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Add joining slices of slices with a slice separator, not just a single item #62528
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r? @dtolnay (rust_highfive has picked a reviewer for you, use r? to override) |
While the let nested: Vec<Vec<Foo>> = /* … */;
let separator: &[Foo] = /* … */; // Previously: could only be a single &Foo
nested.join(separator) @rfcbot fcp merge Because there may be inference regressions, we may want to do a Crater run: @bors try |
⌛ Trying commit b62a77b with merge 13fab3f0e4a2da67c10531e8bcafaf6a30763a17... |
Team member @SimonSapin has proposed to merge this. The next step is review by the rest of the tagged team members: No concerns currently listed. Once a majority of reviewers approve (and at most 2 approvals are outstanding), this will enter its final comment period. If you spot a major issue that hasn't been raised at any point in this process, please speak up! See this document for info about what commands tagged team members can give me. |
☀️ Try build successful - checks-azure, checks-travis |
Co-Authored-By: Mazdak Farrokhzad <[email protected]>
Co-Authored-By: Mazdak Farrokhzad <[email protected]>
Co-Authored-By: Mazdak Farrokhzad <[email protected]>
@craterbot run mode=check-only |
👌 Experiment ℹ️ Crater is a tool to run experiments across parts of the Rust ecosystem. Learn more |
🔔 This is now entering its final comment period, as per the review above. 🔔 |
🚧 Experiment ℹ️ Crater is a tool to run experiments across parts of the Rust ecosystem. Learn more |
🚨 Experiment 🆘 Can someone from the infra team check in on this? @rust-lang/infra |
Add joining slices of slices with a slice separator, not just a single item rust-lang#27747 (comment) > It's kinda annoying to be able to join strings with a str (which can have multiple chars), but joining a slice of slices, you can only join with a single element. This turns out to be fixable, with some possible inference regressions. # TL;DR Related trait(s) are unstable and tracked at rust-lang#27747, but the `[T]::join` method that is being extended here is already stable. Example use of the new insta-stable functionality: ```rust let nested: Vec<Vec<Foo>> = /* … */; let separator: &[Foo] = /* … */; // Previously: could only be a single &Foo nested.join(separator) ``` Complete API affected by this PR, after changes: ```rust impl<T> [T] { pub fn concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output where Self: Concat<Item> { Concat::concat(self) } pub fn join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator> { Join::join(self, sep) } } // The `Item` parameter is only useful for the the slice-of-slices impl. pub trait Concat<Item: ?Sized> { type Output; fn concat(slice: &Self) -> Self::Output; } pub trait Join<Separator> { type Output; fn join(slice: &Self, sep: Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> Concat<T> for [V] { type Output = Vec<T>; } impl<T: Clone, V: Borrow<[T]>> Join<&'_ T> for [V] { type Output = Vec<T>; } // New functionality here! impl<T: Clone, V: Borrow<[T]>> Join<&'_ [T]> for [V] { type Output = Vec<T>; } impl<S: Borrow<str>> Concat<str> for [S] { type Output = String; } impl<S: Borrow<str>> Join<&'_ str> for [S] { type Output = String; } ``` # Details After rust-lang#62403 but before this PR, the API is: ```rust impl<T> [T] { pub fn concat<Separator: ?Sized>(&self) -> T::Output where T: SliceConcat<Separator> { SliceConcat::concat(self) } pub fn join<Separator: ?Sized>(&self, sep: &Separator) -> T::Output where T: SliceConcat<Separator> { SliceConcat::join(self, sep) } } pub trait SliceConcat<Separator: ?Sized>: Sized { type Output; fn concat(slice: &[Self]) -> Self::Output; fn join(slice: &[Self], sep: &Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> SliceConcat<T> for V { type Output = Vec<T>; } impl<S: Borrow<str>> SliceConcat<str> for S { type Output = String; } ``` By adding a trait impl we should be able to accept a slice of `T` as the separator, as an alternative to a single `T` value. In a `some_slice.join(some_separator)` call, trait resolution will pick an impl or the other based on the type of `some_separator`. In `some_slice.concat()` however there is no separator, so this call would become ambiguous. Some regression in type inference or trait resolution may be acceptable on principle, but requiring a turbofish for every single call to `concat` isn’t great. The solution to that is splitting the `SliceConcat` trait into two `Concat` and `Join` traits, one for each eponymous method. Only `Join` would gain a new impl, so that `some_slice.concat()` would not become ambiguous. Now, at the trait level the `Concat` trait does not need a `Separator` parameter anymore. However, simply removing it causes one of the impls not to be accepted anymore: ```rust error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predicates --> src/liballoc/slice.rs:608:6 | 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] { | ^ unconstrained type parameter ``` This makes sense: if `[V]::concat` is a method that is itself not generic, then its return type (which is the `Concat::Output` associated type) needs to be determined based on solely `V`. And although there is no such type in the standard library, there is nothing stopping another crate from defining a `V` type that implements both `Borrow<[Foo]>` and `Borrow<[Bar]>`. It might not be a good idea, but it’s possible. Both would apply here, and there would be no way to determine `T`. This could be a warning sign that this API is too generic. Perhaps we’d be better off having one less type variable, and only implement `Concat for [&'_ [T]]` and `Concat for [Vec<T>]` etc. However this aspect of `[V]::concat` is already stable, so we’re stuck with it. The solution is to keep a dummy type parameter on the `Concat` trait. That way, if a type has multiple `Borrow<[_]>` impls, it’ll end up with multiple corresponding `Concat<_>` impls. In `impl<S: Borrow<str>> Concat<str> for [S]`, the second occurrence of `str` is not meaningful. It could be any type. As long as there is only once such type with an applicable impl, trait resolution will be appeased without demanding turbofishes. # Joining strings with `char` For symmetry I also tried adding this impl (because why not): ```rust impl<S: Borrow<str>> Join<char> for [S] { type Output = String; } ``` This immediately caused an inference regression in a dependency of rustc: ```rust error[E0277]: the trait bound `std::string::String: std::borrow::Borrow<[std::string::String]>` is not satisfied --> /home/simon/.cargo/registry/src/github.com-1ecc6299db9ec823/getopts-0.2.19/src/lib.rs:595:37 | 595 | row.push_str(&desc_rows.join(&desc_sep)); | ^^^^ the trait `std::borrow::Borrow<[std::string::String]>` is not implemented for `std::string::String` | = help: the following implementations were found: <std::string::String as std::borrow::Borrow<str>> = note: required because of the requirements on the impl of `std::slice::Join<&std::string::String>` for `[std::string::String]` ``` In the context of this code, two facts are known: * `desc_rows` is a `Vec<String>` * `desc_sep` is a `String` Previously the first fact alone reduces the resolution of `join` to only one solution, where its argument it expected to be `&str`. Then, `&String` is coerced to `&str`. With the new `Join` impl, the first fact leavs two applicable impls where the separator can be either `&str` or `char`. But `&String` is neither of these things. It appears that possible coercions are not accounted for, in the search for a solution in trait resolution. I have not included this new impl in this PR. It’s still possible to add later, but the `getopts` breakage does not need to block the rest of the PR. And the functionality easy for end-user to duplicate: `slice_of_strings.join(&*char_separator.encode_utf8(&mut [0_u8, 4]))` The `&*` part of that last code snippet is another case of the same issue: `encode_utf8` returns `&mut str` which can be coerced to `&str`, but isn’t when trait resolution is ambiguous.
Add joining slices of slices with a slice separator, not just a single item rust-lang#27747 (comment) > It's kinda annoying to be able to join strings with a str (which can have multiple chars), but joining a slice of slices, you can only join with a single element. This turns out to be fixable, with some possible inference regressions. # TL;DR Related trait(s) are unstable and tracked at rust-lang#27747, but the `[T]::join` method that is being extended here is already stable. Example use of the new insta-stable functionality: ```rust let nested: Vec<Vec<Foo>> = /* … */; let separator: &[Foo] = /* … */; // Previously: could only be a single &Foo nested.join(separator) ``` Complete API affected by this PR, after changes: ```rust impl<T> [T] { pub fn concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output where Self: Concat<Item> { Concat::concat(self) } pub fn join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator> { Join::join(self, sep) } } // The `Item` parameter is only useful for the the slice-of-slices impl. pub trait Concat<Item: ?Sized> { type Output; fn concat(slice: &Self) -> Self::Output; } pub trait Join<Separator> { type Output; fn join(slice: &Self, sep: Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> Concat<T> for [V] { type Output = Vec<T>; } impl<T: Clone, V: Borrow<[T]>> Join<&'_ T> for [V] { type Output = Vec<T>; } // New functionality here! impl<T: Clone, V: Borrow<[T]>> Join<&'_ [T]> for [V] { type Output = Vec<T>; } impl<S: Borrow<str>> Concat<str> for [S] { type Output = String; } impl<S: Borrow<str>> Join<&'_ str> for [S] { type Output = String; } ``` # Details After rust-lang#62403 but before this PR, the API is: ```rust impl<T> [T] { pub fn concat<Separator: ?Sized>(&self) -> T::Output where T: SliceConcat<Separator> { SliceConcat::concat(self) } pub fn join<Separator: ?Sized>(&self, sep: &Separator) -> T::Output where T: SliceConcat<Separator> { SliceConcat::join(self, sep) } } pub trait SliceConcat<Separator: ?Sized>: Sized { type Output; fn concat(slice: &[Self]) -> Self::Output; fn join(slice: &[Self], sep: &Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> SliceConcat<T> for V { type Output = Vec<T>; } impl<S: Borrow<str>> SliceConcat<str> for S { type Output = String; } ``` By adding a trait impl we should be able to accept a slice of `T` as the separator, as an alternative to a single `T` value. In a `some_slice.join(some_separator)` call, trait resolution will pick an impl or the other based on the type of `some_separator`. In `some_slice.concat()` however there is no separator, so this call would become ambiguous. Some regression in type inference or trait resolution may be acceptable on principle, but requiring a turbofish for every single call to `concat` isn’t great. The solution to that is splitting the `SliceConcat` trait into two `Concat` and `Join` traits, one for each eponymous method. Only `Join` would gain a new impl, so that `some_slice.concat()` would not become ambiguous. Now, at the trait level the `Concat` trait does not need a `Separator` parameter anymore. However, simply removing it causes one of the impls not to be accepted anymore: ```rust error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predicates --> src/liballoc/slice.rs:608:6 | 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] { | ^ unconstrained type parameter ``` This makes sense: if `[V]::concat` is a method that is itself not generic, then its return type (which is the `Concat::Output` associated type) needs to be determined based on solely `V`. And although there is no such type in the standard library, there is nothing stopping another crate from defining a `V` type that implements both `Borrow<[Foo]>` and `Borrow<[Bar]>`. It might not be a good idea, but it’s possible. Both would apply here, and there would be no way to determine `T`. This could be a warning sign that this API is too generic. Perhaps we’d be better off having one less type variable, and only implement `Concat for [&'_ [T]]` and `Concat for [Vec<T>]` etc. However this aspect of `[V]::concat` is already stable, so we’re stuck with it. The solution is to keep a dummy type parameter on the `Concat` trait. That way, if a type has multiple `Borrow<[_]>` impls, it’ll end up with multiple corresponding `Concat<_>` impls. In `impl<S: Borrow<str>> Concat<str> for [S]`, the second occurrence of `str` is not meaningful. It could be any type. As long as there is only once such type with an applicable impl, trait resolution will be appeased without demanding turbofishes. # Joining strings with `char` For symmetry I also tried adding this impl (because why not): ```rust impl<S: Borrow<str>> Join<char> for [S] { type Output = String; } ``` This immediately caused an inference regression in a dependency of rustc: ```rust error[E0277]: the trait bound `std::string::String: std::borrow::Borrow<[std::string::String]>` is not satisfied --> /home/simon/.cargo/registry/src/github.com-1ecc6299db9ec823/getopts-0.2.19/src/lib.rs:595:37 | 595 | row.push_str(&desc_rows.join(&desc_sep)); | ^^^^ the trait `std::borrow::Borrow<[std::string::String]>` is not implemented for `std::string::String` | = help: the following implementations were found: <std::string::String as std::borrow::Borrow<str>> = note: required because of the requirements on the impl of `std::slice::Join<&std::string::String>` for `[std::string::String]` ``` In the context of this code, two facts are known: * `desc_rows` is a `Vec<String>` * `desc_sep` is a `String` Previously the first fact alone reduces the resolution of `join` to only one solution, where its argument it expected to be `&str`. Then, `&String` is coerced to `&str`. With the new `Join` impl, the first fact leavs two applicable impls where the separator can be either `&str` or `char`. But `&String` is neither of these things. It appears that possible coercions are not accounted for, in the search for a solution in trait resolution. I have not included this new impl in this PR. It’s still possible to add later, but the `getopts` breakage does not need to block the rest of the PR. And the functionality easy for end-user to duplicate: `slice_of_strings.join(&*char_separator.encode_utf8(&mut [0_u8, 4]))` The `&*` part of that last code snippet is another case of the same issue: `encode_utf8` returns `&mut str` which can be coerced to `&str`, but isn’t when trait resolution is ambiguous.
Rollup of 11 pull requests Successful merges: - #62261 (Take substs into account in `conservative_is_privately_uninhabited`) - #62528 (Add joining slices of slices with a slice separator, not just a single item) - #62738 (Remove uses of mem::uninitialized from std::sys::cloudabi) - #62784 (Add riscv32i-unknown-none-elf target) - #62808 (Revert "Disable stack probing for gnux32.") - #62814 (add support for hexagon-unknown-linux-musl) - #62822 (Improve some pointer-related documentation) - #62890 (Normalize use of backticks in compiler messages for libsyntax/*) - #62901 (cleanup: Remove `extern crate serialize as rustc_serialize`s) - #62905 (Normalize use of backticks in compiler messages for doc) - #62908 (normalize use of backticks for compiler messages in remaining modules) Failed merges: r? @ghost
Add joining slices of slices with a slice separator, not just a single item rust-lang#27747 (comment) > It's kinda annoying to be able to join strings with a str (which can have multiple chars), but joining a slice of slices, you can only join with a single element. This turns out to be fixable, with some possible inference regressions. # TL;DR Related trait(s) are unstable and tracked at rust-lang#27747, but the `[T]::join` method that is being extended here is already stable. Example use of the new insta-stable functionality: ```rust let nested: Vec<Vec<Foo>> = /* … */; let separator: &[Foo] = /* … */; // Previously: could only be a single &Foo nested.join(separator) ``` Complete API affected by this PR, after changes: ```rust impl<T> [T] { pub fn concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output where Self: Concat<Item> { Concat::concat(self) } pub fn join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator> { Join::join(self, sep) } } // The `Item` parameter is only useful for the the slice-of-slices impl. pub trait Concat<Item: ?Sized> { type Output; fn concat(slice: &Self) -> Self::Output; } pub trait Join<Separator> { type Output; fn join(slice: &Self, sep: Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> Concat<T> for [V] { type Output = Vec<T>; } impl<T: Clone, V: Borrow<[T]>> Join<&'_ T> for [V] { type Output = Vec<T>; } // New functionality here! impl<T: Clone, V: Borrow<[T]>> Join<&'_ [T]> for [V] { type Output = Vec<T>; } impl<S: Borrow<str>> Concat<str> for [S] { type Output = String; } impl<S: Borrow<str>> Join<&'_ str> for [S] { type Output = String; } ``` # Details After rust-lang#62403 but before this PR, the API is: ```rust impl<T> [T] { pub fn concat<Separator: ?Sized>(&self) -> T::Output where T: SliceConcat<Separator> { SliceConcat::concat(self) } pub fn join<Separator: ?Sized>(&self, sep: &Separator) -> T::Output where T: SliceConcat<Separator> { SliceConcat::join(self, sep) } } pub trait SliceConcat<Separator: ?Sized>: Sized { type Output; fn concat(slice: &[Self]) -> Self::Output; fn join(slice: &[Self], sep: &Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> SliceConcat<T> for V { type Output = Vec<T>; } impl<S: Borrow<str>> SliceConcat<str> for S { type Output = String; } ``` By adding a trait impl we should be able to accept a slice of `T` as the separator, as an alternative to a single `T` value. In a `some_slice.join(some_separator)` call, trait resolution will pick an impl or the other based on the type of `some_separator`. In `some_slice.concat()` however there is no separator, so this call would become ambiguous. Some regression in type inference or trait resolution may be acceptable on principle, but requiring a turbofish for every single call to `concat` isn’t great. The solution to that is splitting the `SliceConcat` trait into two `Concat` and `Join` traits, one for each eponymous method. Only `Join` would gain a new impl, so that `some_slice.concat()` would not become ambiguous. Now, at the trait level the `Concat` trait does not need a `Separator` parameter anymore. However, simply removing it causes one of the impls not to be accepted anymore: ```rust error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predicates --> src/liballoc/slice.rs:608:6 | 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] { | ^ unconstrained type parameter ``` This makes sense: if `[V]::concat` is a method that is itself not generic, then its return type (which is the `Concat::Output` associated type) needs to be determined based on solely `V`. And although there is no such type in the standard library, there is nothing stopping another crate from defining a `V` type that implements both `Borrow<[Foo]>` and `Borrow<[Bar]>`. It might not be a good idea, but it’s possible. Both would apply here, and there would be no way to determine `T`. This could be a warning sign that this API is too generic. Perhaps we’d be better off having one less type variable, and only implement `Concat for [&'_ [T]]` and `Concat for [Vec<T>]` etc. However this aspect of `[V]::concat` is already stable, so we’re stuck with it. The solution is to keep a dummy type parameter on the `Concat` trait. That way, if a type has multiple `Borrow<[_]>` impls, it’ll end up with multiple corresponding `Concat<_>` impls. In `impl<S: Borrow<str>> Concat<str> for [S]`, the second occurrence of `str` is not meaningful. It could be any type. As long as there is only once such type with an applicable impl, trait resolution will be appeased without demanding turbofishes. # Joining strings with `char` For symmetry I also tried adding this impl (because why not): ```rust impl<S: Borrow<str>> Join<char> for [S] { type Output = String; } ``` This immediately caused an inference regression in a dependency of rustc: ```rust error[E0277]: the trait bound `std::string::String: std::borrow::Borrow<[std::string::String]>` is not satisfied --> /home/simon/.cargo/registry/src/github.com-1ecc6299db9ec823/getopts-0.2.19/src/lib.rs:595:37 | 595 | row.push_str(&desc_rows.join(&desc_sep)); | ^^^^ the trait `std::borrow::Borrow<[std::string::String]>` is not implemented for `std::string::String` | = help: the following implementations were found: <std::string::String as std::borrow::Borrow<str>> = note: required because of the requirements on the impl of `std::slice::Join<&std::string::String>` for `[std::string::String]` ``` In the context of this code, two facts are known: * `desc_rows` is a `Vec<String>` * `desc_sep` is a `String` Previously the first fact alone reduces the resolution of `join` to only one solution, where its argument it expected to be `&str`. Then, `&String` is coerced to `&str`. With the new `Join` impl, the first fact leavs two applicable impls where the separator can be either `&str` or `char`. But `&String` is neither of these things. It appears that possible coercions are not accounted for, in the search for a solution in trait resolution. I have not included this new impl in this PR. It’s still possible to add later, but the `getopts` breakage does not need to block the rest of the PR. And the functionality easy for end-user to duplicate: `slice_of_strings.join(&*char_separator.encode_utf8(&mut [0_u8, 4]))` The `&*` part of that last code snippet is another case of the same issue: `encode_utf8` returns `&mut str` which can be coerced to `&str`, but isn’t when trait resolution is ambiguous.
Rollup of 10 pull requests Successful merges: - rust-lang#60938 (rustdoc: make #[doc(include)] relative to the containing file) - rust-lang#61890 (Fix some sanity checks) - rust-lang#62261 (Take substs into account in `conservative_is_privately_uninhabited`) - rust-lang#62528 (Add joining slices of slices with a slice separator, not just a single item) - rust-lang#62735 (Turn `#[global_allocator]` into a regular attribute macro) - rust-lang#62801 (Remove support for -Zlower-128bit-ops) - rust-lang#62808 (Revert "Disable stack probing for gnux32.") - rust-lang#62819 (Display name of crate requiring rustc_private in error messages.) - rust-lang#62904 (Disable d32 on armv6 hf targets) - rust-lang#62907 (Initialize the MSP430 AsmParser) Failed merges: r? @ghost
Add joining slices of slices with a slice separator, not just a single item rust-lang#27747 (comment) > It's kinda annoying to be able to join strings with a str (which can have multiple chars), but joining a slice of slices, you can only join with a single element. This turns out to be fixable, with some possible inference regressions. # TL;DR Related trait(s) are unstable and tracked at rust-lang#27747, but the `[T]::join` method that is being extended here is already stable. Example use of the new insta-stable functionality: ```rust let nested: Vec<Vec<Foo>> = /* … */; let separator: &[Foo] = /* … */; // Previously: could only be a single &Foo nested.join(separator) ``` Complete API affected by this PR, after changes: ```rust impl<T> [T] { pub fn concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output where Self: Concat<Item> { Concat::concat(self) } pub fn join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator> { Join::join(self, sep) } } // The `Item` parameter is only useful for the the slice-of-slices impl. pub trait Concat<Item: ?Sized> { type Output; fn concat(slice: &Self) -> Self::Output; } pub trait Join<Separator> { type Output; fn join(slice: &Self, sep: Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> Concat<T> for [V] { type Output = Vec<T>; } impl<T: Clone, V: Borrow<[T]>> Join<&'_ T> for [V] { type Output = Vec<T>; } // New functionality here! impl<T: Clone, V: Borrow<[T]>> Join<&'_ [T]> for [V] { type Output = Vec<T>; } impl<S: Borrow<str>> Concat<str> for [S] { type Output = String; } impl<S: Borrow<str>> Join<&'_ str> for [S] { type Output = String; } ``` # Details After rust-lang#62403 but before this PR, the API is: ```rust impl<T> [T] { pub fn concat<Separator: ?Sized>(&self) -> T::Output where T: SliceConcat<Separator> { SliceConcat::concat(self) } pub fn join<Separator: ?Sized>(&self, sep: &Separator) -> T::Output where T: SliceConcat<Separator> { SliceConcat::join(self, sep) } } pub trait SliceConcat<Separator: ?Sized>: Sized { type Output; fn concat(slice: &[Self]) -> Self::Output; fn join(slice: &[Self], sep: &Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> SliceConcat<T> for V { type Output = Vec<T>; } impl<S: Borrow<str>> SliceConcat<str> for S { type Output = String; } ``` By adding a trait impl we should be able to accept a slice of `T` as the separator, as an alternative to a single `T` value. In a `some_slice.join(some_separator)` call, trait resolution will pick an impl or the other based on the type of `some_separator`. In `some_slice.concat()` however there is no separator, so this call would become ambiguous. Some regression in type inference or trait resolution may be acceptable on principle, but requiring a turbofish for every single call to `concat` isn’t great. The solution to that is splitting the `SliceConcat` trait into two `Concat` and `Join` traits, one for each eponymous method. Only `Join` would gain a new impl, so that `some_slice.concat()` would not become ambiguous. Now, at the trait level the `Concat` trait does not need a `Separator` parameter anymore. However, simply removing it causes one of the impls not to be accepted anymore: ```rust error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predicates --> src/liballoc/slice.rs:608:6 | 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] { | ^ unconstrained type parameter ``` This makes sense: if `[V]::concat` is a method that is itself not generic, then its return type (which is the `Concat::Output` associated type) needs to be determined based on solely `V`. And although there is no such type in the standard library, there is nothing stopping another crate from defining a `V` type that implements both `Borrow<[Foo]>` and `Borrow<[Bar]>`. It might not be a good idea, but it’s possible. Both would apply here, and there would be no way to determine `T`. This could be a warning sign that this API is too generic. Perhaps we’d be better off having one less type variable, and only implement `Concat for [&'_ [T]]` and `Concat for [Vec<T>]` etc. However this aspect of `[V]::concat` is already stable, so we’re stuck with it. The solution is to keep a dummy type parameter on the `Concat` trait. That way, if a type has multiple `Borrow<[_]>` impls, it’ll end up with multiple corresponding `Concat<_>` impls. In `impl<S: Borrow<str>> Concat<str> for [S]`, the second occurrence of `str` is not meaningful. It could be any type. As long as there is only once such type with an applicable impl, trait resolution will be appeased without demanding turbofishes. # Joining strings with `char` For symmetry I also tried adding this impl (because why not): ```rust impl<S: Borrow<str>> Join<char> for [S] { type Output = String; } ``` This immediately caused an inference regression in a dependency of rustc: ```rust error[E0277]: the trait bound `std::string::String: std::borrow::Borrow<[std::string::String]>` is not satisfied --> /home/simon/.cargo/registry/src/github.com-1ecc6299db9ec823/getopts-0.2.19/src/lib.rs:595:37 | 595 | row.push_str(&desc_rows.join(&desc_sep)); | ^^^^ the trait `std::borrow::Borrow<[std::string::String]>` is not implemented for `std::string::String` | = help: the following implementations were found: <std::string::String as std::borrow::Borrow<str>> = note: required because of the requirements on the impl of `std::slice::Join<&std::string::String>` for `[std::string::String]` ``` In the context of this code, two facts are known: * `desc_rows` is a `Vec<String>` * `desc_sep` is a `String` Previously the first fact alone reduces the resolution of `join` to only one solution, where its argument it expected to be `&str`. Then, `&String` is coerced to `&str`. With the new `Join` impl, the first fact leavs two applicable impls where the separator can be either `&str` or `char`. But `&String` is neither of these things. It appears that possible coercions are not accounted for, in the search for a solution in trait resolution. I have not included this new impl in this PR. It’s still possible to add later, but the `getopts` breakage does not need to block the rest of the PR. And the functionality easy for end-user to duplicate: `slice_of_strings.join(&*char_separator.encode_utf8(&mut [0_u8, 4]))` The `&*` part of that last code snippet is another case of the same issue: `encode_utf8` returns `&mut str` which can be coerced to `&str`, but isn’t when trait resolution is ambiguous.
Rollup of 13 pull requests Successful merges: - rust-lang#60938 (rustdoc: make #[doc(include)] relative to the containing file) - rust-lang#61890 (Fix some sanity checks) - rust-lang#62084 (allow clippy::unreadable_literal in unicode tables) - rust-lang#62261 (Take substs into account in `conservative_is_privately_uninhabited`) - rust-lang#62528 (Add joining slices of slices with a slice separator, not just a single item) - rust-lang#62735 (Turn `#[global_allocator]` into a regular attribute macro) - rust-lang#62801 (Remove support for -Zlower-128bit-ops) - rust-lang#62808 (Revert "Disable stack probing for gnux32.") - rust-lang#62822 (Improve some pointer-related documentation) - rust-lang#62904 (Disable d32 on armv6 hf targets) - rust-lang#62907 (Initialize the MSP430 AsmParser) - rust-lang#62921 (Add method disambiguation help for trait implementation) - rust-lang#62942 (Use match ergonomics in Condvar documentation) Failed merges: r? @ghost
Add joining slices of slices with a slice separator, not just a single item rust-lang#27747 (comment) > It's kinda annoying to be able to join strings with a str (which can have multiple chars), but joining a slice of slices, you can only join with a single element. This turns out to be fixable, with some possible inference regressions. # TL;DR Related trait(s) are unstable and tracked at rust-lang#27747, but the `[T]::join` method that is being extended here is already stable. Example use of the new insta-stable functionality: ```rust let nested: Vec<Vec<Foo>> = /* … */; let separator: &[Foo] = /* … */; // Previously: could only be a single &Foo nested.join(separator) ``` Complete API affected by this PR, after changes: ```rust impl<T> [T] { pub fn concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output where Self: Concat<Item> { Concat::concat(self) } pub fn join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator> { Join::join(self, sep) } } // The `Item` parameter is only useful for the the slice-of-slices impl. pub trait Concat<Item: ?Sized> { type Output; fn concat(slice: &Self) -> Self::Output; } pub trait Join<Separator> { type Output; fn join(slice: &Self, sep: Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> Concat<T> for [V] { type Output = Vec<T>; } impl<T: Clone, V: Borrow<[T]>> Join<&'_ T> for [V] { type Output = Vec<T>; } // New functionality here! impl<T: Clone, V: Borrow<[T]>> Join<&'_ [T]> for [V] { type Output = Vec<T>; } impl<S: Borrow<str>> Concat<str> for [S] { type Output = String; } impl<S: Borrow<str>> Join<&'_ str> for [S] { type Output = String; } ``` # Details After rust-lang#62403 but before this PR, the API is: ```rust impl<T> [T] { pub fn concat<Separator: ?Sized>(&self) -> T::Output where T: SliceConcat<Separator> { SliceConcat::concat(self) } pub fn join<Separator: ?Sized>(&self, sep: &Separator) -> T::Output where T: SliceConcat<Separator> { SliceConcat::join(self, sep) } } pub trait SliceConcat<Separator: ?Sized>: Sized { type Output; fn concat(slice: &[Self]) -> Self::Output; fn join(slice: &[Self], sep: &Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> SliceConcat<T> for V { type Output = Vec<T>; } impl<S: Borrow<str>> SliceConcat<str> for S { type Output = String; } ``` By adding a trait impl we should be able to accept a slice of `T` as the separator, as an alternative to a single `T` value. In a `some_slice.join(some_separator)` call, trait resolution will pick an impl or the other based on the type of `some_separator`. In `some_slice.concat()` however there is no separator, so this call would become ambiguous. Some regression in type inference or trait resolution may be acceptable on principle, but requiring a turbofish for every single call to `concat` isn’t great. The solution to that is splitting the `SliceConcat` trait into two `Concat` and `Join` traits, one for each eponymous method. Only `Join` would gain a new impl, so that `some_slice.concat()` would not become ambiguous. Now, at the trait level the `Concat` trait does not need a `Separator` parameter anymore. However, simply removing it causes one of the impls not to be accepted anymore: ```rust error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predicates --> src/liballoc/slice.rs:608:6 | 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] { | ^ unconstrained type parameter ``` This makes sense: if `[V]::concat` is a method that is itself not generic, then its return type (which is the `Concat::Output` associated type) needs to be determined based on solely `V`. And although there is no such type in the standard library, there is nothing stopping another crate from defining a `V` type that implements both `Borrow<[Foo]>` and `Borrow<[Bar]>`. It might not be a good idea, but it’s possible. Both would apply here, and there would be no way to determine `T`. This could be a warning sign that this API is too generic. Perhaps we’d be better off having one less type variable, and only implement `Concat for [&'_ [T]]` and `Concat for [Vec<T>]` etc. However this aspect of `[V]::concat` is already stable, so we’re stuck with it. The solution is to keep a dummy type parameter on the `Concat` trait. That way, if a type has multiple `Borrow<[_]>` impls, it’ll end up with multiple corresponding `Concat<_>` impls. In `impl<S: Borrow<str>> Concat<str> for [S]`, the second occurrence of `str` is not meaningful. It could be any type. As long as there is only once such type with an applicable impl, trait resolution will be appeased without demanding turbofishes. # Joining strings with `char` For symmetry I also tried adding this impl (because why not): ```rust impl<S: Borrow<str>> Join<char> for [S] { type Output = String; } ``` This immediately caused an inference regression in a dependency of rustc: ```rust error[E0277]: the trait bound `std::string::String: std::borrow::Borrow<[std::string::String]>` is not satisfied --> /home/simon/.cargo/registry/src/github.com-1ecc6299db9ec823/getopts-0.2.19/src/lib.rs:595:37 | 595 | row.push_str(&desc_rows.join(&desc_sep)); | ^^^^ the trait `std::borrow::Borrow<[std::string::String]>` is not implemented for `std::string::String` | = help: the following implementations were found: <std::string::String as std::borrow::Borrow<str>> = note: required because of the requirements on the impl of `std::slice::Join<&std::string::String>` for `[std::string::String]` ``` In the context of this code, two facts are known: * `desc_rows` is a `Vec<String>` * `desc_sep` is a `String` Previously the first fact alone reduces the resolution of `join` to only one solution, where its argument it expected to be `&str`. Then, `&String` is coerced to `&str`. With the new `Join` impl, the first fact leavs two applicable impls where the separator can be either `&str` or `char`. But `&String` is neither of these things. It appears that possible coercions are not accounted for, in the search for a solution in trait resolution. I have not included this new impl in this PR. It’s still possible to add later, but the `getopts` breakage does not need to block the rest of the PR. And the functionality easy for end-user to duplicate: `slice_of_strings.join(&*char_separator.encode_utf8(&mut [0_u8, 4]))` The `&*` part of that last code snippet is another case of the same issue: `encode_utf8` returns `&mut str` which can be coerced to `&str`, but isn’t when trait resolution is ambiguous.
Add joining slices of slices with a slice separator, not just a single item rust-lang#27747 (comment) > It's kinda annoying to be able to join strings with a str (which can have multiple chars), but joining a slice of slices, you can only join with a single element. This turns out to be fixable, with some possible inference regressions. # TL;DR Related trait(s) are unstable and tracked at rust-lang#27747, but the `[T]::join` method that is being extended here is already stable. Example use of the new insta-stable functionality: ```rust let nested: Vec<Vec<Foo>> = /* … */; let separator: &[Foo] = /* … */; // Previously: could only be a single &Foo nested.join(separator) ``` Complete API affected by this PR, after changes: ```rust impl<T> [T] { pub fn concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output where Self: Concat<Item> { Concat::concat(self) } pub fn join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator> { Join::join(self, sep) } } // The `Item` parameter is only useful for the the slice-of-slices impl. pub trait Concat<Item: ?Sized> { type Output; fn concat(slice: &Self) -> Self::Output; } pub trait Join<Separator> { type Output; fn join(slice: &Self, sep: Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> Concat<T> for [V] { type Output = Vec<T>; } impl<T: Clone, V: Borrow<[T]>> Join<&'_ T> for [V] { type Output = Vec<T>; } // New functionality here! impl<T: Clone, V: Borrow<[T]>> Join<&'_ [T]> for [V] { type Output = Vec<T>; } impl<S: Borrow<str>> Concat<str> for [S] { type Output = String; } impl<S: Borrow<str>> Join<&'_ str> for [S] { type Output = String; } ``` # Details After rust-lang#62403 but before this PR, the API is: ```rust impl<T> [T] { pub fn concat<Separator: ?Sized>(&self) -> T::Output where T: SliceConcat<Separator> { SliceConcat::concat(self) } pub fn join<Separator: ?Sized>(&self, sep: &Separator) -> T::Output where T: SliceConcat<Separator> { SliceConcat::join(self, sep) } } pub trait SliceConcat<Separator: ?Sized>: Sized { type Output; fn concat(slice: &[Self]) -> Self::Output; fn join(slice: &[Self], sep: &Separator) -> Self::Output; } impl<T: Clone, V: Borrow<[T]>> SliceConcat<T> for V { type Output = Vec<T>; } impl<S: Borrow<str>> SliceConcat<str> for S { type Output = String; } ``` By adding a trait impl we should be able to accept a slice of `T` as the separator, as an alternative to a single `T` value. In a `some_slice.join(some_separator)` call, trait resolution will pick an impl or the other based on the type of `some_separator`. In `some_slice.concat()` however there is no separator, so this call would become ambiguous. Some regression in type inference or trait resolution may be acceptable on principle, but requiring a turbofish for every single call to `concat` isn’t great. The solution to that is splitting the `SliceConcat` trait into two `Concat` and `Join` traits, one for each eponymous method. Only `Join` would gain a new impl, so that `some_slice.concat()` would not become ambiguous. Now, at the trait level the `Concat` trait does not need a `Separator` parameter anymore. However, simply removing it causes one of the impls not to be accepted anymore: ```rust error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predicates --> src/liballoc/slice.rs:608:6 | 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] { | ^ unconstrained type parameter ``` This makes sense: if `[V]::concat` is a method that is itself not generic, then its return type (which is the `Concat::Output` associated type) needs to be determined based on solely `V`. And although there is no such type in the standard library, there is nothing stopping another crate from defining a `V` type that implements both `Borrow<[Foo]>` and `Borrow<[Bar]>`. It might not be a good idea, but it’s possible. Both would apply here, and there would be no way to determine `T`. This could be a warning sign that this API is too generic. Perhaps we’d be better off having one less type variable, and only implement `Concat for [&'_ [T]]` and `Concat for [Vec<T>]` etc. However this aspect of `[V]::concat` is already stable, so we’re stuck with it. The solution is to keep a dummy type parameter on the `Concat` trait. That way, if a type has multiple `Borrow<[_]>` impls, it’ll end up with multiple corresponding `Concat<_>` impls. In `impl<S: Borrow<str>> Concat<str> for [S]`, the second occurrence of `str` is not meaningful. It could be any type. As long as there is only once such type with an applicable impl, trait resolution will be appeased without demanding turbofishes. # Joining strings with `char` For symmetry I also tried adding this impl (because why not): ```rust impl<S: Borrow<str>> Join<char> for [S] { type Output = String; } ``` This immediately caused an inference regression in a dependency of rustc: ```rust error[E0277]: the trait bound `std::string::String: std::borrow::Borrow<[std::string::String]>` is not satisfied --> /home/simon/.cargo/registry/src/github.com-1ecc6299db9ec823/getopts-0.2.19/src/lib.rs:595:37 | 595 | row.push_str(&desc_rows.join(&desc_sep)); | ^^^^ the trait `std::borrow::Borrow<[std::string::String]>` is not implemented for `std::string::String` | = help: the following implementations were found: <std::string::String as std::borrow::Borrow<str>> = note: required because of the requirements on the impl of `std::slice::Join<&std::string::String>` for `[std::string::String]` ``` In the context of this code, two facts are known: * `desc_rows` is a `Vec<String>` * `desc_sep` is a `String` Previously the first fact alone reduces the resolution of `join` to only one solution, where its argument it expected to be `&str`. Then, `&String` is coerced to `&str`. With the new `Join` impl, the first fact leavs two applicable impls where the separator can be either `&str` or `char`. But `&String` is neither of these things. It appears that possible coercions are not accounted for, in the search for a solution in trait resolution. I have not included this new impl in this PR. It’s still possible to add later, but the `getopts` breakage does not need to block the rest of the PR. And the functionality easy for end-user to duplicate: `slice_of_strings.join(&*char_separator.encode_utf8(&mut [0_u8, 4]))` The `&*` part of that last code snippet is another case of the same issue: `encode_utf8` returns `&mut str` which can be coerced to `&str`, but isn’t when trait resolution is ambiguous.
Rollup of 15 pull requests Successful merges: - #60066 (Stabilize the type_name intrinsic in core::any) - #60938 (rustdoc: make #[doc(include)] relative to the containing file) - #61884 (Stablize Euclidean Modulo (feature euclidean_division)) - #61890 (Fix some sanity checks) - #62528 (Add joining slices of slices with a slice separator, not just a single item) - #62707 (Add tests for overlapping explicitly dropped locals in generators) - #62735 (Turn `#[global_allocator]` into a regular attribute macro) - #62822 (Improve some pointer-related documentation) - #62887 (Make the parser TokenStream more resilient after mismatched delimiter recovery) - #62921 (Add method disambiguation help for trait implementation) - #62930 (Add test for #51559) - #62942 (Use match ergonomics in Condvar documentation) - #62977 (Fix inconsistent highlight blocks.) - #62978 (Remove `cfg(bootstrap)` code for array implementations) - #62981 (Add note suggesting to borrow a String argument to find) Failed merges: - #62964 (clarify and unify some type test names) r? @ghost
Pkgsrc changes: * Adapt to the move of the implementation of random numbers. * Remove patch which is no longer relevant (Signals.inc) * Cross-build currently fails due to the still unresolved rust-lang/rust#62558, so bootstrap kits for 1.38.0 have to be built natively, and will follow shortly. * Bump bootstrap requirements to 1.37.0 except for armv7-unknown-netbsd-eabihf which I've neither managed to cross-build nor build natively. Upstream changes: Version 1.38.0 (2019-09-26) ========================== Language -------- - [The `#[global_allocator]` attribute can now be used in submodules.][62735] - [The `#[deprecated]` attribute can now be used on macros.][62042] Compiler -------- - [Added pipelined compilation support to `rustc`.][62766] This will improve compilation times in some cases. For further information please refer to the [_"Evaluating pipelined rustc compilation"_][pipeline-internals] thread. - [Added tier 3\* support for the `aarch64-uwp-windows-msvc`, `i686-uwp-windows-gnu`, `i686-uwp-windows-msvc`, `x86_64-uwp-windows-gnu`, and `x86_64-uwp-windows-msvc` targets.][60260] - [Added tier 3 support for the `armv7-unknown-linux-gnueabi` and `armv7-unknown-linux-musleabi` targets.][63107] - [Added tier 3 support for the `hexagon-unknown-linux-musl` target.][62814] - [Added tier 3 support for the `riscv32i-unknown-none-elf` target.][62784] \* Refer to Rust's [platform support page][forge-platform-support] for more information on Rust's tiered platform support. Libraries --------- - [`ascii::EscapeDefault` now implements `Clone` and `Display`.][63421] - [Derive macros for prelude traits (e.g. `Clone`, `Debug`, `Hash`) are now available at the same path as the trait.][63056] (e.g. The `Clone` derive macro is available at `std::clone::Clone`). This also makes all built-in macros available in `std`/`core` root. e.g. `std::include_bytes!`. - [`str::Chars` now implements `Debug`.][63000] - [`slice::{concat, connect, join}` now accepts `&[T]` in addition to `&T`.][62528] - [`*const T` and `*mut T` now implement `marker::Unpin`.][62583] - [`Arc<[T]>` and `Rc<[T]>` now implement `FromIterator<T>`.][61953] - [Added euclidean remainder and division operations (`div_euclid`, `rem_euclid`) to all numeric primitives.][61884] Additionally `checked`, `overflowing`, and `wrapping` versions are available for all integer primitives. - [`thread::AccessError` now implements `Clone`, `Copy`, `Eq`, `Error`, and `PartialEq`.][61491] - [`iter::{StepBy, Peekable, Take}` now implement `DoubleEndedIterator`.][61457] Stabilized APIs --------------- - [`<*const T>::cast`] - [`<*mut T>::cast`] - [`Duration::as_secs_f32`] - [`Duration::as_secs_f64`] - [`Duration::div_duration_f32`] - [`Duration::div_duration_f64`] - [`Duration::div_f32`] - [`Duration::div_f64`] - [`Duration::from_secs_f32`] - [`Duration::from_secs_f64`] - [`Duration::mul_f32`] - [`Duration::mul_f64`] - [`any::type_name`] Cargo ----- - [Added pipelined compilation support to `cargo`.][cargo/7143] - [You can now pass the `--features` option multiple times to enable multiple features.][cargo/7084] Misc ---- - [`rustc` will now warn about some incorrect uses of `mem::{uninitialized, zeroed}` that are known to cause undefined behaviour.][63346] Compatibility Notes ------------------- - Unfortunately the [`x86_64-unknown-uefi` platform can not be built][62785] with rustc 1.39.0. - The [`armv7-unknown-linux-gnueabihf` platform is also known to have issues][62896] for certain crates such as libc. [60260]: rust-lang/rust#60260 [61457]: rust-lang/rust#61457 [61491]: rust-lang/rust#61491 [61884]: rust-lang/rust#61884 [61953]: rust-lang/rust#61953 [62042]: rust-lang/rust#62042 [62528]: rust-lang/rust#62528 [62583]: rust-lang/rust#62583 [62735]: rust-lang/rust#62735 [62766]: rust-lang/rust#62766 [62784]: rust-lang/rust#62784 [62785]: rust-lang/rust#62785 [62814]: rust-lang/rust#62814 [62896]: rust-lang/rust#62896 [63000]: rust-lang/rust#63000 [63056]: rust-lang/rust#63056 [63107]: rust-lang/rust#63107 [63346]: rust-lang/rust#63346 [63421]: rust-lang/rust#63421 [cargo/7084]: rust-lang/cargo#7084 [cargo/7143]: rust-lang/cargo#7143 [`<*const T>::cast`]: https://doc.rust-lang.org/std/primitive.pointer.html#method.cast [`<*mut T>::cast`]: https://doc.rust-lang.org/std/primitive.pointer.html#method.cast [`Duration::as_secs_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.as_secs_f32 [`Duration::as_secs_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.as_secs_f64 [`Duration::div_duration_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_duration_f32 [`Duration::div_duration_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_duration_f64 [`Duration::div_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_f32 [`Duration::div_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_f64 [`Duration::from_secs_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.from_secs_f32 [`Duration::from_secs_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.from_secs_f64 [`Duration::mul_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.mul_f32 [`Duration::mul_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.mul_f64 [`any::type_name`]: https://doc.rust-lang.org/std/any/fn.type_name.html [forge-platform-support]: https://forge.rust-lang.org/platform-support.html [pipeline-internals]: https://internals.rust-lang.org/t/evaluating-pipelined-rustc-compilation/10199
Pkgsrc changes: * Adapt to the move of the implementation of random numbers. * Remove patch which is no longer relevant (Signals.inc) * Cross-build currently fails due to the still unresolved rust-lang/rust#62558, so bootstrap kits for 1.38.0 have to be built natively, and will follow shortly. * Bump bootstrap requirements to 1.37.0 except for armv7-unknown-netbsd-eabihf which I've neither managed to cross-build nor build natively. Upstream changes: Version 1.38.0 (2019-09-26) ========================== Language -------- - [The `#[global_allocator]` attribute can now be used in submodules.][62735] - [The `#[deprecated]` attribute can now be used on macros.][62042] Compiler -------- - [Added pipelined compilation support to `rustc`.][62766] This will improve compilation times in some cases. For further information please refer to the [_"Evaluating pipelined rustc compilation"_][pipeline-internals] thread. - [Added tier 3\* support for the `aarch64-uwp-windows-msvc`, `i686-uwp-windows-gnu`, `i686-uwp-windows-msvc`, `x86_64-uwp-windows-gnu`, and `x86_64-uwp-windows-msvc` targets.][60260] - [Added tier 3 support for the `armv7-unknown-linux-gnueabi` and `armv7-unknown-linux-musleabi` targets.][63107] - [Added tier 3 support for the `hexagon-unknown-linux-musl` target.][62814] - [Added tier 3 support for the `riscv32i-unknown-none-elf` target.][62784] \* Refer to Rust's [platform support page][forge-platform-support] for more information on Rust's tiered platform support. Libraries --------- - [`ascii::EscapeDefault` now implements `Clone` and `Display`.][63421] - [Derive macros for prelude traits (e.g. `Clone`, `Debug`, `Hash`) are now available at the same path as the trait.][63056] (e.g. The `Clone` derive macro is available at `std::clone::Clone`). This also makes all built-in macros available in `std`/`core` root. e.g. `std::include_bytes!`. - [`str::Chars` now implements `Debug`.][63000] - [`slice::{concat, connect, join}` now accepts `&[T]` in addition to `&T`.][62528] - [`*const T` and `*mut T` now implement `marker::Unpin`.][62583] - [`Arc<[T]>` and `Rc<[T]>` now implement `FromIterator<T>`.][61953] - [Added euclidean remainder and division operations (`div_euclid`, `rem_euclid`) to all numeric primitives.][61884] Additionally `checked`, `overflowing`, and `wrapping` versions are available for all integer primitives. - [`thread::AccessError` now implements `Clone`, `Copy`, `Eq`, `Error`, and `PartialEq`.][61491] - [`iter::{StepBy, Peekable, Take}` now implement `DoubleEndedIterator`.][61457] Stabilized APIs --------------- - [`<*const T>::cast`] - [`<*mut T>::cast`] - [`Duration::as_secs_f32`] - [`Duration::as_secs_f64`] - [`Duration::div_duration_f32`] - [`Duration::div_duration_f64`] - [`Duration::div_f32`] - [`Duration::div_f64`] - [`Duration::from_secs_f32`] - [`Duration::from_secs_f64`] - [`Duration::mul_f32`] - [`Duration::mul_f64`] - [`any::type_name`] Cargo ----- - [Added pipelined compilation support to `cargo`.][cargo/7143] - [You can now pass the `--features` option multiple times to enable multiple features.][cargo/7084] Misc ---- - [`rustc` will now warn about some incorrect uses of `mem::{uninitialized, zeroed}` that are known to cause undefined behaviour.][63346] Compatibility Notes ------------------- - Unfortunately the [`x86_64-unknown-uefi` platform can not be built][62785] with rustc 1.39.0. - The [`armv7-unknown-linux-gnueabihf` platform is also known to have issues][62896] for certain crates such as libc. [60260]: rust-lang/rust#60260 [61457]: rust-lang/rust#61457 [61491]: rust-lang/rust#61491 [61884]: rust-lang/rust#61884 [61953]: rust-lang/rust#61953 [62042]: rust-lang/rust#62042 [62528]: rust-lang/rust#62528 [62583]: rust-lang/rust#62583 [62735]: rust-lang/rust#62735 [62766]: rust-lang/rust#62766 [62784]: rust-lang/rust#62784 [62785]: rust-lang/rust#62785 [62814]: rust-lang/rust#62814 [62896]: rust-lang/rust#62896 [63000]: rust-lang/rust#63000 [63056]: rust-lang/rust#63056 [63107]: rust-lang/rust#63107 [63346]: rust-lang/rust#63346 [63421]: rust-lang/rust#63421 [cargo/7084]: rust-lang/cargo#7084 [cargo/7143]: rust-lang/cargo#7143 [`<*const T>::cast`]: https://doc.rust-lang.org/std/primitive.pointer.html#method.cast [`<*mut T>::cast`]: https://doc.rust-lang.org/std/primitive.pointer.html#method.cast [`Duration::as_secs_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.as_secs_f32 [`Duration::as_secs_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.as_secs_f64 [`Duration::div_duration_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_duration_f32 [`Duration::div_duration_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_duration_f64 [`Duration::div_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_f32 [`Duration::div_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.div_f64 [`Duration::from_secs_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.from_secs_f32 [`Duration::from_secs_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.from_secs_f64 [`Duration::mul_f32`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.mul_f32 [`Duration::mul_f64`]: https://doc.rust-lang.org/std/time/struct.Duration.html#method.mul_f64 [`any::type_name`]: https://doc.rust-lang.org/std/any/fn.type_name.html [forge-platform-support]: https://forge.rust-lang.org/platform-support.html [pipeline-internals]: https://internals.rust-lang.org/t/evaluating-pipelined-rustc-compilation/10199
#27747 (comment)
This turns out to be fixable, with some possible inference regressions.
TL;DR
Related trait(s) are unstable and tracked at #27747, but the
[T]::join
method that is being extended here is already stable.Example use of the new insta-stable functionality:
Complete API affected by this PR, after changes:
Details
After #62403 but before this PR, the API is:
By adding a trait impl we should be able to accept a slice of
T
as the separator, as an alternative to a singleT
value.In a
some_slice.join(some_separator)
call, trait resolution will pick an impl or the other based on the type ofsome_separator
. Insome_slice.concat()
however there is no separator, so this call would become ambiguous. Some regression in type inference or trait resolution may be acceptable on principle, but requiring a turbofish for every single call toconcat
isn’t great.The solution to that is splitting the
SliceConcat
trait into twoConcat
andJoin
traits, one for each eponymous method. OnlyJoin
would gain a new impl, so thatsome_slice.concat()
would not become ambiguous.Now, at the trait level the
Concat
trait does not need aSeparator
parameter anymore. However, simply removing it causes one of the impls not to be accepted anymore:This makes sense: if
[V]::concat
is a method that is itself not generic, then its return type (which is theConcat::Output
associated type) needs to be determined based on solelyV
. And although there is no such type in the standard library, there is nothing stopping another crate from defining aV
type that implements bothBorrow<[Foo]>
andBorrow<[Bar]>
. It might not be a good idea, but it’s possible. Both would apply here, and there would be no way to determineT
.This could be a warning sign that this API is too generic. Perhaps we’d be better off having one less type variable, and only implement
Concat for [&'_ [T]]
andConcat for [Vec<T>]
etc. However this aspect of[V]::concat
is already stable, so we’re stuck with it.The solution is to keep a dummy type parameter on the
Concat
trait. That way, if a type has multipleBorrow<[_]>
impls, it’ll end up with multiple correspondingConcat<_>
impls.In
impl<S: Borrow<str>> Concat<str> for [S]
, the second occurrence ofstr
is not meaningful. It could be any type. As long as there is only once such type with an applicable impl, trait resolution will be appeased without demanding turbofishes.Joining strings with
char
For symmetry I also tried adding this impl (because why not):
This immediately caused an inference regression in a dependency of rustc:
In the context of this code, two facts are known:
desc_rows
is aVec<String>
desc_sep
is aString
Previously the first fact alone reduces the resolution of
join
to only one solution, where its argument it expected to be&str
. Then,&String
is coerced to&str
.With the new
Join
impl, the first fact leavs two applicable impls where the separator can be either&str
orchar
. But&String
is neither of these things. It appears that possible coercions are not accounted for, in the search for a solution in trait resolution.I have not included this new impl in this PR. It’s still possible to add later, but the
getopts
breakage does not need to block the rest of the PR. And the functionality easy for end-user to duplicate:slice_of_strings.join(&*char_separator.encode_utf8(&mut [0_u8, 4]))
The
&*
part of that last code snippet is another case of the same issue:encode_utf8
returns&mut str
which can be coerced to&str
, but isn’t when trait resolution is ambiguous.