work.
changelog: [`useless_asref`]: do not remove the `.as_ref()` or
`.as_mut()` call if this would change the type of the enclosing closure
Fix#14088
Proposing to replace
```rust
let mut x = PathBuf::from("/foo");
x.push("/bar");
```
by
```rust
let mut x = PathBuf::from("/foo");
x.push("bar");
```
changes the content of `x` (`/bar` ⇒ `/foo/bar`). This is not equivalent
and should not be `MachineApplicable`, even if the original code is
suspicious.
changelog: none
