rust/src/libstd/deque.rs

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// Copyright 2012-2013 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.
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//! A double-ended queue implemented as a circular buffer
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use core::util::replace;
static initial_capacity: uint = 32u; // 2^5
pub struct Deque<T> {
priv nelts: uint,
priv lo: uint,
priv hi: uint,
priv elts: ~[Option<T>]
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}
impl<T> Container for Deque<T> {
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/// Return the number of elements in the deque
fn len(&const self) -> uint { self.nelts }
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/// Return true if the deque contains no elements
fn is_empty(&const self) -> bool { self.len() == 0 }
}
impl<T> Mutable for Deque<T> {
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/// Clear the deque, removing all values.
fn clear(&mut self) {
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for self.elts.each_mut |x| { *x = None }
self.nelts = 0;
self.lo = 0;
self.hi = 0;
}
}
pub impl<T> Deque<T> {
/// Create an empty Deque
fn new() -> Deque<T> {
Deque{nelts: 0, lo: 0, hi: 0,
elts: vec::from_fn(initial_capacity, |_| None)}
}
/// Return a reference to the first element in the deque
///
/// Fails if the deque is empty
fn peek_front<'a>(&'a self) -> &'a T { get(self.elts, self.lo) }
/// Return a reference to the last element in the deque
///
/// Fails if the deque is empty
fn peek_back<'a>(&'a self) -> &'a T { get(self.elts, self.hi - 1u) }
/// Retrieve an element in the deque by index
///
/// Fails if there is no element with the given index
fn get<'a>(&'a self, i: int) -> &'a T {
let idx = (self.lo + (i as uint)) % self.elts.len();
get(self.elts, idx)
}
/// Iterate over the elements in the deque
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#[cfg(stage0)]
fn each(&self, f: &fn(&T) -> bool) {
self.eachi(|_i, e| f(e))
}
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/// Iterate over the elements in the deque
#[cfg(not(stage0))]
fn each(&self, f: &fn(&T) -> bool) -> bool {
self.eachi(|_i, e| f(e))
}
/// Iterate over the elements in the deque by index
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#[cfg(stage0)]
fn eachi(&self, f: &fn(uint, &T) -> bool) {
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uint::range(0, self.nelts, |i| f(i, self.get(i as int)))
}
/// Iterate over the elements in the deque by index
#[cfg(not(stage0))]
fn eachi(&self, f: &fn(uint, &T) -> bool) -> bool {
uint::range(0, self.nelts, |i| f(i, self.get(i as int)))
}
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/// Remove and return the first element in the deque
///
/// Fails if the deque is empty
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fn pop_front(&mut self) -> T {
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let result = self.elts[self.lo].swap_unwrap();
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self.lo = (self.lo + 1u) % self.elts.len();
self.nelts -= 1u;
result
}
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/// Remove and return the last element in the deque
///
/// Fails if the deque is empty
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fn pop_back(&mut self) -> T {
if self.hi == 0u {
self.hi = self.elts.len() - 1u;
} else { self.hi -= 1u; }
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let result = self.elts[self.hi].swap_unwrap();
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self.elts[self.hi] = None;
self.nelts -= 1u;
result
}
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/// Prepend an element to the deque
fn add_front(&mut self, t: T) {
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let oldlo = self.lo;
if self.lo == 0u {
self.lo = self.elts.len() - 1u;
} else { self.lo -= 1u; }
if self.lo == self.hi {
self.elts = grow(self.nelts, oldlo, self.elts);
self.lo = self.elts.len() - 1u;
self.hi = self.nelts;
}
self.elts[self.lo] = Some(t);
self.nelts += 1u;
}
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/// Append an element to the deque
fn add_back(&mut self, t: T) {
if self.lo == self.hi && self.nelts != 0u {
self.elts = grow(self.nelts, self.lo, self.elts);
self.lo = 0u;
self.hi = self.nelts;
}
self.elts[self.hi] = Some(t);
self.hi = (self.hi + 1u) % self.elts.len();
self.nelts += 1u;
}
}
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/// Grow is only called on full elts, so nelts is also len(elts), unlike
/// elsewhere.
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fn grow<T>(nelts: uint, lo: uint, elts: &mut [Option<T>]) -> ~[Option<T>] {
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assert!(nelts == elts.len());
let mut rv = ~[];
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do rv.grow_fn(nelts + 1) |i| {
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replace(&mut elts[(lo + i) % nelts], None)
}
rv
}
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fn get<'r, T>(elts: &'r [Option<T>], i: uint) -> &'r T {
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match elts[i] { Some(ref t) => t, _ => fail!() }
}
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#[cfg(test)]
mod tests {
use super::*;
use core::cmp::Eq;
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use core::kinds::Copy;
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#[test]
fn test_simple() {
let mut d = Deque::new();
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assert!(d.len() == 0u);
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d.add_front(17);
d.add_front(42);
d.add_back(137);
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assert!(d.len() == 3u);
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d.add_back(137);
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assert!(d.len() == 4u);
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debug!(d.peek_front());
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assert!(*d.peek_front() == 42);
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debug!(d.peek_back());
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assert!(*d.peek_back() == 137);
let mut i: int = d.pop_front();
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debug!(i);
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assert!(i == 42);
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i = d.pop_back();
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debug!(i);
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assert!(i == 137);
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i = d.pop_back();
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debug!(i);
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assert!(i == 137);
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i = d.pop_back();
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debug!(i);
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assert!(i == 17);
assert!(d.len() == 0u);
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d.add_back(3);
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assert!(d.len() == 1u);
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d.add_front(2);
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assert!(d.len() == 2u);
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d.add_back(4);
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assert!(d.len() == 3u);
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d.add_front(1);
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assert!(d.len() == 4u);
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debug!(d.get(0));
debug!(d.get(1));
debug!(d.get(2));
debug!(d.get(3));
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assert!(*d.get(0) == 1);
assert!(*d.get(1) == 2);
assert!(*d.get(2) == 3);
assert!(*d.get(3) == 4);
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}
#[test]
fn test_boxes() {
let a: @int = @5;
let b: @int = @72;
let c: @int = @64;
let d: @int = @175;
let mut deq = Deque::new();
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assert!(deq.len() == 0);
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deq.add_front(a);
deq.add_front(b);
deq.add_back(c);
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assert!(deq.len() == 3);
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deq.add_back(d);
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assert!(deq.len() == 4);
assert!(*deq.peek_front() == b);
assert!(*deq.peek_back() == d);
assert!(deq.pop_front() == b);
assert!(deq.pop_back() == d);
assert!(deq.pop_back() == c);
assert!(deq.pop_back() == a);
assert!(deq.len() == 0);
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deq.add_back(c);
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assert!(deq.len() == 1);
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deq.add_front(b);
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assert!(deq.len() == 2);
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deq.add_back(d);
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assert!(deq.len() == 3);
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deq.add_front(a);
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assert!(deq.len() == 4);
assert!(*deq.get(0) == a);
assert!(*deq.get(1) == b);
assert!(*deq.get(2) == c);
assert!(*deq.get(3) == d);
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}
#[cfg(test)]
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fn test_parameterized<T:Copy + Eq>(a: T, b: T, c: T, d: T) {
let mut deq = Deque::new();
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assert!(deq.len() == 0);
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deq.add_front(a);
deq.add_front(b);
deq.add_back(c);
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assert!(deq.len() == 3);
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deq.add_back(d);
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assert!(deq.len() == 4);
assert!(*deq.peek_front() == b);
assert!(*deq.peek_back() == d);
assert!(deq.pop_front() == b);
assert!(deq.pop_back() == d);
assert!(deq.pop_back() == c);
assert!(deq.pop_back() == a);
assert!(deq.len() == 0);
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deq.add_back(c);
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assert!(deq.len() == 1);
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deq.add_front(b);
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assert!(deq.len() == 2);
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deq.add_back(d);
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assert!(deq.len() == 3);
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deq.add_front(a);
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assert!(deq.len() == 4);
assert!(*deq.get(0) == a);
assert!(*deq.get(1) == b);
assert!(*deq.get(2) == c);
assert!(*deq.get(3) == d);
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}
#[deriving(Eq)]
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enum Taggy { One(int), Two(int, int), Three(int, int, int), }
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#[deriving(Eq)]
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enum Taggypar<T> {
Onepar(int), Twopar(int, int), Threepar(int, int, int),
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}
#[deriving(Eq)]
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struct RecCy {
x: int,
y: int,
t: Taggy
}
#[test]
fn test_param_int() {
test_parameterized::<int>(5, 72, 64, 175);
}
#[test]
fn test_param_at_int() {
test_parameterized::<@int>(@5, @72, @64, @175);
}
#[test]
fn test_param_taggy() {
test_parameterized::<Taggy>(One(1), Two(1, 2), Three(1, 2, 3),
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Two(17, 42));
}
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#[test]
fn test_param_taggypar() {
test_parameterized::<Taggypar<int>>(Onepar::<int>(1),
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Twopar::<int>(1, 2),
Threepar::<int>(1, 2, 3),
Twopar::<int>(17, 42));
}
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#[test]
fn test_param_reccy() {
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let reccy1 = RecCy { x: 1, y: 2, t: One(1) };
let reccy2 = RecCy { x: 345, y: 2, t: Two(1, 2) };
let reccy3 = RecCy { x: 1, y: 777, t: Three(1, 2, 3) };
let reccy4 = RecCy { x: 19, y: 252, t: Two(17, 42) };
test_parameterized::<RecCy>(reccy1, reccy2, reccy3, reccy4);
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}
#[test]
fn test_eachi() {
let mut deq = Deque::new();
deq.add_back(1);
deq.add_back(2);
deq.add_back(3);
for deq.eachi |i, e| {
assert_eq!(*e, i + 1);
}
deq.pop_front();
for deq.eachi |i, e| {
assert_eq!(*e, i + 2);
}
}
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}