530 lines
15 KiB
Rust
530 lines
15 KiB
Rust
// Copyright 2012 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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/*!
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* A simple map based on a vector for small integer keys. Space requirements
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* are O(highest integer key).
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*/
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#[allow(missing_doc)];
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use std::iter::{Enumerate, FilterMap, Rev};
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use std::mem::replace;
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use std::vec;
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#[allow(missing_doc)]
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pub struct SmallIntMap<T> {
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priv v: ~[Option<T>],
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}
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impl<V> Container for SmallIntMap<V> {
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/// Return the number of elements in the map
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fn len(&self) -> uint {
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self.v.iter().count(|elt| elt.is_some())
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}
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/// Return true if there are no elements in the map
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fn is_empty(&self) -> bool {
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self.v.iter().all(|elt| elt.is_none())
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}
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}
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impl<V> Mutable for SmallIntMap<V> {
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/// Clear the map, removing all key-value pairs.
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fn clear(&mut self) { self.v.clear() }
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}
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impl<V> Map<uint, V> for SmallIntMap<V> {
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/// Return a reference to the value corresponding to the key
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fn find<'a>(&'a self, key: &uint) -> Option<&'a V> {
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if *key < self.v.len() {
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match self.v[*key] {
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Some(ref value) => Some(value),
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None => None
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}
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} else {
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None
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}
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}
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}
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impl<V> MutableMap<uint, V> for SmallIntMap<V> {
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/// Return a mutable reference to the value corresponding to the key
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fn find_mut<'a>(&'a mut self, key: &uint) -> Option<&'a mut V> {
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if *key < self.v.len() {
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match self.v[*key] {
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Some(ref mut value) => Some(value),
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None => None
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}
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} else {
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None
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}
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}
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/// Insert a key-value pair into the map. An existing value for a
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/// key is replaced by the new value. Return true if the key did
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/// not already exist in the map.
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fn insert(&mut self, key: uint, value: V) -> bool {
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let exists = self.contains_key(&key);
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let len = self.v.len();
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if len <= key {
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self.v.grow_fn(key - len + 1, |_| None);
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}
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self.v[key] = Some(value);
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!exists
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}
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/// Remove a key-value pair from the map. Return true if the key
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/// was present in the map, otherwise false.
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fn remove(&mut self, key: &uint) -> bool {
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self.pop(key).is_some()
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}
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/// Insert a key-value pair from the map. If the key already had a value
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/// present in the map, that value is returned. Otherwise None is returned.
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fn swap(&mut self, key: uint, value: V) -> Option<V> {
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match self.find_mut(&key) {
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Some(loc) => { return Some(replace(loc, value)); }
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None => ()
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}
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self.insert(key, value);
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return None;
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}
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/// Removes a key from the map, returning the value at the key if the key
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/// was previously in the map.
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fn pop(&mut self, key: &uint) -> Option<V> {
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if *key >= self.v.len() {
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return None;
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}
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self.v[*key].take()
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}
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}
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impl<V> SmallIntMap<V> {
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/// Create an empty SmallIntMap
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pub fn new() -> SmallIntMap<V> { SmallIntMap{v: ~[]} }
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pub fn get<'a>(&'a self, key: &uint) -> &'a V {
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self.find(key).expect("key not present")
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}
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/// An iterator visiting all key-value pairs in ascending order by the keys.
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/// Iterator element type is (uint, &'r V)
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pub fn iter<'r>(&'r self) -> Entries<'r, V> {
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Entries {
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front: 0,
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back: self.v.len(),
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iter: self.v.iter()
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}
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}
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/// An iterator visiting all key-value pairs in ascending order by the keys,
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/// with mutable references to the values
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/// Iterator element type is (uint, &'r mut V)
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pub fn mut_iter<'r>(&'r mut self) -> MutEntries<'r, V> {
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MutEntries {
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front: 0,
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back: self.v.len(),
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iter: self.v.mut_iter()
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}
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}
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/// An iterator visiting all key-value pairs in descending order by the keys.
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/// Iterator element type is (uint, &'r V)
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pub fn rev_iter<'r>(&'r self) -> RevEntries<'r, V> {
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self.iter().rev()
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}
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/// An iterator visiting all key-value pairs in descending order by the keys,
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/// with mutable references to the values
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/// Iterator element type is (uint, &'r mut V)
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pub fn mut_rev_iter<'r>(&'r mut self) -> RevMutEntries <'r, V> {
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self.mut_iter().rev()
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}
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/// Empties the hash map, moving all values into the specified closure
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pub fn move_iter(&mut self)
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-> FilterMap<(uint, Option<V>), (uint, V),
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Enumerate<vec::MoveItems<Option<V>>>>
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{
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let values = replace(&mut self.v, ~[]);
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values.move_iter().enumerate().filter_map(|(i, v)| {
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v.map(|v| (i, v))
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})
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}
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}
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impl<V:Clone> SmallIntMap<V> {
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pub fn update_with_key(&mut self,
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key: uint,
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val: V,
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ff: |uint, V, V| -> V)
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-> bool {
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let new_val = match self.find(&key) {
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None => val,
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Some(orig) => ff(key, (*orig).clone(), val)
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};
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self.insert(key, new_val)
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}
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pub fn update(&mut self, key: uint, newval: V, ff: |V, V| -> V) -> bool {
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self.update_with_key(key, newval, |_k, v, v1| ff(v,v1))
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}
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}
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macro_rules! iterator {
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(impl $name:ident -> $elem:ty, $getter:ident) => {
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impl<'a, T> Iterator<$elem> for $name<'a, T> {
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#[inline]
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fn next(&mut self) -> Option<$elem> {
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while self.front < self.back {
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match self.iter.next() {
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Some(elem) => {
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if elem.is_some() {
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let index = self.front;
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self.front += 1;
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return Some((index, elem. $getter ()));
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}
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}
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_ => ()
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}
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self.front += 1;
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}
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None
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}
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#[inline]
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fn size_hint(&self) -> (uint, Option<uint>) {
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(0, Some(self.back - self.front))
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}
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}
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}
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}
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macro_rules! double_ended_iterator {
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(impl $name:ident -> $elem:ty, $getter:ident) => {
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impl<'a, T> DoubleEndedIterator<$elem> for $name<'a, T> {
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#[inline]
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fn next_back(&mut self) -> Option<$elem> {
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while self.front < self.back {
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match self.iter.next_back() {
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Some(elem) => {
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if elem.is_some() {
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self.back -= 1;
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return Some((self.back, elem. $getter ()));
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}
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}
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_ => ()
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}
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self.back -= 1;
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}
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None
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}
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}
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}
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}
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pub struct Entries<'a, T> {
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priv front: uint,
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priv back: uint,
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priv iter: vec::Items<'a, Option<T>>
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}
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iterator!(impl Entries -> (uint, &'a T), get_ref)
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double_ended_iterator!(impl Entries -> (uint, &'a T), get_ref)
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pub type RevEntries<'a, T> = Rev<Entries<'a, T>>;
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pub struct MutEntries<'a, T> {
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priv front: uint,
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priv back: uint,
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priv iter: vec::MutItems<'a, Option<T>>
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}
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iterator!(impl MutEntries -> (uint, &'a mut T), get_mut_ref)
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double_ended_iterator!(impl MutEntries -> (uint, &'a mut T), get_mut_ref)
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pub type RevMutEntries<'a, T> = Rev<MutEntries<'a, T>>;
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#[cfg(test)]
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mod test_map {
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use super::SmallIntMap;
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#[test]
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fn test_find_mut() {
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let mut m = SmallIntMap::new();
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assert!(m.insert(1, 12));
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assert!(m.insert(2, 8));
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assert!(m.insert(5, 14));
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let new = 100;
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match m.find_mut(&5) {
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None => fail!(), Some(x) => *x = new
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}
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assert_eq!(m.find(&5), Some(&new));
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}
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#[test]
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fn test_len() {
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let mut map = SmallIntMap::new();
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assert_eq!(map.len(), 0);
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assert!(map.is_empty());
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assert!(map.insert(5, 20));
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assert_eq!(map.len(), 1);
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assert!(!map.is_empty());
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assert!(map.insert(11, 12));
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assert_eq!(map.len(), 2);
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assert!(!map.is_empty());
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assert!(map.insert(14, 22));
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assert_eq!(map.len(), 3);
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assert!(!map.is_empty());
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}
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#[test]
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fn test_clear() {
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let mut map = SmallIntMap::new();
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assert!(map.insert(5, 20));
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assert!(map.insert(11, 12));
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assert!(map.insert(14, 22));
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map.clear();
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assert!(map.is_empty());
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assert!(map.find(&5).is_none());
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assert!(map.find(&11).is_none());
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assert!(map.find(&14).is_none());
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}
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#[test]
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fn test_insert_with_key() {
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let mut map = SmallIntMap::new();
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// given a new key, initialize it with this new count, given
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// given an existing key, add more to its count
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fn addMoreToCount(_k: uint, v0: uint, v1: uint) -> uint {
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v0 + v1
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}
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fn addMoreToCount_simple(v0: uint, v1: uint) -> uint {
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v0 + v1
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}
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// count integers
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map.update(3, 1, addMoreToCount_simple);
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map.update_with_key(9, 1, addMoreToCount);
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map.update(3, 7, addMoreToCount_simple);
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map.update_with_key(5, 3, addMoreToCount);
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map.update_with_key(3, 2, addMoreToCount);
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// check the total counts
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assert_eq!(map.find(&3).unwrap(), &10);
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assert_eq!(map.find(&5).unwrap(), &3);
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assert_eq!(map.find(&9).unwrap(), &1);
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// sadly, no sevens were counted
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assert!(map.find(&7).is_none());
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}
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#[test]
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fn test_swap() {
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let mut m = SmallIntMap::new();
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assert_eq!(m.swap(1, 2), None);
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assert_eq!(m.swap(1, 3), Some(2));
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assert_eq!(m.swap(1, 4), Some(3));
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}
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#[test]
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fn test_pop() {
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let mut m = SmallIntMap::new();
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m.insert(1, 2);
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assert_eq!(m.pop(&1), Some(2));
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assert_eq!(m.pop(&1), None);
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}
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#[test]
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fn test_iterator() {
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let mut m = SmallIntMap::new();
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assert!(m.insert(0, 1));
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assert!(m.insert(1, 2));
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assert!(m.insert(3, 5));
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assert!(m.insert(6, 10));
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assert!(m.insert(10, 11));
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let mut it = m.iter();
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assert_eq!(it.size_hint(), (0, Some(11)));
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assert_eq!(it.next().unwrap(), (0, &1));
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assert_eq!(it.size_hint(), (0, Some(10)));
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assert_eq!(it.next().unwrap(), (1, &2));
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assert_eq!(it.size_hint(), (0, Some(9)));
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assert_eq!(it.next().unwrap(), (3, &5));
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assert_eq!(it.size_hint(), (0, Some(7)));
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assert_eq!(it.next().unwrap(), (6, &10));
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assert_eq!(it.size_hint(), (0, Some(4)));
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assert_eq!(it.next().unwrap(), (10, &11));
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assert_eq!(it.size_hint(), (0, Some(0)));
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assert!(it.next().is_none());
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}
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#[test]
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fn test_iterator_size_hints() {
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let mut m = SmallIntMap::new();
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assert!(m.insert(0, 1));
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assert!(m.insert(1, 2));
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assert!(m.insert(3, 5));
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assert!(m.insert(6, 10));
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assert!(m.insert(10, 11));
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assert_eq!(m.iter().size_hint(), (0, Some(11)));
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assert_eq!(m.rev_iter().size_hint(), (0, Some(11)));
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assert_eq!(m.mut_iter().size_hint(), (0, Some(11)));
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assert_eq!(m.mut_rev_iter().size_hint(), (0, Some(11)));
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}
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#[test]
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fn test_mut_iterator() {
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let mut m = SmallIntMap::new();
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assert!(m.insert(0, 1));
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assert!(m.insert(1, 2));
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assert!(m.insert(3, 5));
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assert!(m.insert(6, 10));
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assert!(m.insert(10, 11));
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for (k, v) in m.mut_iter() {
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*v += k as int;
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}
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let mut it = m.iter();
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assert_eq!(it.next().unwrap(), (0, &1));
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assert_eq!(it.next().unwrap(), (1, &3));
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assert_eq!(it.next().unwrap(), (3, &8));
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assert_eq!(it.next().unwrap(), (6, &16));
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assert_eq!(it.next().unwrap(), (10, &21));
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assert!(it.next().is_none());
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}
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#[test]
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fn test_rev_iterator() {
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let mut m = SmallIntMap::new();
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assert!(m.insert(0, 1));
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assert!(m.insert(1, 2));
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assert!(m.insert(3, 5));
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assert!(m.insert(6, 10));
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assert!(m.insert(10, 11));
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let mut it = m.rev_iter();
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assert_eq!(it.next().unwrap(), (10, &11));
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assert_eq!(it.next().unwrap(), (6, &10));
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assert_eq!(it.next().unwrap(), (3, &5));
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assert_eq!(it.next().unwrap(), (1, &2));
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assert_eq!(it.next().unwrap(), (0, &1));
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assert!(it.next().is_none());
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}
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#[test]
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fn test_mut_rev_iterator() {
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let mut m = SmallIntMap::new();
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assert!(m.insert(0, 1));
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assert!(m.insert(1, 2));
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assert!(m.insert(3, 5));
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assert!(m.insert(6, 10));
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assert!(m.insert(10, 11));
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for (k, v) in m.mut_rev_iter() {
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*v += k as int;
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}
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let mut it = m.iter();
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assert_eq!(it.next().unwrap(), (0, &1));
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assert_eq!(it.next().unwrap(), (1, &3));
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assert_eq!(it.next().unwrap(), (3, &8));
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assert_eq!(it.next().unwrap(), (6, &16));
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assert_eq!(it.next().unwrap(), (10, &21));
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assert!(it.next().is_none());
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}
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#[test]
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fn test_move_iter() {
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let mut m = SmallIntMap::new();
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m.insert(1, ~2);
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let mut called = false;
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for (k, v) in m.move_iter() {
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assert!(!called);
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called = true;
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assert_eq!(k, 1);
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assert_eq!(v, ~2);
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}
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assert!(called);
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m.insert(2, ~1);
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}
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}
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#[cfg(test)]
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mod bench {
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extern crate test;
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use self::test::BenchHarness;
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use super::SmallIntMap;
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use deque::bench::{insert_rand_n, insert_seq_n, find_rand_n, find_seq_n};
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// Find seq
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#[bench]
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pub fn insert_rand_100(bh: &mut BenchHarness) {
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let mut m : SmallIntMap<uint> = SmallIntMap::new();
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insert_rand_n(100, &mut m, bh);
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}
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#[bench]
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pub fn insert_rand_10_000(bh: &mut BenchHarness) {
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let mut m : SmallIntMap<uint> = SmallIntMap::new();
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insert_rand_n(10_000, &mut m, bh);
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}
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// Insert seq
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#[bench]
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pub fn insert_seq_100(bh: &mut BenchHarness) {
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let mut m : SmallIntMap<uint> = SmallIntMap::new();
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insert_seq_n(100, &mut m, bh);
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}
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#[bench]
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pub fn insert_seq_10_000(bh: &mut BenchHarness) {
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let mut m : SmallIntMap<uint> = SmallIntMap::new();
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insert_seq_n(10_000, &mut m, bh);
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}
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// Find rand
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#[bench]
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pub fn find_rand_100(bh: &mut BenchHarness) {
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let mut m : SmallIntMap<uint> = SmallIntMap::new();
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find_rand_n(100, &mut m, bh);
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}
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#[bench]
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pub fn find_rand_10_000(bh: &mut BenchHarness) {
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let mut m : SmallIntMap<uint> = SmallIntMap::new();
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find_rand_n(10_000, &mut m, bh);
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}
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// Find seq
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#[bench]
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pub fn find_seq_100(bh: &mut BenchHarness) {
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let mut m : SmallIntMap<uint> = SmallIntMap::new();
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find_seq_n(100, &mut m, bh);
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}
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#[bench]
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pub fn find_seq_10_000(bh: &mut BenchHarness) {
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|
let mut m : SmallIntMap<uint> = SmallIntMap::new();
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|
find_seq_n(10_000, &mut m, bh);
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|
}
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|
}
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