rust/tests/ui/issues/issue-3743.rs

// run-pass
// If `Mul` used an associated type for its output, this test would
// work more smoothly.

use std::ops::Mul;

#[derive(Copy, Clone)]
struct Vec2 {
    x: f64,
    y: f64
}

// methods we want to export as methods as well as operators
impl Vec2 {
#[inline(always)]
    fn vmul(self, other: f64) -> Vec2 {
        Vec2 { x: self.x * other, y: self.y * other }
    }
}

// Right-hand-side operator visitor pattern
trait RhsOfVec2Mul {
    type Result;

    fn mul_vec2_by(&self, lhs: &Vec2) -> Self::Result;
}

// Vec2's implementation of Mul "from the other side" using the above trait
impl<Res, Rhs: RhsOfVec2Mul<Result=Res>> Mul<Rhs> for Vec2 {
    type Output = Res;

    fn mul(self, rhs: Rhs) -> Res { rhs.mul_vec2_by(&self) }
}

// Implementation of 'f64 as right-hand-side of Vec2::Mul'
impl RhsOfVec2Mul for f64 {
    type Result = Vec2;

    fn mul_vec2_by(&self, lhs: &Vec2) -> Vec2 { lhs.vmul(*self) }
}

// Usage with failing inference
pub fn main() {
    let a = Vec2 { x: 3.0f64, y: 4.0f64 };

    // the following compiles and works properly
    let v1: Vec2 = a * 3.0f64;
    println!("{} {}", v1.x, v1.y);

    // the following compiles but v2 will not be Vec2 yet and
    // using it later will cause an error that the type of v2
    // must be known
    let v2 = a * 3.0f64;
    println!("{} {}", v2.x, v2.y); // error regarding v2's type
}
Add `// run-pass` annotations to all the tests under `ui/run-pass/`. (I may have accidentally added it to some auxilliary crates as well; my emacs-macro-based methodology was pretty crude.) 2018-08-30 12:18:55 +00:00			`// run-pass`
Fix orphan checking (cc #19470). (This is not a complete fix of #19470 because of the backwards compatibility feature gate.) This is a [breaking-change]. The new rules require that, for an impl of a trait defined in some other crate, two conditions must hold: 1. Some type must be local. 2. Every type parameter must appear "under" some local type. Here are some examples that are legal: ```rust struct MyStruct<T> { ... } // Here `T` appears "under' `MyStruct`. impl<T> Clone for MyStruct<T> { } // Here `T` appears "under' `MyStruct` as well. Note that it also appears // elsewhere. impl<T> Iterator<T> for MyStruct<T> { } ``` Here is an illegal example: ```rust // Here `U` does not appear "under" `MyStruct` or any other local type. // We call `U` "uncovered". impl<T,U> Iterator<U> for MyStruct<T> { } ``` There are a couple of ways to rewrite this last example so that it is legal: 1. In some cases, the uncovered type parameter (here, `U`) should be converted into an associated type. This is however a non-local change that requires access to the original trait. Also, associated types are not fully baked. 2. Add `U` as a type parameter of `MyStruct`: ```rust struct MyStruct<T,U> { ... } impl<T,U> Iterator<U> for MyStruct<T,U> { } ``` 3. Create a newtype wrapper for `U` ```rust impl<T,U> Iterator<Wrapper<U>> for MyStruct<T,U> { } ``` Because associated types are not fully baked, which in the case of the `Hash` trait makes adhering to this rule impossible, you can temporarily disable this rule in your crate by using `#![feature(old_orphan_check)]`. Note that the `old_orphan_check` feature will be removed before 1.0 is released. 2014-12-26 08:30:51 +00:00			// If `Mul` used an associated type for its output, this test would
			`// work more smoothly.`

std: Stabilize the prelude module This commit is an implementation of [RFC 503][rfc] which is a stabilization story for the prelude. Most of the RFC was directly applied, removing reexports. Some reexports are kept around, however: * `range` remains until range syntax has landed to reduce churn. * `Path` and `GenericPath` remain until path reform lands. This is done to prevent many imports of `GenericPath` which will soon be removed. * All `io` traits remain until I/O reform lands so imports can be rewritten all at once to `std::io::prelude::*`. This is a breaking change because many prelude reexports have been removed, and the RFC can be consulted for the exact list of removed reexports, as well as to find the locations of where to import them. [rfc]: https://github.com/rust-lang/rfcs/blob/master/text/0503-prelude-stabilization.md [breaking-change] Closes #20068 2014-12-22 17:04:23 +00:00			`use std::ops::Mul;`

Fallout in tests 2015-03-30 13:38:27 +00:00			`#[derive(Copy, Clone)]`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00			`struct Vec2 {`
remove the `float` type It is simply defined as `f64` across every platform right now. A use case hasn't been presented for a `float` type defined as the highest precision floating point type implemented in hardware on the platform. Performance-wise, using the smallest precision correct for the use case greatly saves on cache space and allows for fitting more numbers into SSE/AVX registers. If there was a use case, this could be implemented as simply a type alias or a struct thanks to `#[cfg(...)]`. Closes #6592 The mailing list thread, for reference: https://mail.mozilla.org/pipermail/rust-dev/2013-July/004632.html 2013-09-26 06:26:09 +00:00			`x: f64,`
			`y: f64`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00			`}`

			`// methods we want to export as methods as well as operators`
			`impl Vec2 {`
			`#[inline(always)]`
remove the `float` type It is simply defined as `f64` across every platform right now. A use case hasn't been presented for a `float` type defined as the highest precision floating point type implemented in hardware on the platform. Performance-wise, using the smallest precision correct for the use case greatly saves on cache space and allows for fitting more numbers into SSE/AVX registers. If there was a use case, this could be implemented as simply a type alias or a struct thanks to `#[cfg(...)]`. Closes #6592 The mailing list thread, for reference: https://mail.mozilla.org/pipermail/rust-dev/2013-July/004632.html 2013-09-26 06:26:09 +00:00			`fn vmul(self, other: f64) -> Vec2 {`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00			`Vec2 { x: self.x * other, y: self.y * other }`
			`}`
			`}`

			`// Right-hand-side operator visitor pattern`
Fix fallout in tests. 2015-01-05 20:56:07 +00:00			`trait RhsOfVec2Mul {`
			`type Result;`

			`fn mul_vec2_by(&self, lhs: &Vec2) -> Self::Result;`
			`}`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00
			`// Vec2's implementation of Mul "from the other side" using the above trait`
Fix fallout in tests. 2015-01-05 20:56:07 +00:00			`impl<Res, Rhs: RhsOfVec2Mul<Result=Res>> Mul<Rhs> for Vec2 {`
use assoc types in binop traits 2014-12-31 20:45:13 +00:00			`type Output = Res;`

Fix run-pass tests 2014-12-01 22:33:22 +00:00			`fn mul(self, rhs: Rhs) -> Res { rhs.mul_vec2_by(&self) }`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00			`}`

remove the `float` type It is simply defined as `f64` across every platform right now. A use case hasn't been presented for a `float` type defined as the highest precision floating point type implemented in hardware on the platform. Performance-wise, using the smallest precision correct for the use case greatly saves on cache space and allows for fitting more numbers into SSE/AVX registers. If there was a use case, this could be implemented as simply a type alias or a struct thanks to `#[cfg(...)]`. Closes #6592 The mailing list thread, for reference: https://mail.mozilla.org/pipermail/rust-dev/2013-July/004632.html 2013-09-26 06:26:09 +00:00			`// Implementation of 'f64 as right-hand-side of Vec2::Mul'`
Fix fallout in tests. 2015-01-05 20:56:07 +00:00			`impl RhsOfVec2Mul for f64 {`
			`type Result = Vec2;`

testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00			`fn mul_vec2_by(&self, lhs: &Vec2) -> Vec2 { lhs.vmul(*self) }`
			`}`

			`// Usage with failing inference`
			`pub fn main() {`
librustc: Remove the fallback to `int` from typechecking. This breaks a fair amount of code. The typical patterns are: * `for _ in range(0, 10)`: change to `for _ in range(0u, 10)`; * `println!("{}", 3)`: change to `println!("{}", 3i)`; * `[1, 2, 3].len()`: change to `[1i, 2, 3].len()`. RFC #30. Closes #6023. [breaking-change] 2014-04-21 21:58:52 +00:00			`let a = Vec2 { x: 3.0f64, y: 4.0f64 };`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00
			`// the following compiles and works properly`
librustc: Remove the fallback to `int` from typechecking. This breaks a fair amount of code. The typical patterns are: * `for _ in range(0, 10)`: change to `for _ in range(0u, 10)`; * `println!("{}", 3)`: change to `println!("{}", 3i)`; * `[1, 2, 3].len()`: change to `[1i, 2, 3].len()`. RFC #30. Closes #6023. [breaking-change] 2014-04-21 21:58:52 +00:00			`let v1: Vec2 = a * 3.0f64;`
Update the compiler to not use printf/printfln 2013-09-25 05:16:43 +00:00			`println!("{} {}", v1.x, v1.y);`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00
			`// the following compiles but v2 will not be Vec2 yet and`
			`// using it later will cause an error that the type of v2`
			`// must be known`
librustc: Remove the fallback to `int` from typechecking. This breaks a fair amount of code. The typical patterns are: * `for _ in range(0, 10)`: change to `for _ in range(0u, 10)`; * `println!("{}", 3)`: change to `println!("{}", 3i)`; * `[1, 2, 3].len()`: change to `[1i, 2, 3].len()`. RFC #30. Closes #6023. [breaking-change] 2014-04-21 21:58:52 +00:00			`let v2 = a * 3.0f64;`
Update the compiler to not use printf/printfln 2013-09-25 05:16:43 +00:00			`println!("{} {}", v2.x, v2.y); // error regarding v2's type`
testsuite: Add test cases that pass 2013-05-23 02:51:21 +00:00			`}`