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tuple.rs
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// See src/libstd/primitive_docs.rs for documentation.
use crate::cmp::Ordering::*;
use crate::cmp::*;
// macro for implementing n-ary tuple functions and operations
macro_rules! tuple_impls {
( $( $Tuple:ident( $( $T:ident )+ ) )+ ) => {
$(
#[stable(feature = "rust1", since = "1.0.0")]
impl<$($T:PartialEq),+> PartialEq for ($($T,)+) where last_type!($($T,)+): ?Sized {
#[inline]
fn eq(&self, other: &($($T,)+)) -> bool {
$( ${ignore(T)} self.${index()} == other.${index()} )&&+
}
#[inline]
fn ne(&self, other: &($($T,)+)) -> bool {
$( ${ignore(T)} self.${index()} != other.${index()} )||+
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<$($T:Eq),+> Eq for ($($T,)+) where last_type!($($T,)+): ?Sized {}
#[stable(feature = "rust1", since = "1.0.0")]
impl<$($T:PartialOrd + PartialEq),+> PartialOrd for ($($T,)+)
where
last_type!($($T,)+): ?Sized
{
#[inline]
fn partial_cmp(&self, other: &($($T,)+)) -> Option<Ordering> {
lexical_partial_cmp!($( ${ignore(T)} self.${index()}, other.${index()} ),+)
}
#[inline]
fn lt(&self, other: &($($T,)+)) -> bool {
lexical_ord!(lt, $( ${ignore(T)} self.${index()}, other.${index()} ),+)
}
#[inline]
fn le(&self, other: &($($T,)+)) -> bool {
lexical_ord!(le, $( ${ignore(T)} self.${index()}, other.${index()} ),+)
}
#[inline]
fn ge(&self, other: &($($T,)+)) -> bool {
lexical_ord!(ge, $( ${ignore(T)} self.${index()}, other.${index()} ),+)
}
#[inline]
fn gt(&self, other: &($($T,)+)) -> bool {
lexical_ord!(gt, $( ${ignore(T)} self.${index()}, other.${index()} ),+)
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<$($T:Ord),+> Ord for ($($T,)+) where last_type!($($T,)+): ?Sized {
#[inline]
fn cmp(&self, other: &($($T,)+)) -> Ordering {
lexical_cmp!($( ${ignore(T)} self.${index()}, other.${index()} ),+)
}
}
#[stable(feature = "rust1", since = "1.0.0")]
impl<$($T:Default),+> Default for ($($T,)+) {
#[inline]
fn default() -> ($($T,)+) {
($({ let x: $T = Default::default(); x},)+)
}
}
)+
}
}
// Constructs an expression that performs a lexical ordering using method $rel.
// The values are interleaved, so the macro invocation for
// `(a1, a2, a3) < (b1, b2, b3)` would be `lexical_ord!(lt, a1, b1, a2, b2,
// a3, b3)` (and similarly for `lexical_cmp`)
macro_rules! lexical_ord {
($rel: ident, $a:expr, $b:expr, $($rest_a:expr, $rest_b:expr),+) => {
if $a != $b { lexical_ord!($rel, $a, $b) }
else { lexical_ord!($rel, $($rest_a, $rest_b),+) }
};
($rel: ident, $a:expr, $b:expr) => { ($a) . $rel (& $b) };
}
macro_rules! lexical_partial_cmp {
($a:expr, $b:expr, $($rest_a:expr, $rest_b:expr),+) => {
match ($a).partial_cmp(&$b) {
Some(Equal) => lexical_partial_cmp!($($rest_a, $rest_b),+),
ordering => ordering
}
};
($a:expr, $b:expr) => { ($a).partial_cmp(&$b) };
}
macro_rules! lexical_cmp {
($a:expr, $b:expr, $($rest_a:expr, $rest_b:expr),+) => {
match ($a).cmp(&$b) {
Equal => lexical_cmp!($($rest_a, $rest_b),+),
ordering => ordering
}
};
($a:expr, $b:expr) => { ($a).cmp(&$b) };
}
macro_rules! last_type {
($a:ident,) => { $a };
($a:ident, $($rest_a:ident,)+) => { last_type!($($rest_a,)+) };
}
tuple_impls! {
Tuple1(A)
Tuple2(A B)
Tuple3(A B C)
Tuple4(A B C D)
Tuple5(A B C D E)
Tuple6(A B C D E F)
Tuple7(A B C D E F G)
Tuple8(A B C D E F G H)
Tuple9(A B C D E F G H I)
Tuple10(A B C D E F G H I J)
Tuple11(A B C D E F G H I J K)
Tuple12(A B C D E F G H I J K L)
}