aivika-5.3.1: A multi-method simulation library

CopyrightCopyright (c) 2009-2017 David Sorokin <david.sorokin@gmail.com>
LicenseBSD3
MaintainerDavid Sorokin <david.sorokin@gmail.com>
Stabilityexperimental
Safe HaskellNone
LanguageHaskell2010

Simulation.Aivika.Simulation

Contents

Description

Tested with: GHC 8.0.1

The module defines the Simulation monad that represents a computation within the simulation run.

Synopsis

Simulation

data Simulation a Source #

A value in the Simulation monad represents a computation within the simulation run.

Instances

Monad Simulation Source # 

Methods

(>>=) :: Simulation a -> (a -> Simulation b) -> Simulation b #

(>>) :: Simulation a -> Simulation b -> Simulation b #

return :: a -> Simulation a #

fail :: String -> Simulation a #

Functor Simulation Source # 

Methods

fmap :: (a -> b) -> Simulation a -> Simulation b #

(<$) :: a -> Simulation b -> Simulation a #

MonadFix Simulation Source # 

Methods

mfix :: (a -> Simulation a) -> Simulation a #

Applicative Simulation Source # 

Methods

pure :: a -> Simulation a #

(<*>) :: Simulation (a -> b) -> Simulation a -> Simulation b #

(*>) :: Simulation a -> Simulation b -> Simulation b #

(<*) :: Simulation a -> Simulation b -> Simulation a #

MonadIO Simulation Source # 

Methods

liftIO :: IO a -> Simulation a #

ParameterLift Simulation Source # 
SimulationLift Simulation Source # 
ResultComputing Simulation Source # 
ResultItemable (ResultValue a) => ResultProvider (Simulation a) Source # 
(Ix i, Show i, ResultItemable (ResultValue [e])) => ResultProvider (Simulation (Array i e)) Source # 
ResultItemable (ResultValue [e]) => ResultProvider (Simulation (Vector e)) Source # 
(ResultItemable (ResultValue a), ResultItemable (ResultValue (TimingStats a))) => ResultProvider (Simulation (TimingCounter a)) Source # 
(ResultItemable (ResultValue a), ResultItemable (ResultValue (SamplingStats a))) => ResultProvider (Simulation (SamplingCounter a)) Source # 

class SimulationLift m where Source #

A type class to lift the simulation computations to other computations.

Minimal complete definition

liftSimulation

Methods

liftSimulation :: Simulation a -> m a Source #

Lift the specified Simulation computation to another computation.

runSimulation :: Simulation a -> Specs -> IO a Source #

Run the simulation using the specified specs.

runSimulations :: Simulation a -> Specs -> Int -> [IO a] Source #

Run the given number of simulations using the specified specs, where each simulation is distinguished by its index simulationIndex.

runSimulationByIndex Source #

Arguments

:: Simulation a

the simulation model

-> Specs

the simulation specs

-> Int

the number of runs in series

-> Int

the index of the current run (started from 1)

-> IO a 

Run the simulation by the specified specs and run index in series.

Error Handling

catchSimulation :: Exception e => Simulation a -> (e -> Simulation a) -> Simulation a Source #

Exception handling within Simulation computations.

finallySimulation :: Simulation a -> Simulation b -> Simulation a Source #

A computation with finalization part like the finally function.

throwSimulation :: Exception e => e -> Simulation a Source #

Like the standard throw function.

Memoization

memoSimulation :: Simulation a -> Simulation (Simulation a) Source #

Memoize the Simulation computation, always returning the same value within a simulation run.

Exceptions

data SimulationRetry Source #

An exception that signals that the current computation should be retried as possible, which feature may be supported by the simulation engine or not.

Constructors

SimulationRetry String

The exception to retry the computation.