The user has no clue what tail expression the compiler is talking
about: it is an implementation detail of the macro that it uses a block
with tail expression.
Remove pre-expansion AST stats.
They're very little value, because they only measure the top-level `main.rs` or `lib.rs` file. (Other `.rs` files don't get read and parsed until expansion occurs.)
I saw an example recently where the pre-expansion AST was 3KB in size and the post-expansion AST was 66MB.
I kept the "POST EXPANSION" in the output header, I think that's useful information to avoid possible confusion about when the measurement happens.
r? `@davidtwco`
Use the informative error as the main const eval error message
r? `@RalfJung`
I only did the minimal changes necessary to the const eval error machinery. I'd prefer not to mix test changes with refactorings 😆
Replace ad-hoc ABI "adjustments" with an `AbiMap` to `CanonAbi`
Our `conv_from_spec_abi`, `adjust_abi`, and `is_abi_supported` combine to give us a very confusing way of reasoning about what _actual_ calling convention we want to lower our code to and whether we want to compile the resulting code at all. Instead of leaving this code as a miniature adventure game in which someone tries to combine stateful mutations into a Rube Goldberg machine that will let them escape the maze and arrive at the promised land of codegen, we let `AbiMap` devour this complexity. Once you have an `AbiMap`, you can answer which `ExternAbi`s will lower to what `CanonAbi`s (and whether they will lower at all).
Removed:
- `conv_from_spec_abi` replaced by `AbiMap::canonize_abi`
- `adjust_abi` replaced by same
- `Conv::PreserveAll` as unused
- `Conv::Cold` as unused
- `enum Conv` replaced by `enum CanonAbi`
target-spec.json changes:
- If you have a target-spec.json then now your "entry-abi" key will be specified in terms of one of the `"{abi}"` strings Rust recognizes, e.g.
```json
"entry-abi": "C",
"entry-abi": "win64",
"entry-abi": "aapcs",
```
This adds an `iter!` macro that can be used to create movable
generators.
This also adds a yield_expr feature so the `yield` keyword can be used
within iter! macro bodies. This was needed because several unstable
features each need `yield` expressions, so this allows us to stabilize
them separately from any individual feature.
Co-authored-by: Oli Scherer <github35764891676564198441@oli-obk.de>
Co-authored-by: Jieyou Xu <jieyouxu@outlook.com>
Co-authored-by: Travis Cross <tc@traviscross.com>
`tests/ui`: A New Order [2/N]
part of rust-lang/rust#133895
r? `@jieyouxu`
let's try this kind of commits, one for each file, commit's name shows what i did, hope this is not harder to review than previous
fix(#141141): When expanding `PartialEq`, check equality of scalar types first.
Fixesrust-lang/rust#141141.
Now, `cs_eq` function of `partial_eq.rs` compares [scalar types](https://doc.rust-lang.org/rust-by-example/primitives.html#scalar-types) first.
- Add `is_scalar` field to `FieldInfo`.
- Add `is_scalar` method to `TyKind`.
- Pass `FieldInfo` via `CsFold::Combine` and refactor code relying on it.
- Implement `TryFrom<&str>` and `TryFrom<Symbol>` for FloatTy.
- Implement `TryFrom<&str>` and `TryFrom<Symbol>` for IntTy.
- Implement `TryFrom<&str>` and `TryFrom<Symbol>` for UintTy.
Fix borrowck mentioning a name from an external macro we (deliberately) don't save
Most of the info is already in the title 🤷Closesrust-lang/rust#141764
Don't declare variables in `ExprKind::Let` in invalid positions
Handle `let` expressions in invalid positions specially during resolve in order to avoid making destructuring-assignment expressions that reference (invalid) variables that have not yet been delcared yet.
See further explanation in test and comment in the source.
Fixesrust-lang/rust#141844
Async drop - type instead of async drop fn, fixes#140484Fixes: rust-lang/rust#140484Fixes: rust-lang/rust#140500
Fixes ICE, when type is provided in AsyncDrop trait instead of `async fn drop()`.
Fixes ICE, when async drop fn has wrong signature.
They're very little value, because they only measure the top-level
`main.rs` or `lib.rs` file. (Other `.rs` files don't get read and parsed
until expansion occurs.)
I saw an example recently where the pre-expansion AST was 3KB in size
and the post-expansion AST was 66MB.
I kept the "POST EXPANSION" in the output header, I think that's useful
information to avoid possible confusion about when the measurement
happens.
