{-# LANGUAGE TypeFamilies, MultiParamTypeClasses, FlexibleInstances, FlexibleContexts, FunctionalDependencies, UndecidableInstances #-} -- | -- Module : Simulation.Aivika.Trans.QueueStrategy -- Copyright : Copyright (c) 2009-2015, David Sorokin <david.sorokin@gmail.com> -- License : BSD3 -- Maintainer : David Sorokin <david.sorokin@gmail.com> -- Stability : experimental -- Tested with: GHC 7.10.1 -- -- This module defines the queue strategies. -- module Simulation.Aivika.Trans.QueueStrategy where import Control.Monad import Data.Maybe import Simulation.Aivika.Trans.Internal.Types -- | Defines the basic queue strategy. class Monad m => QueueStrategy m s where -- | The strategy queue. data StrategyQueue m s :: * -> * -- | Create a new queue by the specified strategy. newStrategyQueue :: s -- ^ the strategy -> Simulation m (StrategyQueue m s a) -- ^ a new queue -- | Test whether the queue is empty. strategyQueueNull :: StrategyQueue m s a -- ^ the queue -> Event m Bool -- ^ the result of the test -- | Defines a strategy with support of the dequeuing operation. class QueueStrategy m s => DequeueStrategy m s where -- | Dequeue the front element and return it. strategyDequeue :: StrategyQueue m s a -- ^ the queue -> Event m a -- ^ the dequeued element -- | It defines a strategy when we can enqueue a single element. class DequeueStrategy m s => EnqueueStrategy m s where -- | Enqueue an element. strategyEnqueue :: StrategyQueue m s a -- ^ the queue -> a -- ^ the element to be enqueued -> Event m () -- ^ the action of enqueuing -- | It defines a strategy when we can enqueue an element with the specified priority. class DequeueStrategy m s => PriorityQueueStrategy m s p | s -> p where -- | Enqueue an element with the specified priority. strategyEnqueueWithPriority :: StrategyQueue m s a -- ^ the queue -> p -- ^ the priority -> a -- ^ the element to be enqueued -> Event m () -- ^ the action of enqueuing -- | Defines a strategy with support of the deleting operation. class DequeueStrategy m s => DeletingQueueStrategy m s where -- | Remove the element and return a flag indicating whether -- the element was found and removed. strategyQueueDelete :: Eq a => StrategyQueue m s a -- ^ the queue -> a -- ^ the element -> Event m Bool -- ^ whether the element was found and removed strategyQueueDelete s a = Event $ \p -> do x <- invokeEvent p $ strategyQueueDeleteBy s (== a) return (isJust x) -- | Remove an element satisfying the predicate and return the element if found. strategyQueueDeleteBy :: StrategyQueue m s a -- ^ the queue -> (a -> Bool) -- ^ the predicate -> Event m (Maybe a) -- ^ the element if it was found and removed -- | Detect whether the specified element is contained in the queue. strategyQueueContains :: Eq a => StrategyQueue m s a -- ^ the queue -> a -- ^ the element to find -> Event m Bool -- ^ whether the element is contained in the queue strategyQueueContains s a = Event $ \p -> do x <- invokeEvent p $ strategyQueueContainsBy s (== a) return (isJust x) -- | Detect whether an element satifying the specified predicate is contained in the queue. strategyQueueContainsBy :: StrategyQueue m s a -- ^ the queue -> (a -> Bool) -- ^ the predicate -> Event m (Maybe a) -- ^ the element if it was found -- | Strategy: First Come - First Served (FCFS). data FCFS = FCFS deriving (Eq, Ord, Show) -- | Strategy: Last Come - First Served (LCFS) data LCFS = LCFS deriving (Eq, Ord, Show) -- | Strategy: Service in Random Order (SIRO). data SIRO = SIRO deriving (Eq, Ord, Show) -- | Strategy: Static Priorities. It uses the priority queue. data StaticPriorities = StaticPriorities deriving (Eq, Ord, Show)