src/librustc_passes/diagnostics.rs - third_party/rust - Git at Google

 // Copyright 2015 The Rust Project Developers. See the COPYRIGHT
 // file at the top-level directory of this distribution and at
 // http://rust-lang.org/COPYRIGHT.
 //
 // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
 // http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
 // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
 // option. This file may not be copied, modified, or distributed
 // except according to those terms.

 #![allow(non_snake_case)]

 register_long_diagnostics! {
 /*
 E0014: r##"
 Constants can only be initialized by a constant value or, in a future
 version of Rust, a call to a const function. This error indicates the use
 of a path (like a::b, or x) denoting something other than one of these
 allowed items. Erroneous code xample:

 ```compile_fail
 const FOO: i32 = { let x = 0; x }; // 'x' isn't a constant nor a function!
 ```

 To avoid it, you have to replace the non-constant value:

 ```
 const FOO: i32 = { const X : i32 = 0; X };
 // or even:
 const FOO2: i32 = { 0 }; // but brackets are useless here
 ```
 "##,
 */
 E0030: r##"
 When matching against a range, the compiler verifies that the range is
 non-empty.  Range patterns include both end-points, so this is equivalent to
 requiring the start of the range to be less than or equal to the end of the
 range.

 For example:

 ```compile_fail
 match 5u32 {
     // This range is ok, albeit pointless.
     1 ... 1 => {}
     // This range is empty, and the compiler can tell.
     1000 ... 5 => {}
 }
 ```
 "##,

 E0130: r##"
 You declared a pattern as an argument in a foreign function declaration.
 Erroneous code example:

 ```compile_fail
 extern {
     fn foo((a, b): (u32, u32)); // error: patterns aren't allowed in foreign
                                 //        function declarations
 }
 ```

 Please replace the pattern argument with a regular one. Example:

 ```
 struct SomeStruct {
     a: u32,
     b: u32,
 }

 extern {
     fn foo(s: SomeStruct); // ok!
 }
 ```

 Or:

 ```
 extern {
     fn foo(a: (u32, u32)); // ok!
 }
 ```
 "##,

 E0161: r##"
 A value was moved. However, its size was not known at compile time, and only
 values of a known size can be moved.

 Erroneous code example:

 ```compile_fail
 #![feature(box_syntax)]

 fn main() {
     let array: &[isize] = &[1, 2, 3];
     let _x: Box<[isize]> = box *array;
     // error: cannot move a value of type [isize]: the size of [isize] cannot
     //        be statically determined
 }
 ```

 In Rust, you can only move a value when its size is known at compile time.

 To work around this restriction, consider "hiding" the value behind a reference:
 either `&x` or `&mut x`. Since a reference has a fixed size, this lets you move
 it around as usual. Example:

 ```
 #![feature(box_syntax)]

 fn main() {
     let array: &[isize] = &[1, 2, 3];
     let _x: Box<&[isize]> = box array; // ok!
 }
 ```
 "##,

 E0265: r##"
 This error indicates that a static or constant references itself.
 All statics and constants need to resolve to a value in an acyclic manner.

 For example, neither of the following can be sensibly compiled:

 ```compile_fail
 const X: u32 = X;
 ```

 ```compile_fail
 const X: u32 = Y;
 const Y: u32 = X;
 ```
 "##,

 E0267: r##"
 This error indicates the use of a loop keyword (`break` or `continue`) inside a
 closure but outside of any loop. Erroneous code example:

 ```compile_fail
 let w = || { break; }; // error: `break` inside of a closure
 ```

 `break` and `continue` keywords can be used as normal inside closures as long as
 they are also contained within a loop. To halt the execution of a closure you
 should instead use a return statement. Example:

 ```
 let w = || {
     for _ in 0..10 {
         break;
     }
 };

 w();
 ```
 "##,

 E0268: r##"
 This error indicates the use of a loop keyword (`break` or `continue`) outside
 of a loop. Without a loop to break out of or continue in, no sensible action can
 be taken. Erroneous code example:

 ```compile_fail
 fn some_func() {
     break; // error: `break` outside of loop
 }
 ```

 Please verify that you are using `break` and `continue` only in loops. Example:

 ```
 fn some_func() {
     for _ in 0..10 {
         break; // ok!
     }
 }
 ```
 "##,

 E0449: r##"
 A visibility qualifier was used when it was unnecessary. Erroneous code
 examples:

 ```compile_fail
 struct Bar;

 trait Foo {
     fn foo();
 }

 pub impl Bar {} // error: unnecessary visibility qualifier

 pub impl Foo for Bar { // error: unnecessary visibility qualifier
     pub fn foo() {} // error: unnecessary visibility qualifier
 }
 ```

 To fix this error, please remove the visibility qualifier when it is not
 required. Example:

 ```ignore
 struct Bar;

 trait Foo {
     fn foo();
 }

 // Directly implemented methods share the visibility of the type itself,
 // so `pub` is unnecessary here
 impl Bar {}

 // Trait methods share the visibility of the trait, so `pub` is
 // unnecessary in either case
 pub impl Foo for Bar {
     pub fn foo() {}
 }
 ```
 "##,

 }

 register_diagnostics! {
     E0472, // asm! is unsupported on this target
     E0561, // patterns aren't allowed in function pointer types
 }
	// Copyright 2015 The Rust Project Developers. See the COPYRIGHT
	// file at the top-level directory of this distribution and at
	// http://rust-lang.org/COPYRIGHT.
	//
	// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
	// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
	// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
	// option. This file may not be copied, modified, or distributed
	// except according to those terms.

	#![allow(non_snake_case)]

	register_long_diagnostics! {
	/*
	E0014: r##"
	Constants can only be initialized by a constant value or, in a future
	version of Rust, a call to a const function. This error indicates the use
	of a path (like a::b, or x) denoting something other than one of these
	allowed items. Erroneous code xample:

	```compile_fail
	const FOO: i32 = { let x = 0; x }; // 'x' isn't a constant nor a function!
	```

	To avoid it, you have to replace the non-constant value:

	```
	const FOO: i32 = { const X : i32 = 0; X };
	// or even:
	const FOO2: i32 = { 0 }; // but brackets are useless here
	```
	"##,
	*/
	E0030: r##"
	When matching against a range, the compiler verifies that the range is
	non-empty. Range patterns include both end-points, so this is equivalent to
	requiring the start of the range to be less than or equal to the end of the
	range.

	For example:

	```compile_fail
	match 5u32 {
	// This range is ok, albeit pointless.
	1 ... 1 => {}
	// This range is empty, and the compiler can tell.
	1000 ... 5 => {}
	}
	```
	"##,

	E0130: r##"
	You declared a pattern as an argument in a foreign function declaration.
	Erroneous code example:

	```compile_fail
	extern {
	fn foo((a, b): (u32, u32)); // error: patterns aren't allowed in foreign
	// function declarations
	}
	```

	Please replace the pattern argument with a regular one. Example:

	```
	struct SomeStruct {
	a: u32,
	b: u32,
	}

	extern {
	fn foo(s: SomeStruct); // ok!
	}
	```

	Or:

	```
	extern {
	fn foo(a: (u32, u32)); // ok!
	}
	```
	"##,

	E0161: r##"
	A value was moved. However, its size was not known at compile time, and only
	values of a known size can be moved.

	Erroneous code example:

	```compile_fail
	#![feature(box_syntax)]

	fn main() {
	let array: &[isize] = &[1, 2, 3];
	let _x: Box<[isize]> = box *array;
	// error: cannot move a value of type [isize]: the size of [isize] cannot
	// be statically determined
	}
	```

	In Rust, you can only move a value when its size is known at compile time.

	To work around this restriction, consider "hiding" the value behind a reference:
	either `&x` or `&mut x`. Since a reference has a fixed size, this lets you move
	it around as usual. Example:

	```
	#![feature(box_syntax)]

	fn main() {
	let array: &[isize] = &[1, 2, 3];
	let _x: Box<&[isize]> = box array; // ok!
	}
	```
	"##,

	E0265: r##"
	This error indicates that a static or constant references itself.
	All statics and constants need to resolve to a value in an acyclic manner.

	For example, neither of the following can be sensibly compiled:

	```compile_fail
	const X: u32 = X;
	```

	```compile_fail
	const X: u32 = Y;
	const Y: u32 = X;
	```
	"##,

	E0267: r##"
	This error indicates the use of a loop keyword (`break` or `continue`) inside a
	closure but outside of any loop. Erroneous code example:

	```compile_fail
	let w = \|\| { break; }; // error: `break` inside of a closure
	```

	`break` and `continue` keywords can be used as normal inside closures as long as
	they are also contained within a loop. To halt the execution of a closure you
	should instead use a return statement. Example:

	```
	let w = \|\| {
	for _ in 0..10 {
	break;
	}
	};

	w();
	```
	"##,

	E0268: r##"
	This error indicates the use of a loop keyword (`break` or `continue`) outside
	of a loop. Without a loop to break out of or continue in, no sensible action can
	be taken. Erroneous code example:

	```compile_fail
	fn some_func() {
	break; // error: `break` outside of loop
	}
	```

	Please verify that you are using `break` and `continue` only in loops. Example:

	```
	fn some_func() {
	for _ in 0..10 {
	break; // ok!
	}
	}
	```
	"##,

	E0449: r##"
	A visibility qualifier was used when it was unnecessary. Erroneous code
	examples:

	```compile_fail
	struct Bar;

	trait Foo {
	fn foo();
	}

	pub impl Bar {} // error: unnecessary visibility qualifier

	pub impl Foo for Bar { // error: unnecessary visibility qualifier
	pub fn foo() {} // error: unnecessary visibility qualifier
	}
	```

	To fix this error, please remove the visibility qualifier when it is not
	required. Example:

	```ignore
	struct Bar;

	trait Foo {
	fn foo();
	}

	// Directly implemented methods share the visibility of the type itself,
	// so `pub` is unnecessary here
	impl Bar {}

	// Trait methods share the visibility of the trait, so `pub` is
	// unnecessary in either case
	pub impl Foo for Bar {
	pub fn foo() {}
	}
	```
	"##,

	}

	register_diagnostics! {
	E0472, // asm! is unsupported on this target
	E0561, // patterns aren't allowed in function pointer types
	}