Commit Graph

42 Commits

Author SHA1 Message Date
Matthias Krüger
d10f2b32f0
Rollup merge of #127907 - RalfJung:byte_slice_in_packed_struct_with_derive, r=nnethercote
built-in derive: remove BYTE_SLICE_IN_PACKED_STRUCT_WITH_DERIVE hack and lint

Fixes https://github.com/rust-lang/rust/issues/107457 by turning the lint into a hard error. The lint has been shown in future breakage reports since Rust 1.69 (released in April 2023).

Let's see (via crater) if enough time has passed since https://github.com/rust-lang/rust/pull/104429, and https://github.com/unicode-org/icu4x/pull/2834 has propagated far enough to let us make this a hard error.

Cc ``@nnethercote`` ``@Manishearth``
2024-08-05 05:40:19 +02:00
Ralf Jung
bda31d14f4 built-in derive: remove BYTE_SLICE_IN_PACKED_STRUCT_WITH_DERIVE hack and lint 2024-07-27 18:18:41 +02:00
mu001999
adf0dff10c Not lint pub structs without pub constructors if containing fields of unit, never type, PhantomData and positional ZST 2024-07-26 21:56:35 +08:00
Matthias Krüger
13314df21b
Rollup merge of #125572 - mu001999-contrib:dead/enhance, r=pnkfelix
Detect pub structs never constructed and unused associated constants

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Lints never constructed public structs.

If we don't provide public methods to construct public structs with private fields, and don't construct them in the local crate. They would be never constructed. So that we can detect such public structs.

---
Update:

Also lints unused associated constants in traits.
2024-06-07 20:14:28 +02:00
r0cky
35130d7233 Detect pub structs never constructed and unused associated constants in traits 2024-06-05 23:20:09 +08:00
Esteban Küber
e7ad2da7f1 When deriveing, account for HRTB on BareFn fields
When given

```rust
trait SomeTrait {
    type SomeType<'a>;
}

struct Foo<T: SomeTrait> {
    x: for<'a> fn(T::SomeType<'a>)
}
```

expand to

```rust
impl<T: ::core::clone::Clone + SomeTrait> ::core::clone::Clone for Foo<T>
    where for<'a> T::SomeType<'a>: ::core::clone::Clone {
    #[inline]
    fn clone(&self) -> Foo<T> {
        Foo { x: ::core::clone::Clone::clone(&self.x) }
    }
}
```

instead of the previous invalid

```
impl<T: ::core::clone::Clone + SomeTrait> ::core::clone::Clone for Foo<T>
    where T::SomeType<'a>: ::core::clone::Clone {
    #[inline]
    fn clone(&self) -> Foo<T> {
        Foo { x: ::core::clone::Clone::clone(&self.x) }
    }
}
```

Fix #122622.
2024-06-04 20:46:03 +00:00
surechen
b092b5d02b Note for E0599 if shadowed bindings has the method.
implement #123558
2024-05-20 18:53:17 +08:00
bors
cb93c24bf3 Auto merge of #124157 - wutchzone:partial_eq, r=estebank
Do not add leading asterisk in the `PartialEq`

I think we should address this issue, however I am not exactly sure, if this is the right way to do it. It is related to the #123056.

Imagine the simplified code:

```rust
trait MyTrait {}

impl PartialEq for dyn MyTrait {
    fn eq(&self, _other: &Self) -> bool {
        true
    }
}

#[derive(PartialEq)]
enum Bar {
    Foo(Box<dyn MyTrait>),
}
```

On the nightly compiler, the `derive` produces invalid code with the weird error message:
```
error[E0507]: cannot move out of `*__arg1_0` which is behind a shared reference
  --> src/main.rs:11:9
   |
9  | #[derive(PartialEq)]
   |          --------- in this derive macro expansion
10 | enum Things {
11 |     Foo(Box<dyn MyTrait>),
   |         ^^^^^^^^^^^^^^^^ move occurs because `*__arg1_0` has type `Box<dyn MyTrait>`, which does not implement the `Copy` trait
   |
   = note: this error originates in the derive macro `PartialEq` (in Nightly builds, run with -Z macro-backtrace for more info)
```

It may be related to the perfect derive problem, although requiring the _type_ to be `Copy` seems unfortunate because it is not necessary. Besides, we are adding the extra dereference only for the diagnostics?
2024-05-09 08:34:14 +00:00
Esteban Küber
d68f2a6b71 Mention when type parameter could be Clone
```
error[E0382]: use of moved value: `t`
  --> $DIR/use_of_moved_value_copy_suggestions.rs:7:9
   |
LL | fn duplicate_t<T>(t: T) -> (T, T) {
   |                   - move occurs because `t` has type `T`, which does not implement the `Copy` trait
...
LL |     (t, t)
   |      -  ^ value used here after move
   |      |
   |      value moved here
   |
help: if `T` implemented `Clone`, you could clone the value
  --> $DIR/use_of_moved_value_copy_suggestions.rs:4:16
   |
LL | fn duplicate_t<T>(t: T) -> (T, T) {
   |                ^ consider constraining this type parameter with `Clone`
...
LL |     (t, t)
   |      - you could clone this value
help: consider restricting type parameter `T`
   |
LL | fn duplicate_t<T: Copy>(t: T) -> (T, T) {
   |                 ++++++
```

The `help` is new. On ADTs, we also extend the output with span labels:

```
error[E0507]: cannot move out of static item `FOO`
  --> $DIR/issue-17718-static-move.rs:6:14
   |
LL |     let _a = FOO;
   |              ^^^ move occurs because `FOO` has type `Foo`, which does not implement the `Copy` trait
   |
note: if `Foo` implemented `Clone`, you could clone the value
  --> $DIR/issue-17718-static-move.rs:1:1
   |
LL | struct Foo;
   | ^^^^^^^^^^ consider implementing `Clone` for this type
...
LL |     let _a = FOO;
   |              --- you could clone this value
help: consider borrowing here
   |
LL |     let _a = &FOO;
   |              +
```
2024-04-24 22:21:15 +00:00
Daniel Sedlak
c2a0ef65da Do not add leading asterisk in the PartialEq
Adding leading asterisk can cause compilation failure for
the _types_ that don't implement the `Copy`.
2024-04-23 20:56:52 +02:00
Michael Goulet
ff4653a08f Use fulfillment, not evaluate, during method probe 2024-04-21 20:10:12 -04:00
Esteban Küber
d97d2fe744 Mention when the type of the moved value doesn't implement Clone 2024-04-11 16:41:42 +00:00
Esteban Küber
10c2fbec24 Suggest .clone() in some move errors
```
error[E0507]: cannot move out of `*x` which is behind a shared reference
  --> $DIR/borrowck-fn-in-const-a.rs:6:16
   |
LL |         return *x
   |                ^^ move occurs because `*x` has type `String`, which does not implement the `Copy` trait
   |
help: consider cloning the value if the performance cost is acceptable
   |
LL -         return *x
LL +         return x.clone()
   |
```
2024-04-11 16:41:41 +00:00
Jacob Pratt
0fcdf34861
Avoid expanding to unstable internal method 2024-04-02 22:21:16 +00:00
许杰友 Jieyou Xu (Joe)
ec2cc761bc
[AUTO-GENERATED] Migrate ui tests from // to //@ directives 2024-02-16 20:02:50 +00:00
Matthias Krüger
af99946700
Rollup merge of #120507 - estebank:issue-108428, r=davidtwco
Account for non-overlapping unmet trait bounds in suggestion

When a method not found on a type parameter could have been provided by any
of multiple traits, suggest each trait individually, instead of a single
suggestion to restrict the type parameter with *all* of them.

Before:

```
error[E0599]: the method `cmp` exists for reference `&T`, but its trait bounds were not satisfied
  --> $DIR/method-on-unbounded-type-param.rs:5:10
   |
LL |     (&a).cmp(&b)
   |          ^^^ method cannot be called on `&T` due to unsatisfied trait bounds
   |
   = note: the following trait bounds were not satisfied:
           `T: Ord`
           which is required by `&T: Ord`
           `&T: Iterator`
           which is required by `&mut &T: Iterator`
           `T: Iterator`
           which is required by `&mut T: Iterator`
help: consider restricting the type parameters to satisfy the trait bounds
   |
LL | fn g<T>(a: T, b: T) -> std::cmp::Ordering where T: Iterator, T: Ord {
   |                                           +++++++++++++++++++++++++
```

After:

```
error[E0599]: the method `cmp` exists for reference `&T`, but its trait bounds were not satisfied
  --> $DIR/method-on-unbounded-type-param.rs:5:10
   |
LL |     (&a).cmp(&b)
   |          ^^^ method cannot be called on `&T` due to unsatisfied trait bounds
   |
   = note: the following trait bounds were not satisfied:
           `T: Ord`
           which is required by `&T: Ord`
           `&T: Iterator`
           which is required by `&mut &T: Iterator`
           `T: Iterator`
           which is required by `&mut T: Iterator`
   = help: items from traits can only be used if the type parameter is bounded by the trait
help: the following traits define an item `cmp`, perhaps you need to restrict type parameter `T` with one of them:
   |
LL | fn g<T: Ord>(a: T, b: T) -> std::cmp::Ordering {
   |       +++++
LL | fn g<T: Iterator>(a: T, b: T) -> std::cmp::Ordering {
   |       ++++++++++
```

Fix #108428.

Follow up to #120396, only last commit is relevant.
2024-02-06 22:45:42 +01:00
Esteban Küber
6efddac288 Provide more context on derived obligation error primary label
Expand the primary span of E0277 when the immediate unmet bound is not what the user wrote:

```
error[E0277]: the trait bound `i32: Bar` is not satisfied
 --> f100.rs:6:6
  |
6 |     <i32 as Foo>::foo();
  |      ^^^ the trait `Bar` is not implemented for `i32`, which is required by `i32: Foo`
  |
help: this trait has no implementations, consider adding one
 --> f100.rs:2:1
  |
2 | trait Bar {}
  | ^^^^^^^^^
note: required for `i32` to implement `Foo`
 --> f100.rs:3:14
  |
3 | impl<T: Bar> Foo for T {}
  |         ---  ^^^     ^
  |         |
  |         unsatisfied trait bound introduced here
```

Fix #40120.
2024-01-30 21:28:18 +00:00
Esteban Küber
5c414094ac Account for non-overlapping unmet trait bounds in suggestion
When a method not found on a type parameter could have been provided by any
of multiple traits, suggest each trait individually, instead of a single
suggestion to restrict the type parameter with *all* of them.

Before:

```
error[E0599]: the method `cmp` exists for reference `&T`, but its trait bounds were not satisfied
  --> $DIR/method-on-unbounded-type-param.rs:5:10
   |
LL |     (&a).cmp(&b)
   |          ^^^ method cannot be called on `&T` due to unsatisfied trait bounds
   |
   = note: the following trait bounds were not satisfied:
           `T: Ord`
           which is required by `&T: Ord`
           `&T: Iterator`
           which is required by `&mut &T: Iterator`
           `T: Iterator`
           which is required by `&mut T: Iterator`
help: consider restricting the type parameters to satisfy the trait bounds
   |
LL | fn g<T>(a: T, b: T) -> std::cmp::Ordering where T: Iterator, T: Ord {
   |                                           +++++++++++++++++++++++++
```

After:

```
error[E0599]: the method `cmp` exists for reference `&T`, but its trait bounds were not satisfied
  --> $DIR/method-on-unbounded-type-param.rs:5:10
   |
LL |     (&a).cmp(&b)
   |          ^^^ method cannot be called on `&T` due to unsatisfied trait bounds
   |
   = note: the following trait bounds were not satisfied:
           `T: Ord`
           which is required by `&T: Ord`
           `&T: Iterator`
           which is required by `&mut &T: Iterator`
           `T: Iterator`
           which is required by `&mut T: Iterator`
   = help: items from traits can only be used if the type parameter is bounded by the trait
help: the following traits define an item `cmp`, perhaps you need to restrict type parameter `T` with one of them:
   |
LL | fn g<T: Ord>(a: T, b: T) -> std::cmp::Ordering {
   |       +++++
LL | fn g<T: Iterator>(a: T, b: T) -> std::cmp::Ordering {
   |       ++++++++++
```

Fix #108428.
2024-01-30 19:26:13 +00:00
Guillaume Gomez
ee2e9e1eda
Rollup merge of #118533 - chenyukang:yukang-fix-118455, r=petrochenkov
Suppress unhelpful diagnostics for unresolved top level attributes

Fixes #118455, unresolved top level attribute error didn't imported prelude and already have emitted an error, report builtin macro and attributes error by the way, so `check_invalid_crate_level_attr` in can ignore them.

Also fixes #89566, fixes #67107.

r? `@petrochenkov`
2024-01-30 16:57:46 +01:00
yukang
492df34eea Supress unhelpful diagnostics for unresolved top level attributes 2024-01-29 17:43:07 +08:00
Esteban Küber
7df4a09fc4 Use single label for method not found due to unmet bound 2024-01-26 20:47:19 +00:00
Esteban Küber
757b726f86 Use only one label for multiple unsatisfied bounds on type (typeck) 2024-01-26 20:47:19 +00:00
Oli Scherer
55cab535e7 Taint more aggressively in astconv 2024-01-11 09:03:26 +00:00
Oli Scherer
0978f6e010 Avoid silencing relevant follow-up errors 2024-01-09 21:08:16 +00:00
Nilstrieb
41e8d152dc Show number in error message even for one error
Co-authored-by: Adrian <adrian.iosdev@gmail.com>
2023-11-24 19:15:52 +01:00
Gurinder Singh
4b3ece475d Emit explanatory note for move errors in packed struct derives
Derive expansions for packed structs cause move errors because
they prefer copying over borrowing since borrowing the fields of a
packed struct can result in unaligned access and therefore undefined
behaviour.

This underlying cause of the errors, however, is not apparent
to the user. We add a diagnostic note here to remedy that.
2023-11-03 07:32:10 +05:30
Esteban Küber
27919ceba7 Tweak suggestion spans for invalid crate-level inner attribute
CC #89566.
2023-10-26 18:35:09 +00:00
Alex Macleod
5453a9f34d Add a note to duplicate diagnostics 2023-10-05 01:04:41 +00:00
Michael Goulet
015acc2611 Provide RHS type hint when reporting operator error 2023-04-27 01:34:03 +00:00
Esteban Küber
5b40aa5eb4 Tweak output for 'add line' suggestion 2023-04-12 22:50:10 +00:00
Nicholas Nethercote
a70d03b624 Extend BYTE_SLICE_IN_PACKED_STRUCT_WITH_DERIVE.
To temporarily allow a `str` field in a packed struct using `derive`,
along with `[u8]`.
2023-02-09 11:47:12 +11:00
Matthias Krüger
800221b5b8
Rollup merge of #106477 - Nathan-Fenner:nathanf/refined-error-span-trait-impl, r=compiler-errors
Refine error spans for "The trait bound `T: Trait` is not satisfied" when passing literal structs/tuples

This PR adds a new heuristic which refines the error span reported for "`T: Trait` is not satisfied" errors, by "drilling down" into individual fields of structs/enums/tuples to point to the "problematic" value.

Here's a self-contained example of the difference in error span:

```rs
struct Burrito<Filling> {
    filling: Filling,
}
impl <Filling: Delicious> Delicious for Burrito<Filling> {}
fn eat_delicious_food<Food: Delicious>(food: Food) {}
fn will_type_error() {
    eat_delicious_food(Burrito { filling: Kale });
    //                 ^~~~~~~~~~~~~~~~~~~~~~~~~ (before) The trait bound `Kale: Delicious` is not satisfied
    //                                    ^~~~   (after)  The trait bound `Kale: Delicious` is not satisfied
}
```
(kale is fine, this is just a silly food-based example)

Before this PR, the error span is identified as the entire argument to the generic function `eat_delicious_food`. However, since only `Kale` is the "problematic" part, we can point at it specifically. In particular, the primary error message itself mentions the missing `Kale: Delicious` trait bound, so it's much clearer if this part is called out explicitly.

---

The _existing_ heuristic tries to label the right function argument in `point_at_arg_if_possible`. It goes something like this:
- Look at the broken base trait `Food: Delicious` and find which generics it mentions (in this case, only `Food`)
- Look at the parameter type definitions and find which of them mention `Filling` (in this case, only `food`)
- If there is exactly one relevant parameter, label the corresponding argument with the error span, instead of the entire call

This PR extends this heuristic by further refining the resulting expression span in the new `point_at_specific_expr_if_possible` function. For each `impl` in the (broken) chain, we apply the following strategy:

The strategy to determine this span involves connecting information about our generic `impl`
with information about our (struct) type and the (struct) literal expression:
- Find the `impl` (`impl <Filling: Delicious> Delicious for Burrito<Filling>`)
  that links our obligation (`Kale: Delicious`) with the parent obligation (`Burrito<Kale>: Delicious`)
- Find the "original" predicate constraint in the impl (`Filling: Delicious`) which produced our obligation.
- Find all of the generics that are mentioned in the predicate (`Filling`).
- Examine the `Self` type in the `impl`, and see which of its type argument(s) mention any of those generics.
- Examing the definition for the `Self` type, and identify (for each of its variants) if there's a unique field
  which uses those generic arguments.
- If there is a unique field mentioning the "blameable" arguments, use that field for the error span.

Before we do any of this logic, we recursively call `point_at_specific_expr_if_possible` on the parent
obligation. Hence we refine the `expr` "outwards-in" and bail at the first kind of expression/impl we don't recognize.

This function returns a `Result<&Expr, &Expr>` - either way, it returns the `Expr` whose span should be
reported as an error. If it is `Ok`, then it means it refined successfull. If it is `Err`, then it may be
only a partial success - but it cannot be refined even further.

---

I added a new test file which exercises this new behavior. A few existing tests were affected, since their error spans are now different. In one case, this leads to a different code suggestion for the autofix - although the new suggestion isn't _wrong_, it is different from what used to be.

This change doesn't create any new errors or remove any existing ones, it just adjusts the spans where they're presented.

---

Some considerations: right now, this check occurs in addition to some similar logic in `adjust_fulfillment_error_for_expr_obligation` function, which tidies up various kinds of error spans (not just trait-fulfillment error). It's possible that this new code would be better integrated into that function (or another one) - but I haven't looked into this yet.

Although this code only occurs when there's a type error, it's definitely not as efficient as possible. In particular, there are definitely some cases where it degrades to quadratic performance (e.g. for a trait `impl` with 100+ generic parameters or 100 levels deep nesting of generic types). I'm not sure if these are realistic enough to worry about optimizing yet.

There's also still a lot of repetition in some of the logic, where the behavior for different types (namely, `struct` vs `enum` variant) is _similar_ but not the same.

---

I think the biggest win here is better targeting for tuples; in particular, if you're using tuples + traits to express variadic-like functions, the compiler can't tell you which part of a tuple has the wrong type, since the span will cover the entire argument. This change allows the individual field in the tuple to be highlighted, as in this example:

```
// NEW
LL |     want(Wrapper { value: (3, q) });
   |     ----                      ^ the trait `T3` is not implemented for `Q`

// OLD
LL |     want(Wrapper { value: (3, q) });
   |     ---- ^~~~~~~~~~~~~~~~~~~~~~~~~ the trait `T3` is not implemented for `Q`
```
Especially with large tuples, the existing error spans are not very effective at quickly narrowing down the source of the problem.
2023-02-06 21:16:39 +01:00
Ralf Jung
dfc4a7b2d0 make unaligned_reference a hard error 2023-01-31 20:28:11 +01:00
Nicholas Nethercote
2e93f2c92f Allow more deriving on packed structs.
Currently, deriving on packed structs has some non-trivial limitations,
related to the fact that taking references on unaligned fields is UB.

The current approach to field accesses in derived code:
- Normal case: `&self.0`
- In a packed struct that derives `Copy`: `&{self.0}`
- In a packed struct that doesn't derive `Copy`: `&self.0`

Plus, we disallow deriving any builtin traits other than `Default` for any
packed generic type, because it's possible that there might be
misaligned fields. This is a fairly broad restriction.

Plus, we disallow deriving any builtin traits other than `Default` for most
packed types that don't derive `Copy`. (The exceptions are those where the
alignments inherently satisfy the packing, e.g. in a type with
`repr(packed(N))` where all the fields have alignments of `N` or less
anyway. Such types are pretty strange, because the `packed` attribute is
not having any effect.)

This commit introduces a new, simpler approach to field accesses:
- Normal case: `&self.0`
- In a packed struct: `&{self.0}`

In the latter case, this requires that all fields impl `Copy`, which is
a new restriction. This means that the following example compiles under
the old approach and doesn't compile under the new approach.
```
 #[derive(Debug)]
 struct NonCopy(u8);

 #[derive(Debug)
 #[repr(packed)]
 struct MyType(NonCopy);
```
(Note that the old approach's support for cases like this was brittle.
Changing the `u8` to a `u16` would be enough to stop it working. So not
much capability is lost here.)

However, the other constraints from the old rules are removed. We can now
derive builtin traits for packed generic structs like this:
```
 trait Trait { type A; }

 #[derive(Hash)]
 #[repr(packed)]
 pub struct Foo<T: Trait>(T, T::A);
```
To allow this, we add a `T: Copy` bound in the derived impl and a `T::A:
Copy` bound in where clauses. So `T` and `T::A` must impl `Copy`.

We can now also derive builtin traits for packed structs that don't derive
`Copy`, so long as the fields impl `Copy`:
```
 #[derive(Hash)]
 #[repr(packed)]
 pub struct Foo(u32);
```
This includes types that hand-impl `Copy` rather than deriving it, such as the
following, that show up in winapi-0.2:
```
 #[derive(Clone)]
 #[repr(packed)]
 struct MyType(i32);

 impl Copy for MyType {}
```
The new approach is simpler to understand and implement, and it avoids
the need for the `unsafe_derive_on_repr_packed` check.

One exception is required for backwards-compatibility: we allow `[u8]`
fields for now. There is a new lint for this,
`byte_slice_in_packed_struct_with_derive`.
2023-01-30 12:00:42 +11:00
Nathan Fenner
2a67e99d7d Point at specific field in struct literal when trait fulfillment fails 2023-01-23 13:37:58 -08:00
Esteban Küber
3d6b09e53e Keep obligation chain when elaborating obligations 2023-01-13 18:20:23 +00:00
Esteban Küber
f6e6d2a035 Elaborate unmet obligations in E0599 for more context 2023-01-13 18:20:23 +00:00
Matthias Krüger
8a13157c16
Rollup merge of #106702 - estebank:trait-bounds, r=compiler-errors
Conserve cause of `ImplDerivedObligation` in E0599

CC #86377.
2023-01-12 06:52:38 +01:00
Michael Goulet
9a39d7e441 Note predicate span on ImplDerivedObligation 2023-01-11 19:46:45 +00:00
Esteban Küber
317adda649 Tweak output 2023-01-11 19:31:34 +00:00
Esteban Küber
fb5d215347 Conserve cause of ImplDerivedObligation in E0599
CC #86377.
2023-01-11 19:31:33 +00:00
Albert Larsan
cf2dff2b1e
Move /src/test to /tests 2023-01-11 09:32:08 +00:00