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b78b749810
rust/src/libcollections/lru_cache.rs
Alex Crichton b78b749810 Remove all ToStr impls, add Show impls 
This commit changes the ToStr trait to:

    impl<T: fmt::Show> ToStr for T {
        fn to_str(&self) -> ~str { format!("{}", *self) }
    }

The ToStr trait has been on the chopping block for quite awhile now, and this is
the final nail in its coffin. The trait and the corresponding method are not
being removed as part of this commit, but rather any implementations of the
`ToStr` trait are being forbidden because of the generic impl. The new way to
get the `to_str()` method to work is to implement `fmt::Show`.

Formatting into a `&mut Writer` (as `format!` does) is much more efficient than
`ToStr` when building up large strings. The `ToStr` trait forces many
intermediate allocations to be made while the `fmt::Show` trait allows
incremental buildup in the same heap allocated buffer. Additionally, the
`fmt::Show` trait is much more extensible in terms of interoperation with other
`Writer` instances and in more situations. By design the `ToStr` trait requires
at least one allocation whereas the `fmt::Show` trait does not require any
allocations.

Closes #8242
Closes #9806
2014-02-23 20:51:56 -08:00

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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;
//!
//! 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::cast;
use std::container::Container;
use std::hash::{Hash, sip};
use std::fmt;
use std::ptr;
use HashMap;
struct KeyRef<K> { k: *K }
struct LruEntry<K, V> {
key: Option<K>,
value: Option<V>,
next: *mut LruEntry<K, V>,
prev: *mut LruEntry<K, V>,
}
/// An LRU Cache.
pub struct LruCache<K, V> {
priv map: HashMap<KeyRef<K>, ~LruEntry<K, V>>,
priv max_size: uint,
priv head: *mut LruEntry<K, V>,
priv tail: *mut LruEntry<K, V>,
}
impl<K: Hash> Hash for KeyRef<K> {
fn hash(&self, s: &mut sip::SipState) {
unsafe {(*self.k).hash(s)}
}
}
impl<K: Eq> Eq for KeyRef<K> {
fn eq(&self, other: &KeyRef<K>) -> bool {
unsafe{ (*self.k).eq(&*other.k) }
}
}
impl<K, V> LruEntry<K, V> {
fn new() -> LruEntry<K, V> {
LruEntry {
key: None,
value: None,
next: ptr::mut_null(),
prev: ptr::mut_null(),
}
}
fn with_key_value(k: K, v: V) -> LruEntry<K, V> {
LruEntry {
key: Some(k),
value: Some(v),
next: ptr::mut_null(),
prev: ptr::mut_null(),
}
}
}
impl<K: Hash + Eq, V> LruCache<K, V> {
/// 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,
head: unsafe{ cast::transmute(~LruEntry::<K, V>::new()) },
tail: unsafe{ cast::transmute(~LruEntry::<K, V>::new()) },
};
unsafe {
(*cache.head).next = cache.tail;
(*cache.tail).prev = cache.head;
}
return cache;
}
/// Put a key-value pair into cache.
pub fn put(&mut self, k: K, v: V) {
let mut key_existed = false;
let (node_ptr, node_opt) = match self.map.find_mut(&KeyRef{k: &k}) {
Some(node) => {
key_existed = true;
node.value = Some(v);
let node_ptr: *mut LruEntry<K, V> = &mut **node;
(node_ptr, None)
}
None => {
let mut node = ~LruEntry::with_key_value(k, v);
let node_ptr: *mut LruEntry<K, V> = &mut *node;
(node_ptr, Some(node))
}
};
if key_existed {
self.detach(node_ptr);
self.attach(node_ptr);
} else {
let keyref = unsafe { (*node_ptr).key.as_ref().unwrap() };
self.map.swap(KeyRef{k: keyref}, node_opt.unwrap());
self.attach(node_ptr);
if self.len() > self.capacity() {
self.remove_lru();
}
}
}
/// 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;
unsafe {
match (*node_ptr).value {
None => (None, None),
Some(ref value) => (Some(value), Some(node_ptr))
}
}
}
};
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) => lru_entry.value
}
}
/// 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.tail).prev };
self.detach(lru);
unsafe {
match (*lru).key {
None => (),
Some(ref k) => { self.map.pop(&KeyRef{k: k}); }
}
}
}
}
#[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;
}
}
}
impl<A: fmt::Show + Hash + Eq, B: fmt::Show> fmt::Show for LruCache<A, B> {
/// 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 {
if_ok!(write!(f.buf, r"\{"));
let mut cur = self.head;
for i in range(0, self.len()) {
if i > 0 { if_ok!(write!(f.buf, ", ")) }
unsafe {
cur = (*cur).next;
match (*cur).key {
// should never print nil
None => if_ok!(write!(f.buf, "nil")),
Some(ref k) => if_ok!(write!(f.buf, "{}", *k)),
}
}
if_ok!(write!(f.buf, ": "));
unsafe {
match (*cur).value {
// should never print nil
None => if_ok!(write!(f.buf, "nil")),
Some(ref value) => if_ok!(write!(f.buf, "{}", *value)),
}
}
}
write!(f.buf, r"\}")
}
}
impl<K: Hash + Eq, V> Container for LruCache<K, V> {
/// Return the number of key-value pairs in the cache.
fn len(&self) -> uint {
self.map.len()
}
}
impl<K: Hash + Eq, V> Mutable for LruCache<K, V> {
/// 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 {
let _: ~LruEntry<K, V> = cast::transmute(self.head);
let _: ~LruEntry<K, V> = cast::transmute(self.tail);
}
}
}
#[cfg(test)]
mod tests {
use super::LruCache;
fn assert_opt_eq<V: Eq>(opt: Option<&V>, v: V) {
assert!(opt.is_some());
assert_eq!(opt.unwrap(), &v);
}
#[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<~str, ~[u8]> = LruCache::new(1);
cache.put(~"1", ~[10, 10]);
cache.put(~"1", ~[10, 19]);
assert_opt_eq(cache.get(&~"1"), ~[10, 19]);
assert_eq!(cache.len(), 1);
}
#[test]
fn test_expire_lru() {
let mut cache: LruCache<~str, ~str> = LruCache::new(2);
cache.put(~"foo1", ~"bar1");
cache.put(~"foo2", ~"bar2");
cache.put(~"foo3", ~"bar3");
assert!(cache.get(&~"foo1").is_none());
cache.put(~"foo2", ~"bar2update");
cache.put(~"foo4", ~"bar4");
assert!(cache.get(&~"foo3").is_none());
}
#[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);
assert_eq!(cache.to_str(), ~"{3: 30, 2: 20, 1: 10}");
cache.put(2, 22);
assert_eq!(cache.to_str(), ~"{2: 22, 3: 30, 1: 10}");
cache.put(6, 60);
assert_eq!(cache.to_str(), ~"{6: 60, 2: 22, 3: 30}");
cache.get(&3);
assert_eq!(cache.to_str(), ~"{3: 30, 6: 60, 2: 22}");
cache.change_capacity(2);
assert_eq!(cache.to_str(), ~"{3: 30, 6: 60}");
}
#[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());
assert_eq!(cache.to_str(), ~"{}");
}
}
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