// option. This file may not be copied, modified, or distributed
// except according to those terms.
-/*!
-
-Defines the `Ord` and `Eq` comparison traits.
-
-This module defines both `Ord` and `Eq` traits which are used by the compiler
-to implement comparison operators.
-Rust programs may implement `Ord` to overload the `<`, `<=`, `>`, and `>=` operators,
-and may implement `Eq` to overload the `==` and `!=` operators.
-
-For example, to define a type with a customized definition for the Eq operators,
-you could do the following:
-
-```rust
-// Our type.
-struct SketchyNum {
- num : int
-}
-
-// Our implementation of `Eq` to support `==` and `!=`.
-impl Eq for SketchyNum {
- // Our custom eq allows numbers which are near eachother to be equal! :D
- fn eq(&self, other: &SketchyNum) -> bool {
- (self.num - other.num).abs() < 5
- }
-}
-
-// Now these binary operators will work when applied!
-assert!(SketchyNum {num: 37} == SketchyNum {num: 34});
-assert!(SketchyNum {num: 25} != SketchyNum {num: 57});
-```
-
-*/
-
-/**
-* Trait for values that can be compared for equality and inequality.
-*
-* This trait allows partial equality, where types can be unordered instead of strictly equal or
-* unequal. For example, with the built-in floating-point types `a == b` and `a != b` will both
-* evaluate to false if either `a` or `b` is NaN (cf. IEEE 754-2008 section 5.11).
-*
-* Eq only requires the `eq` method to be implemented; `ne` is its negation by default.
-*
-* Eventually, this will be implemented by default for types that implement `TotalEq`.
-*/
+//! Defines the `Ord` and `Eq` comparison traits.
+//!
+//! This module defines both `Ord` and `Eq` traits which are used by the
+//! compiler to implement comparison operators. Rust programs may implement
+//!`Ord` to overload the `<`, `<=`, `>`, and `>=` operators, and may implement
+//! `Eq` to overload the `==` and `!=` operators.
+//!
+//! For example, to define a type with a customized definition for the Eq
+//! operators, you could do the following:
+//!
+//! ```rust
+//! // Our type.
+//! struct SketchyNum {
+//! num : int
+//! }
+//!
+//! // Our implementation of `Eq` to support `==` and `!=`.
+//! impl Eq for SketchyNum {
+//! // Our custom eq allows numbers which are near eachother to be equal! :D
+//! fn eq(&self, other: &SketchyNum) -> bool {
+//! (self.num - other.num).abs() < 5
+//! }
+//! }
+//!
+//! // Now these binary operators will work when applied!
+//! assert!(SketchyNum {num: 37} == SketchyNum {num: 34});
+//! assert!(SketchyNum {num: 25} != SketchyNum {num: 57});
+//! ```
+
+/// Trait for values that can be compared for equality and inequality.
+///
+/// This trait allows partial equality, where types can be unordered instead of
+/// strictly equal or unequal. For example, with the built-in floating-point
+/// types `a == b` and `a != b` will both evaluate to false if either `a` or
+/// `b` is NaN (cf. IEEE 754-2008 section 5.11).
+///
+/// Eq only requires the `eq` method to be implemented; `ne` is its negation by
+/// default.
+///
+/// Eventually, this will be implemented by default for types that implement
+/// `TotalEq`.
#[lang="eq"]
pub trait Eq {
/// This method tests for `self` and `other` values to be equal, and is used by `==`.
fn ne(&self, other: &Self) -> bool { !self.eq(other) }
}
-/**
- * Trait for equality comparisons which are [equivalence relations](
- * https://en.wikipedia.org/wiki/Equivalence_relation).
- *
- * This means, that in addition to `a == b` and `a != b` being strict inverses,
- * the equality must be (for all `a`, `b` and `c`):
- *
- * - reflexive: `a == a`;
- * - symmetric: `a == b` implies `b == a`; and
- * - transitive: `a == b` and `b == c` implies `a == c`.
- */
-
+/// Trait for equality comparisons which are [equivalence relations](
+/// https://en.wikipedia.org/wiki/Equivalence_relation).
+///
+/// This means, that in addition to `a == b` and `a != b` being strict
+/// inverses, the equality must be (for all `a`, `b` and `c`):
+///
+/// - reflexive: `a == a`;
+/// - symmetric: `a == b` implies `b == a`; and
+/// - transitive: `a == b` and `b == c` implies `a == c`.
pub trait TotalEq: Eq {
// FIXME #13101: this method is used solely by #[deriving] to
// assert that every component of a type implements #[deriving]
Greater = 1
}
-/**
- * Trait for types that form a [total order](
- * https://en.wikipedia.org/wiki/Total_order).
- *
- * An order is a total order if it is (for all `a`, `b` and `c`):
- *
- * - total and antisymmetric: exactly one of `a < b`, `a == b` or `a > b`
- * is true; and
- * - transitive, `a < b` and `b < c` implies `a < c`. The same must hold for
- * both `==` and `>`.
- */
+/// Trait for types that form a [total order](
+/// https://en.wikipedia.org/wiki/Total_order).
+///
+/// An order is a total order if it is (for all `a`, `b` and `c`):
+///
+/// - total and antisymmetric: exactly one of `a < b`, `a == b` or `a > b` is
+/// true; and
+/// - transitive, `a < b` and `b < c` implies `a < c`. The same must hold for
+/// both `==` and `>`.
pub trait TotalOrd: TotalEq + Ord {
/// This method returns an ordering between `self` and `other` values.
///
totalord_impl!(char)
-/**
- * Combine orderings, lexically.
- *
- * For example for a type `(int, int)`, two comparisons could be done.
- * If the first ordering is different, the first ordering is all that must be returned.
- * If the first ordering is equal, then second ordering is returned.
-*/
+/// Combine orderings, lexically.
+///
+/// For example for a type `(int, int)`, two comparisons could be done.
+/// If the first ordering is different, the first ordering is all that must be returned.
+/// If the first ordering is equal, then second ordering is returned.
#[inline]
pub fn lexical_ordering(o1: Ordering, o2: Ordering) -> Ordering {
match o1 {
}
}
-/**
-* Trait for values that can be compared for a sort-order.
-*
-* Ord only requires implementation of the `lt` method,
-* with the others generated from default implementations.
-*
-* However it remains possible to implement the others separately,
-* for compatibility with floating-point NaN semantics
-* (cf. IEEE 754-2008 section 5.11).
-*/
+/// Trait for values that can be compared for a sort-order.
+///
+/// Ord only requires implementation of the `lt` method,
+/// with the others generated from default implementations.
+///
+/// However it remains possible to implement the others separately,
+/// for compatibility with floating-point NaN semantics
+/// (cf. IEEE 754-2008 section 5.11).
#[lang="ord"]
pub trait Ord: Eq {
/// This method tests less than (for `self` and `other`) and is used by the `<` operator.
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