Crate cached [] [src]

Build Status crates.io docs

Caching structures and simplified function memoization

cached provides implementations of several caching structures as well as a handy macro for defining memoized functions.

Defining memoized functions using cached!

cached! defined functions will have their results cached using the function's arguments as a key (or a specific expression when using cached_key!). When a cached! defined function is called, the function's cache is first checked for an already computed (and still valid) value before evaluating the function body.

Due to the requirements of storing arguments and return values in a global cache:

  • Function return types must be owned and implement Clone
  • Function arguments must either be owned and implement Hash + Eq + Clone OR the cached_key! macro must be used to convert arguments into an owned + Hash + Eq + Clone type.
  • Arguments and return values will be cloned in the process of insertion and retrieval.
  • cached! functions should not be used to produce side-effectual results!

NOTE: Any custom cache that implements cached::Cached can be used with the cached macros in place of the built-ins.

See examples for basic usage and an example of implementing a custom cache-store.

cached! and cached_key! Usage & Options:

There are several options depending on how explicit you want to be. See below for a full syntax breakdown.

1.) Using the shorthand will use an unbounded cache.

#[macro_use] extern crate cached;
#[macro_use] extern crate lazy_static;

cached!{
    FIB;
    fn fib(n: u64) -> u64 = {
        if n == 0 || n == 1 { return n }
        fib(n-1) + fib(n-2)
    }
}

2.) Using the full syntax requires specifying the full cache type and providing an instance of the cache to use. Note that the cache's key-type is a tuple of the function argument types. If you would like fine grained control over the key, you can use the cached_key! macro. For example, a SizedCache (LRU):

#[macro_use] extern crate cached;
#[macro_use] extern crate lazy_static;

use std::thread::sleep;
use std::time::Duration;
use cached::SizedCache;

cached!{
    FIB: SizedCache<(u64, u64), u64> = SizedCache::with_capacity(50);
    fn fib(a: u64, b: u64) -> u64 = {
        sleep(Duration::new(2, 0));
        return a * b;
    }
}

3.) The cached_key macro functions identically, but allows you define the cache key as an expression.

#[macro_use] extern crate cached;
#[macro_use] extern crate lazy_static;

use std::thread::sleep;
use std::time::Duration;
use cached::SizedCache;

cached_key!{
    FIB: SizedCache<String, usize> = SizedCache::with_capacity(50);
    Key = { format!("{}{}", a, b) };
    fn fib(a: &str, b: &str) -> usize = {
        let size = a.len() + b.len();
        sleep(Duration::new(size as u64, 0));
        size
    }
}

Syntax

The complete macro syntax is:

Be careful when using this code, it's not being tested!
cached_key!{
    CACHE_NAME: CacheType = CacheInstance;
    Key = KeyExpression;
    fn func_name(arg1: arg_type, arg2: arg_type) -> return_type = {
        // do stuff like normal
        return_type
    }
}

Where:

  • CACHE_NAME is the unique name used to hold a static ref to the cache
  • CacheType is the full type of the cache
  • CacheInstance is any expression that yields an instance of CacheType to be used as the cache-store, followed by ;
  • When using the cached_key! macro, the "Key" line must be specified. This line must start with the literal tokens Key =, followed by an expression that evaluates to the key, followed by ;
  • fn func_name(arg1: arg_type) -> return_type is the same form as a regular function signature, with the exception that functions with no return value must be explicitly stated (e.g. fn func_name(arg: arg_type) -> ())
  • The expression following = is the function body assigned to func_name. Note, the function body can make recursive calls to its cached-self (func_name).

Reexports

pub use stores::UnboundCache;
pub use stores::SizedCache;
pub use stores::TimedCache;

Modules

macros

Macro for defining functions that wrap a static-ref cache object.

stores

Implementation of various caches

Macros

cached
cached_key

Traits

Cached

Cache operations