src/libcore/tuple.rs - rust - Git at Google

 // Copyright 2012 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.

 //! Operations on tuples

 use kinds::Copy;
 use vec;

 #[cfg(notest)] use cmp::{Eq, Ord};

 pub trait CopyableTuple<T, U> {
     fn first(&self) -> T;
     fn second(&self) -> U;
     fn swap(&self) -> (U, T);
 }

 impl<T:Copy,U:Copy> CopyableTuple<T, U> for (T, U) {

     /// Return the first element of self
     #[inline(always)]
     fn first(&self) -> T {
         let (t, _) = *self;
         return t;
     }

     /// Return the second element of self
     #[inline(always)]
     fn second(&self) -> U {
         let (_, u) = *self;
         return u;
     }

     /// Return the results of swapping the two elements of self
     #[inline(always)]
     fn swap(&self) -> (U, T) {
         let (t, u) = *self;
         return (u, t);
     }

 }

 pub trait ImmutableTuple<T, U> {
     fn first_ref(&self) -> &'self T;
     fn second_ref(&self) -> &'self U;
 }

 impl<T, U> ImmutableTuple<T, U> for (T, U) {
     #[inline(always)]
     fn first_ref(&self) -> &'self T {
         match *self {
             (ref t, _) => t,
         }
     }
     #[inline(always)]
     fn second_ref(&self) -> &'self U {
         match *self {
             (_, ref u) => u,
         }
     }
 }

 pub trait ExtendedTupleOps<A,B> {
     fn zip(&self) -> ~[(A, B)];
     fn map<C>(&self, f: &fn(a: &A, b: &B) -> C) -> ~[C];
 }

 impl<'self,A:Copy,B:Copy> ExtendedTupleOps<A,B> for (&'self [A], &'self [B]) {
     #[inline(always)]
     fn zip(&self) -> ~[(A, B)] {
         match *self {
             (ref a, ref b) => {
                 vec::zip_slice(*a, *b)
             }
         }
     }

     #[inline(always)]
     fn map<C>(&self, f: &fn(a: &A, b: &B) -> C) -> ~[C] {
         match *self {
             (ref a, ref b) => {
                 vec::map2(*a, *b, f)
             }
         }
     }
 }

 impl<A:Copy,B:Copy> ExtendedTupleOps<A,B> for (~[A], ~[B]) {

     #[inline(always)]
     fn zip(&self) -> ~[(A, B)] {
         match *self {
             (ref a, ref b) => {
                 vec::zip_slice(*a, *b)
             }
         }
     }

     #[inline(always)]
     fn map<C>(&self, f: &fn(a: &A, b: &B) -> C) -> ~[C] {
         match *self {
             (ref a, ref b) => {
                 vec::map2(*a, *b, f)
             }
         }
     }
 }

 #[cfg(notest)]
 impl<A:Eq> Eq for (A,) {
     #[inline(always)]
     fn eq(&self, other: &(A,)) -> bool {
         match (*self) {
             (ref self_a,) => match other {
                 &(ref other_a,) => {
                     (*self_a).eq(other_a)
                 }
             }
         }
     }
     #[inline(always)]
     fn ne(&self, other: &(A,)) -> bool { !(*self).eq(other) }
 }

 #[cfg(notest)]
 impl<A:Ord> Ord for (A,) {
     #[inline(always)]
     fn lt(&self, other: &(A,)) -> bool {
         match (*self) {
             (ref self_a,) => {
                 match (*other) {
                     (ref other_a,) => {
                         if (*self_a).lt(other_a) { return true; }
                         return false;
                     }
                 }
             }
         }
     }
     #[inline(always)]
     fn le(&self, other: &(A,)) -> bool { !other.lt(&(*self)) }
     #[inline(always)]
     fn ge(&self, other: &(A,)) -> bool { !self.lt(other) }
     #[inline(always)]
     fn gt(&self, other: &(A,)) -> bool { other.lt(&(*self))  }
 }


 #[cfg(notest)]
 impl<A:Eq,B:Eq> Eq for (A, B) {
     #[inline(always)]
     fn eq(&self, other: &(A, B)) -> bool {
         match (*self) {
             (ref self_a, ref self_b) => match other {
                 &(ref other_a, ref other_b) => {
                     (*self_a).eq(other_a) && (*self_b).eq(other_b)
                 }
             }
         }
     }
     #[inline(always)]
     fn ne(&self, other: &(A, B)) -> bool { !(*self).eq(other) }
 }

 #[cfg(notest)]
 impl<A:Ord,B:Ord> Ord for (A, B) {
     #[inline(always)]
     fn lt(&self, other: &(A, B)) -> bool {
         match (*self) {
             (ref self_a, ref self_b) => {
                 match (*other) {
                     (ref other_a, ref other_b) => {
                         if (*self_a).lt(other_a) { return true; }
                         if (*other_a).lt(self_a) { return false; }
                         if (*self_b).lt(other_b) { return true; }
                         return false;
                     }
                 }
             }
         }
     }
     #[inline(always)]
     fn le(&self, other: &(A, B)) -> bool { !(*other).lt(&(*self)) }
     #[inline(always)]
     fn ge(&self, other: &(A, B)) -> bool { !(*self).lt(other) }
     #[inline(always)]
     fn gt(&self, other: &(A, B)) -> bool { (*other).lt(&(*self))  }
 }

 #[cfg(notest)]
 impl<A:Eq,B:Eq,C:Eq> Eq for (A, B, C) {
     #[inline(always)]
     fn eq(&self, other: &(A, B, C)) -> bool {
         match (*self) {
             (ref self_a, ref self_b, ref self_c) => match other {
                 &(ref other_a, ref other_b, ref other_c) => {
                     (*self_a).eq(other_a) && (*self_b).eq(other_b)
                         && (*self_c).eq(other_c)
                 }
             }
         }
     }
     #[inline(always)]
     fn ne(&self, other: &(A, B, C)) -> bool { !(*self).eq(other) }
 }

 #[cfg(notest)]
 impl<A:Ord,B:Ord,C:Ord> Ord for (A, B, C) {
     #[inline(always)]
     fn lt(&self, other: &(A, B, C)) -> bool {
         match (*self) {
             (ref self_a, ref self_b, ref self_c) => {
                 match (*other) {
                     (ref other_a, ref other_b, ref other_c) => {
                         if (*self_a).lt(other_a) { return true; }
                         if (*other_a).lt(self_a) { return false; }
                         if (*self_b).lt(other_b) { return true; }
                         if (*other_b).lt(self_b) { return false; }
                         if (*self_c).lt(other_c) { return true; }
                         return false;
                     }
                 }
             }
         }
     }
     #[inline(always)]
     fn le(&self, other: &(A, B, C)) -> bool { !(*other).lt(&(*self)) }
     #[inline(always)]
     fn ge(&self, other: &(A, B, C)) -> bool { !(*self).lt(other) }
     #[inline(always)]
     fn gt(&self, other: &(A, B, C)) -> bool { (*other).lt(&(*self))  }
 }

 #[test]
 fn test_tuple_ref() {
     let x = (~"foo", ~"bar");
     assert!(x.first_ref() == &~"foo");
     assert!(x.second_ref() == &~"bar");
 }

 #[test]
 #[allow(non_implicitly_copyable_typarams)]
 fn test_tuple() {
     assert!((948, 4039.48).first() == 948);
     assert!((34.5, ~"foo").second() == ~"foo");
     assert!(('a', 2).swap() == (2, 'a'));
 }
	// Copyright 2012 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.

	//! Operations on tuples

	use kinds::Copy;
	use vec;

	#[cfg(notest)] use cmp::{Eq, Ord};

	pub trait CopyableTuple<T, U> {
	fn first(&self) -> T;
	fn second(&self) -> U;
	fn swap(&self) -> (U, T);
	}

	impl<T:Copy,U:Copy> CopyableTuple<T, U> for (T, U) {

	/// Return the first element of self
	#[inline(always)]
	fn first(&self) -> T {
	let (t, _) = *self;
	return t;
	}

	/// Return the second element of self
	#[inline(always)]
	fn second(&self) -> U {
	let (_, u) = *self;
	return u;
	}

	/// Return the results of swapping the two elements of self
	#[inline(always)]
	fn swap(&self) -> (U, T) {
	let (t, u) = *self;
	return (u, t);
	}

	}

	pub trait ImmutableTuple<T, U> {
	fn first_ref(&self) -> &'self T;
	fn second_ref(&self) -> &'self U;
	}

	impl<T, U> ImmutableTuple<T, U> for (T, U) {
	#[inline(always)]
	fn first_ref(&self) -> &'self T {
	match *self {
	(ref t, _) => t,
	}
	}
	#[inline(always)]
	fn second_ref(&self) -> &'self U {
	match *self {
	(_, ref u) => u,
	}
	}
	}

	pub trait ExtendedTupleOps<A,B> {
	fn zip(&self) -> ~[(A, B)];
	fn map<C>(&self, f: &fn(a: &A, b: &B) -> C) -> ~[C];
	}

	impl<'self,A:Copy,B:Copy> ExtendedTupleOps<A,B> for (&'self [A], &'self [B]) {
	#[inline(always)]
	fn zip(&self) -> ~[(A, B)] {
	match *self {
	(ref a, ref b) => {
	vec::zip_slice(a, b)
	}
	}
	}

	#[inline(always)]
	fn map<C>(&self, f: &fn(a: &A, b: &B) -> C) -> ~[C] {
	match *self {
	(ref a, ref b) => {
	vec::map2(a, b, f)
	}
	}
	}
	}

	impl<A:Copy,B:Copy> ExtendedTupleOps<A,B> for (~[A], ~[B]) {

	#[inline(always)]
	fn zip(&self) -> ~[(A, B)] {
	match *self {
	(ref a, ref b) => {
	vec::zip_slice(a, b)
	}
	}
	}

	#[inline(always)]
	fn map<C>(&self, f: &fn(a: &A, b: &B) -> C) -> ~[C] {
	match *self {
	(ref a, ref b) => {
	vec::map2(a, b, f)
	}
	}
	}
	}

	#[cfg(notest)]
	impl<A:Eq> Eq for (A,) {
	#[inline(always)]
	fn eq(&self, other: &(A,)) -> bool {
	match (*self) {
	(ref self_a,) => match other {
	&(ref other_a,) => {
	(*self_a).eq(other_a)
	}
	}
	}
	}
	#[inline(always)]
	fn ne(&self, other: &(A,)) -> bool { !(*self).eq(other) }
	}

	#[cfg(notest)]
	impl<A:Ord> Ord for (A,) {
	#[inline(always)]
	fn lt(&self, other: &(A,)) -> bool {
	match (*self) {
	(ref self_a,) => {
	match (*other) {
	(ref other_a,) => {
	if (*self_a).lt(other_a) { return true; }
	return false;
	}
	}
	}
	}
	}
	#[inline(always)]
	fn le(&self, other: &(A,)) -> bool { !other.lt(&(*self)) }
	#[inline(always)]
	fn ge(&self, other: &(A,)) -> bool { !self.lt(other) }
	#[inline(always)]
	fn gt(&self, other: &(A,)) -> bool { other.lt(&(*self)) }
	}


	#[cfg(notest)]
	impl<A:Eq,B:Eq> Eq for (A, B) {
	#[inline(always)]
	fn eq(&self, other: &(A, B)) -> bool {
	match (*self) {
	(ref self_a, ref self_b) => match other {
	&(ref other_a, ref other_b) => {
	(self_a).eq(other_a) && (self_b).eq(other_b)
	}
	}
	}
	}
	#[inline(always)]
	fn ne(&self, other: &(A, B)) -> bool { !(*self).eq(other) }
	}

	#[cfg(notest)]
	impl<A:Ord,B:Ord> Ord for (A, B) {
	#[inline(always)]
	fn lt(&self, other: &(A, B)) -> bool {
	match (*self) {
	(ref self_a, ref self_b) => {
	match (*other) {
	(ref other_a, ref other_b) => {
	if (*self_a).lt(other_a) { return true; }
	if (*other_a).lt(self_a) { return false; }
	if (*self_b).lt(other_b) { return true; }
	return false;
	}
	}
	}
	}
	}
	#[inline(always)]
	fn le(&self, other: &(A, B)) -> bool { !(other).lt(&(self)) }
	#[inline(always)]
	fn ge(&self, other: &(A, B)) -> bool { !(*self).lt(other) }
	#[inline(always)]
	fn gt(&self, other: &(A, B)) -> bool { (other).lt(&(self)) }
	}

	#[cfg(notest)]
	impl<A:Eq,B:Eq,C:Eq> Eq for (A, B, C) {
	#[inline(always)]
	fn eq(&self, other: &(A, B, C)) -> bool {
	match (*self) {
	(ref self_a, ref self_b, ref self_c) => match other {
	&(ref other_a, ref other_b, ref other_c) => {
	(self_a).eq(other_a) && (self_b).eq(other_b)
	&& (*self_c).eq(other_c)
	}
	}
	}
	}
	#[inline(always)]
	fn ne(&self, other: &(A, B, C)) -> bool { !(*self).eq(other) }
	}

	#[cfg(notest)]
	impl<A:Ord,B:Ord,C:Ord> Ord for (A, B, C) {
	#[inline(always)]
	fn lt(&self, other: &(A, B, C)) -> bool {
	match (*self) {
	(ref self_a, ref self_b, ref self_c) => {
	match (*other) {
	(ref other_a, ref other_b, ref other_c) => {
	if (*self_a).lt(other_a) { return true; }
	if (*other_a).lt(self_a) { return false; }
	if (*self_b).lt(other_b) { return true; }
	if (*other_b).lt(self_b) { return false; }
	if (*self_c).lt(other_c) { return true; }
	return false;
	}
	}
	}
	}
	}
	#[inline(always)]
	fn le(&self, other: &(A, B, C)) -> bool { !(other).lt(&(self)) }
	#[inline(always)]
	fn ge(&self, other: &(A, B, C)) -> bool { !(*self).lt(other) }
	#[inline(always)]
	fn gt(&self, other: &(A, B, C)) -> bool { (other).lt(&(self)) }
	}

	#[test]
	fn test_tuple_ref() {
	let x = (~"foo", ~"bar");
	assert!(x.first_ref() == &~"foo");
	assert!(x.second_ref() == &~"bar");
	}

	#[test]
	#[allow(non_implicitly_copyable_typarams)]
	fn test_tuple() {
	assert!((948, 4039.48).first() == 948);
	assert!((34.5, ~"foo").second() == ~"foo");
	assert!(('a', 2).swap() == (2, 'a'));
	}