aivika-2.0: Simulation/Aivika/QueueStrategy.hs
{-# LANGUAGE TypeFamilies, MultiParamTypeClasses, FunctionalDependencies #-}
-- |
-- Module : Simulation.Aivika.QueueStrategy
-- Copyright : Copyright (c) 2009-2014, David Sorokin <david.sorokin@gmail.com>
-- License : BSD3
-- Maintainer : David Sorokin <david.sorokin@gmail.com>
-- Stability : experimental
-- Tested with: GHC 7.8.3
--
-- This module defines the queue strategies.
--
module Simulation.Aivika.QueueStrategy where
import System.Random
import Control.Monad.Trans
import Simulation.Aivika.Simulation
import Simulation.Aivika.Event
import Simulation.Aivika.DoubleLinkedList
import qualified Simulation.Aivika.PriorityQueue as PQ
import qualified Simulation.Aivika.Vector as V
-- | Defines the basic queue strategy.
class QueueStrategy s where
-- | A queue used by the strategy.
data StrategyQueue s :: * -> *
-- | Create a new queue by the specified strategy.
newStrategyQueue :: s
-- ^ the strategy
-> Simulation (StrategyQueue s i)
-- ^ a new queue
-- | Test whether the queue is empty.
strategyQueueNull :: StrategyQueue s i
-- ^ the queue
-> Event Bool
-- ^ the result of the test
-- | Defines a strategy with support of the dequeuing operation.
class QueueStrategy s => DequeueStrategy s where
-- | Dequeue the front element and return it.
strategyDequeue :: StrategyQueue s i
-- ^ the queue
-> Event i
-- ^ the dequeued element
-- | It defines a strategy when we can enqueue a single element.
class DequeueStrategy s => EnqueueStrategy s where
-- | Enqueue an element.
strategyEnqueue :: StrategyQueue s i
-- ^ the queue
-> i
-- ^ the element to be enqueued
-> Event ()
-- ^ the action of enqueuing
-- | It defines a strategy when we can enqueue an element with the specified priority.
class DequeueStrategy s => PriorityQueueStrategy s p | s -> p where
-- | Enqueue an element with the specified priority.
strategyEnqueueWithPriority :: StrategyQueue s i
-- ^ the queue
-> p
-- ^ the priority
-> i
-- ^ the element to be enqueued
-> Event ()
-- ^ the action of enqueuing
-- | 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)
-- | An implementation of the 'FCFS' queue strategy.
instance QueueStrategy FCFS where
-- | A queue used by the 'FCFS' strategy.
newtype StrategyQueue FCFS i = FCFSQueue (DoubleLinkedList i)
newStrategyQueue s = fmap FCFSQueue $ liftIO newList
strategyQueueNull (FCFSQueue q) = liftIO $ listNull q
-- | An implementation of the 'FCFS' queue strategy.
instance DequeueStrategy FCFS where
strategyDequeue (FCFSQueue q) =
liftIO $
do i <- listFirst q
listRemoveFirst q
return i
-- | An implementation of the 'FCFS' queue strategy.
instance EnqueueStrategy FCFS where
strategyEnqueue (FCFSQueue q) i = liftIO $ listAddLast q i
-- | An implementation of the 'LCFS' queue strategy.
instance QueueStrategy LCFS where
-- | A queue used by the 'LCFS' strategy.
newtype StrategyQueue LCFS i = LCFSQueue (DoubleLinkedList i)
newStrategyQueue s = fmap LCFSQueue $ liftIO newList
strategyQueueNull (LCFSQueue q) = liftIO $ listNull q
-- | An implementation of the 'LCFS' queue strategy.
instance DequeueStrategy LCFS where
strategyDequeue (LCFSQueue q) =
liftIO $
do i <- listFirst q
listRemoveFirst q
return i
-- | An implementation of the 'LCFS' queue strategy.
instance EnqueueStrategy LCFS where
strategyEnqueue (LCFSQueue q) i = liftIO $ listInsertFirst q i
-- | An implementation of the 'StaticPriorities' queue strategy.
instance QueueStrategy StaticPriorities where
-- | A queue used by the 'StaticPriorities' strategy.
newtype StrategyQueue StaticPriorities i = StaticPriorityQueue (PQ.PriorityQueue i)
newStrategyQueue s = fmap StaticPriorityQueue $ liftIO PQ.newQueue
strategyQueueNull (StaticPriorityQueue q) = liftIO $ PQ.queueNull q
-- | An implementation of the 'StaticPriorities' queue strategy.
instance DequeueStrategy StaticPriorities where
strategyDequeue (StaticPriorityQueue q) =
liftIO $
do (_, i) <- PQ.queueFront q
PQ.dequeue q
return i
-- | An implementation of the 'StaticPriorities' queue strategy.
instance PriorityQueueStrategy StaticPriorities Double where
strategyEnqueueWithPriority (StaticPriorityQueue q) p i = liftIO $ PQ.enqueue q p i
-- | An implementation of the 'SIRO' queue strategy.
instance QueueStrategy SIRO where
-- | A queue used by the 'SIRO' strategy.
newtype StrategyQueue SIRO i = SIROQueue (V.Vector i)
newStrategyQueue s = fmap SIROQueue $ liftIO V.newVector
strategyQueueNull (SIROQueue q) =
liftIO $
do n <- V.vectorCount q
return (n == 0)
-- | An implementation of the 'SIRO' queue strategy.
instance DequeueStrategy SIRO where
strategyDequeue (SIROQueue q) =
liftIO $
do n <- V.vectorCount q
i <- getStdRandom (randomR (0, n - 1))
x <- V.readVector q i
V.vectorDeleteAt q i
return x
-- | An implementation of the 'SIRO' queue strategy.
instance EnqueueStrategy SIRO where
strategyEnqueue (SIROQueue q) i = liftIO $ V.appendVector q i