-- | -- Module: Data.Cache -- Copyright: (c) 2016 Henri Verroken -- License: BSD3 -- Maintainer: Henri Verroken -- Stability: stable -- -- An in-memory key/value store with expiration support, similar -- to patrickmn/go-cache for Go. -- -- The cache is a shared mutable HashMap implemented using STM. It -- supports item expiration. module Data.Cache ( -- * How to use this library -- $use -- * Creating a cache Cache , newCache , newCacheSTM -- * Cache properties , defaultExpiration , setDefaultExpiration , copyCache , copyCacheSTM -- * Managing items -- ** Insertion , insert , insert' , insertSTM -- ** Querying , lookup , lookup' , lookupSTM , keys , keysSTM -- ** Deletion , delete , deleteSTM , purgeExpired , purgeExpiredSTM -- * Cache information , size , sizeSTM ) where import Prelude hiding (lookup) import Control.Concurrent.STM import Control.Monad import Control.Monad.Trans.Maybe import Data.Cache.Internal import qualified Data.HashMap.Strict as HM import Data.Hashable import Data.Maybe import System.Clock -- | Change the default expiration value of newly added cache items. -- -- See 'newCache' for more information on the default expiration value. setDefaultExpiration :: Cache k v -> Maybe TimeSpec -> Cache k v setDefaultExpiration c t = c { defaultExpiration = t } isExpired :: TimeSpec -> CacheItem v -> Bool isExpired t i = fromMaybe False (itemExpiration i >>= f t) where f now' e | e < now' = Just True | otherwise = Just False -- | Create a new cache with a default expiration value for newly -- added cache items. -- -- Items that are added to the cache without an explicit expiration value -- (using 'insert') will be inserted with the default expiration value. -- -- If the specified default expiration value is `Nothing`, items inserted -- by 'insert' will never expire. newCache :: Maybe TimeSpec -> IO (Cache k v) newCache d = do m <- newTVarIO HM.empty return Cache { container = m, defaultExpiration = d } -- | STM variant of 'newCache' newCacheSTM :: Maybe TimeSpec -> STM (Cache k v) newCacheSTM d = do m <- newTVar HM.empty return Cache { container = m, defaultExpiration = d } copyCacheSTM :: Cache k v -> STM (Cache k v) copyCacheSTM c = do m <- newTVar =<< readTVar (container c) return c { container = m } -- | Create a deep copy of the cache. copyCache :: Cache k v -> IO (Cache k v) copyCache = atomically . copyCacheSTM -- | STM variant of 'size' sizeSTM :: Cache k v -> STM Int sizeSTM c = HM.size <$> readTVar (container c) -- | Return the size of the cache, including expired items. size :: Cache k v -> IO Int size = atomically . sizeSTM -- | STM variant of 'delete'. deleteSTM :: (Eq k, Hashable k) => k -> Cache k v -> STM () deleteSTM k c = writeTVar v =<< (HM.delete k <$> readTVar v) where v = container c -- | Delete an item from the cache. Won't do anything if the item is not present. delete :: (Eq k, Hashable k) => Cache k v -> k -> IO () delete c k = atomically $ deleteSTM k c lookupItem' :: (Eq k, Hashable k) => k -> Cache k v -> STM (Maybe (CacheItem v)) lookupItem' k c = HM.lookup k <$> readTVar (container c) lookupItemT :: (Eq k, Hashable k) => Bool -> k -> Cache k v -> TimeSpec -> STM (Maybe (CacheItem v)) lookupItemT del k c t = runMaybeT $ do i <- MaybeT (lookupItem' k c) let e = isExpired t i _ <- when (e && del) (MaybeT $ Just <$> deleteSTM k c) if e then MaybeT $ return Nothing else MaybeT $ return (Just i) lookupItem :: (Eq k, Hashable k) => Bool -> k -> Cache k v -> IO (Maybe (CacheItem v)) lookupItem del k c = (atomically . lookupItemT del k c) =<< now -- | Lookup an item with the given key, but don't delete it if it is expired. -- -- The function will only return a value if it is present in the cache and if -- the item is not expired. -- -- The function will not delete the item from the cache. lookup' :: (Eq k, Hashable k) => Cache k v -> k -> IO (Maybe v) lookup' c k = runMaybeT $ item <$> MaybeT (lookupItem False k c) -- | Lookup an item with the given key, and delete it if it is expired. -- -- The function will only return a value if it is present in the cache and if -- the item is not expired. -- -- The function will eagerly delete the item from the cache if it is expired. lookup :: (Eq k, Hashable k) => Cache k v -> k -> IO (Maybe v) lookup c k = runMaybeT $ item <$> MaybeT (lookupItem True k c) -- | Lookup an item with a given key in the 'STM' monad, given the current 'Monotonic' time. -- -- STM variant of 'lookup' and 'lookup'' lookupSTM :: (Eq k, Hashable k) => Bool -- ^ Whether or not to eagerly delete the item if its expired -> k -- ^ The key to lookup -> Cache k v -- ^ The cache -> TimeSpec -- ^ The current 'Monotonic' time, i.e. @getTime Monotonic@ -> STM (Maybe v) lookupSTM f k c t = do mv <- lookupItemT f k c t return $! item <$> mv insertItem :: (Eq k, Hashable k) => k -> CacheItem v -> Cache k v -> STM () insertItem k a c = writeTVar v =<< (HM.insert k a <$> readTVar v) where v = container c -- | Insert an item in the cache, with an explicit expiration value, in the -- 'STM' monad. -- -- If the expiration value is 'Nothing', the item will never expire. The -- default expiration value of the cache is ignored. -- -- The expiration value is the absolute 'Monotonic' time the item expires. You -- should manually construct the absolute 'Monotonic' time, as opposed to the -- behaviour of 'insert''. -- -- E.g. -- -- > action :: Cache -> IO () -- > action c = do -- > t <- getTime Monotonic -- > let t' = t + (defaultExpiration c) -- > atomically $ insertSTM 0 0 c (Just t') -- insertSTM :: (Eq k, Hashable k) => k -> v -> Cache k v -> Maybe TimeSpec -> STM () insertSTM k a c t = insertItem k (CacheItem a t) c -- | Insert an item in the cache, with an explicit expiration value. -- -- If the expiration value is 'Nothing', the item will never expire. The -- default expiration value of the cache is ignored. -- -- The expiration value is relative to the current 'Monotonic' time, i.e. it -- will be automatically added to the result of @getTime Monotonic@. insert' :: (Eq k, Hashable k) => Cache k v -> Maybe TimeSpec -> k -> v -> IO () insert' c Nothing k a = atomically $ insertSTM k a c Nothing insert' c (Just d) k a = atomically . insertSTM k a c =<< Just . (d +) <$> now -- | Insert an item in the cache, using the default expiration value of -- the cache. insert :: (Eq k, Hashable k) => Cache k v -> k -> v -> IO () insert c = insert' c (defaultExpiration c) -- | STM variant of 'keys'. keysSTM :: Cache k v -> STM [k] keysSTM c = HM.keys <$> readTVar (container c) -- | Return all keys present in the cache. keys :: Cache k v -> IO [k] keys = atomically . keysSTM now :: IO TimeSpec now = getTime Monotonic -- | STM variant of 'purgeExpired'. -- -- The 'TimeSpec' argument should be the current 'Monotonic' time, i.e. -- @getTime Monotonic@. purgeExpiredSTM :: (Eq k, Hashable k) => Cache k v -> TimeSpec -> STM () purgeExpiredSTM c t = mapM_ (\k -> lookupItemT True k c t) =<< keysSTM c -- | Delete all items that are expired. -- -- This is one big atomic operation. purgeExpired :: (Eq k, Hashable k) => Cache k v -> IO () purgeExpired c = (atomically . purgeExpiredSTM c) =<< now -- $use -- -- All operations are automically executed in the IO monad. The -- underlying data structure is @Data.HashMap.Strict@. -- -- First create a cache using 'newCache' and possibly a default -- expiration value. Items can now be inserted using 'insert' and -- 'insert''. -- -- 'lookup' and 'lookup'' are used to query items. These functions -- only return a value when the item is in the cache and it is not -- expired. The 'lookup' function will automatically delete the -- item if it is expired, while 'lookup'' won't delete the item. -- -- Note that items are __not purged automatically__ in the background when they -- expire. You have to manually call 'lookup' to purge a single item, or call -- 'purgeExpired' to purge all expired items. -- -- > >>> c <- newCache Nothing :: IO (Cache String String) -- > >>> insert c "key" "value" -- > >>> lookup c "key" -- > Just "value" -- > >>> delete c "key" -- > >>> lookup c "key" -- > Nothing