rust/src/libcollections/lru_cache.rs

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// Copyright 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.
//! A cache that holds a limited number of key-value pairs. When the
//! capacity of the cache is exceeded, the least-recently-used
//! (where "used" means a look-up or putting the pair into the cache)
//! pair is automatically removed.
//!
//! # Example
//!
//! ```rust
//! use collections::LruCache;
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//!
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//! let mut cache: LruCache<int, int> = LruCache::new(2);
//! cache.put(1, 10);
//! cache.put(2, 20);
//! cache.put(3, 30);
//! assert!(cache.get(&1).is_none());
//! assert_eq!(*cache.get(&2).unwrap(), 20);
//! assert_eq!(*cache.get(&3).unwrap(), 30);
//!
//! cache.put(2, 22);
//! assert_eq!(*cache.get(&2).unwrap(), 22);
//!
//! cache.put(6, 60);
//! assert!(cache.get(&3).is_none());
//!
//! cache.change_capacity(1);
//! assert!(cache.get(&2).is_none());
//! ```
use std::container::Container;
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use std::hash::Hash;
use std::fmt;
use std::mem;
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use std::ptr;
use HashMap;
struct KeyRef<K> { k: *K }
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struct LruEntry<K, V> {
next: *mut LruEntry<K, V>,
prev: *mut LruEntry<K, V>,
key: K,
value: V,
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}
/// An LRU Cache.
pub struct LruCache<K, V> {
map: HashMap<KeyRef<K>, Box<LruEntry<K, V>>>,
max_size: uint,
head: *mut LruEntry<K, V>,
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}
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impl<S, K: Hash<S>> Hash<S> for KeyRef<K> {
fn hash(&self, state: &mut S) {
unsafe { (*self.k).hash(state) }
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}
}
impl<K: Eq> Eq for KeyRef<K> {
fn eq(&self, other: &KeyRef<K>) -> bool {
unsafe{ (*self.k).eq(&*other.k) }
}
}
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impl<K: TotalEq> TotalEq for KeyRef<K> {}
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impl<K, V> LruEntry<K, V> {
fn new(k: K, v: V) -> LruEntry<K, V> {
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LruEntry {
key: k,
value: v,
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next: ptr::mut_null(),
prev: ptr::mut_null(),
}
}
}
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impl<K: Hash + TotalEq, V> LruCache<K, V> {
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/// Create an LRU Cache that holds at most `capacity` items.
pub fn new(capacity: uint) -> LruCache<K, V> {
let cache = LruCache {
map: HashMap::new(),
max_size: capacity,
core: Remove the cast module This commit revisits the `cast` module in libcore and libstd, and scrutinizes all functions inside of it. The result was to remove the `cast` module entirely, folding all functionality into the `mem` module. Specifically, this is the fate of each function in the `cast` module. * transmute - This function was moved to `mem`, but it is now marked as #[unstable]. This is due to planned changes to the `transmute` function and how it can be invoked (see the #[unstable] comment). For more information, see RFC 5 and #12898 * transmute_copy - This function was moved to `mem`, with clarification that is is not an error to invoke it with T/U that are different sizes, but rather that it is strongly discouraged. This function is now #[stable] * forget - This function was moved to `mem` and marked #[stable] * bump_box_refcount - This function was removed due to the deprecation of managed boxes as well as its questionable utility. * transmute_mut - This function was previously deprecated, and removed as part of this commit. * transmute_mut_unsafe - This function doesn't serve much of a purpose when it can be achieved with an `as` in safe code, so it was removed. * transmute_lifetime - This function was removed because it is likely a strong indication that code is incorrect in the first place. * transmute_mut_lifetime - This function was removed for the same reasons as `transmute_lifetime` * copy_lifetime - This function was moved to `mem`, but it is marked `#[unstable]` now due to the likelihood of being removed in the future if it is found to not be very useful. * copy_mut_lifetime - This function was also moved to `mem`, but had the same treatment as `copy_lifetime`. * copy_lifetime_vec - This function was removed because it is not used today, and its existence is not necessary with DST (copy_lifetime will suffice). In summary, the cast module was stripped down to these functions, and then the functions were moved to the `mem` module. transmute - #[unstable] transmute_copy - #[stable] forget - #[stable] copy_lifetime - #[unstable] copy_mut_lifetime - #[unstable] [breaking-change]
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head: unsafe{ mem::transmute(box mem::uninit::<LruEntry<K, V>>()) },
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};
unsafe {
(*cache.head).next = cache.head;
(*cache.head).prev = cache.head;
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}
return cache;
}
/// Put a key-value pair into cache.
pub fn put(&mut self, k: K, v: V) {
let (node_ptr, node_opt) = match self.map.find_mut(&KeyRef{k: &k}) {
Some(node) => {
node.value = v;
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let node_ptr: *mut LruEntry<K, V> = &mut **node;
(node_ptr, None)
}
None => {
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let mut node = box LruEntry::new(k, v);
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let node_ptr: *mut LruEntry<K, V> = &mut *node;
(node_ptr, Some(node))
}
};
match node_opt {
None => {
// Existing node, just update LRU position
self.detach(node_ptr);
self.attach(node_ptr);
}
Some(node) => {
let keyref = unsafe { &(*node_ptr).key };
self.map.swap(KeyRef{k: keyref}, node);
self.attach(node_ptr);
if self.len() > self.capacity() {
self.remove_lru();
}
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}
}
}
/// Return a value corresponding to the key in the cache.
pub fn get<'a>(&'a mut self, k: &K) -> Option<&'a V> {
let (value, node_ptr_opt) = match self.map.find_mut(&KeyRef{k: k}) {
None => (None, None),
Some(node) => {
let node_ptr: *mut LruEntry<K, V> = &mut **node;
(Some(unsafe { &(*node_ptr).value }), Some(node_ptr))
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}
};
match node_ptr_opt {
None => (),
Some(node_ptr) => {
self.detach(node_ptr);
self.attach(node_ptr);
}
}
return value;
}
/// Remove and return a value corresponding to the key from the cache.
pub fn pop(&mut self, k: &K) -> Option<V> {
match self.map.pop(&KeyRef{k: k}) {
None => None,
Some(lru_entry) => Some(lru_entry.value)
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}
}
/// Return the maximum number of key-value pairs the cache can hold.
pub fn capacity(&self) -> uint {
self.max_size
}
/// Change the number of key-value pairs the cache can hold. Remove
/// least-recently-used key-value pairs if necessary.
pub fn change_capacity(&mut self, capacity: uint) {
for _ in range(capacity, self.len()) {
self.remove_lru();
}
self.max_size = capacity;
}
#[inline]
fn remove_lru(&mut self) {
if self.len() > 0 {
let lru = unsafe { (*self.head).prev };
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self.detach(lru);
self.map.pop(&KeyRef{k: unsafe { &(*lru).key }});
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}
}
#[inline]
fn detach(&mut self, node: *mut LruEntry<K, V>) {
unsafe {
(*(*node).prev).next = (*node).next;
(*(*node).next).prev = (*node).prev;
}
}
#[inline]
fn attach(&mut self, node: *mut LruEntry<K, V>) {
unsafe {
(*node).next = (*self.head).next;
(*node).prev = self.head;
(*self.head).next = node;
(*(*node).next).prev = node;
}
}
}
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impl<A: fmt::Show + Hash + TotalEq, B: fmt::Show> fmt::Show for LruCache<A, B> {
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/// Return a string that lists the key-value pairs from most-recently
/// used to least-recently used.
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
try!(write!(f, r"\{"));
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let mut cur = self.head;
for i in range(0, self.len()) {
if i > 0 { try!(write!(f, ", ")) }
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unsafe {
cur = (*cur).next;
try!(write!(f, "{}", (*cur).key));
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}
try!(write!(f, ": "));
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unsafe {
try!(write!(f, "{}", (*cur).value));
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}
}
write!(f, r"\}")
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}
}
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impl<K: Hash + TotalEq, V> Container for LruCache<K, V> {
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/// Return the number of key-value pairs in the cache.
fn len(&self) -> uint {
self.map.len()
}
}
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impl<K: Hash + TotalEq, V> Mutable for LruCache<K, V> {
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/// Clear the cache of all key-value pairs.
fn clear(&mut self) {
self.map.clear();
}
}
#[unsafe_destructor]
impl<K, V> Drop for LruCache<K, V> {
fn drop(&mut self) {
unsafe {
core: Remove the cast module This commit revisits the `cast` module in libcore and libstd, and scrutinizes all functions inside of it. The result was to remove the `cast` module entirely, folding all functionality into the `mem` module. Specifically, this is the fate of each function in the `cast` module. * transmute - This function was moved to `mem`, but it is now marked as #[unstable]. This is due to planned changes to the `transmute` function and how it can be invoked (see the #[unstable] comment). For more information, see RFC 5 and #12898 * transmute_copy - This function was moved to `mem`, with clarification that is is not an error to invoke it with T/U that are different sizes, but rather that it is strongly discouraged. This function is now #[stable] * forget - This function was moved to `mem` and marked #[stable] * bump_box_refcount - This function was removed due to the deprecation of managed boxes as well as its questionable utility. * transmute_mut - This function was previously deprecated, and removed as part of this commit. * transmute_mut_unsafe - This function doesn't serve much of a purpose when it can be achieved with an `as` in safe code, so it was removed. * transmute_lifetime - This function was removed because it is likely a strong indication that code is incorrect in the first place. * transmute_mut_lifetime - This function was removed for the same reasons as `transmute_lifetime` * copy_lifetime - This function was moved to `mem`, but it is marked `#[unstable]` now due to the likelihood of being removed in the future if it is found to not be very useful. * copy_mut_lifetime - This function was also moved to `mem`, but had the same treatment as `copy_lifetime`. * copy_lifetime_vec - This function was removed because it is not used today, and its existence is not necessary with DST (copy_lifetime will suffice). In summary, the cast module was stripped down to these functions, and then the functions were moved to the `mem` module. transmute - #[unstable] transmute_copy - #[stable] forget - #[stable] copy_lifetime - #[unstable] copy_mut_lifetime - #[unstable] [breaking-change]
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let node: Box<LruEntry<K, V>> = mem::transmute(self.head);
// Prevent compiler from trying to drop the un-initialized field in the sigil node.
let box LruEntry { key: k, value: v, .. } = node;
core: Remove the cast module This commit revisits the `cast` module in libcore and libstd, and scrutinizes all functions inside of it. The result was to remove the `cast` module entirely, folding all functionality into the `mem` module. Specifically, this is the fate of each function in the `cast` module. * transmute - This function was moved to `mem`, but it is now marked as #[unstable]. This is due to planned changes to the `transmute` function and how it can be invoked (see the #[unstable] comment). For more information, see RFC 5 and #12898 * transmute_copy - This function was moved to `mem`, with clarification that is is not an error to invoke it with T/U that are different sizes, but rather that it is strongly discouraged. This function is now #[stable] * forget - This function was moved to `mem` and marked #[stable] * bump_box_refcount - This function was removed due to the deprecation of managed boxes as well as its questionable utility. * transmute_mut - This function was previously deprecated, and removed as part of this commit. * transmute_mut_unsafe - This function doesn't serve much of a purpose when it can be achieved with an `as` in safe code, so it was removed. * transmute_lifetime - This function was removed because it is likely a strong indication that code is incorrect in the first place. * transmute_mut_lifetime - This function was removed for the same reasons as `transmute_lifetime` * copy_lifetime - This function was moved to `mem`, but it is marked `#[unstable]` now due to the likelihood of being removed in the future if it is found to not be very useful. * copy_mut_lifetime - This function was also moved to `mem`, but had the same treatment as `copy_lifetime`. * copy_lifetime_vec - This function was removed because it is not used today, and its existence is not necessary with DST (copy_lifetime will suffice). In summary, the cast module was stripped down to these functions, and then the functions were moved to the `mem` module. transmute - #[unstable] transmute_copy - #[stable] forget - #[stable] copy_lifetime - #[unstable] copy_mut_lifetime - #[unstable] [breaking-change]
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mem::forget(k);
mem::forget(v);
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}
}
}
#[cfg(test)]
mod tests {
use super::LruCache;
fn assert_opt_eq<V: Eq>(opt: Option<&V>, v: V) {
assert!(opt.is_some());
assert!(opt.unwrap() == &v);
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}
#[test]
fn test_put_and_get() {
let mut cache: LruCache<int, int> = LruCache::new(2);
cache.put(1, 10);
cache.put(2, 20);
assert_opt_eq(cache.get(&1), 10);
assert_opt_eq(cache.get(&2), 20);
assert_eq!(cache.len(), 2);
}
#[test]
fn test_put_update() {
let mut cache: LruCache<StrBuf, Vec<u8>> = LruCache::new(1);
cache.put("1".to_strbuf(), vec![10, 10]);
cache.put("1".to_strbuf(), vec![10, 19]);
assert_opt_eq(cache.get(&"1".to_strbuf()), vec![10, 19]);
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assert_eq!(cache.len(), 1);
}
#[test]
fn test_expire_lru() {
let mut cache: LruCache<StrBuf, StrBuf> = LruCache::new(2);
cache.put("foo1".to_strbuf(), "bar1".to_strbuf());
cache.put("foo2".to_strbuf(), "bar2".to_strbuf());
cache.put("foo3".to_strbuf(), "bar3".to_strbuf());
assert!(cache.get(&"foo1".to_strbuf()).is_none());
cache.put("foo2".to_strbuf(), "bar2update".to_strbuf());
cache.put("foo4".to_strbuf(), "bar4".to_strbuf());
assert!(cache.get(&"foo3".to_strbuf()).is_none());
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}
#[test]
fn test_pop() {
let mut cache: LruCache<int, int> = LruCache::new(2);
cache.put(1, 10);
cache.put(2, 20);
assert_eq!(cache.len(), 2);
let opt1 = cache.pop(&1);
assert!(opt1.is_some());
assert_eq!(opt1.unwrap(), 10);
assert!(cache.get(&1).is_none());
assert_eq!(cache.len(), 1);
}
#[test]
fn test_change_capacity() {
let mut cache: LruCache<int, int> = LruCache::new(2);
assert_eq!(cache.capacity(), 2);
cache.put(1, 10);
cache.put(2, 20);
cache.change_capacity(1);
assert!(cache.get(&1).is_none());
assert_eq!(cache.capacity(), 1);
}
#[test]
fn test_to_str() {
let mut cache: LruCache<int, int> = LruCache::new(3);
cache.put(1, 10);
cache.put(2, 20);
cache.put(3, 30);
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assert_eq!(cache.to_str(), "{3: 30, 2: 20, 1: 10}".to_owned());
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cache.put(2, 22);
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assert_eq!(cache.to_str(), "{2: 22, 3: 30, 1: 10}".to_owned());
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cache.put(6, 60);
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assert_eq!(cache.to_str(), "{6: 60, 2: 22, 3: 30}".to_owned());
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cache.get(&3);
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assert_eq!(cache.to_str(), "{3: 30, 6: 60, 2: 22}".to_owned());
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cache.change_capacity(2);
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assert_eq!(cache.to_str(), "{3: 30, 6: 60}".to_owned());
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}
#[test]
fn test_clear() {
let mut cache: LruCache<int, int> = LruCache::new(2);
cache.put(1, 10);
cache.put(2, 20);
cache.clear();
assert!(cache.get(&1).is_none());
assert!(cache.get(&2).is_none());
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assert_eq!(cache.to_str(), "{}".to_owned());
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}
}