Copyright | Copyright (c) 2009-2014, David Sorokin <david.sorokin@gmail.com> |
---|---|
License | BSD3 |
Maintainer | David Sorokin <david.sorokin@gmail.com> |
Stability | experimental |
Safe Haskell | Safe-Inferred |
Language | Haskell2010 |
Tested with: GHC 7.8.3
The module defines the DynamicsT
monad tranformer representing a time varying polymorphic function.
- data Dynamics m a
- class DynamicsLift t where
- liftDynamics :: MonadComp m => Dynamics m a -> t m a
- runDynamicsInStartTime :: Dynamics m a -> Simulation m a
- runDynamicsInStopTime :: Dynamics m a -> Simulation m a
- runDynamicsInIntegTimes :: Monad m => Dynamics m a -> Simulation m [m a]
- runDynamicsInTime :: Double -> Dynamics m a -> Simulation m a
- runDynamicsInTimes :: Monad m => [Double] -> Dynamics m a -> Simulation m [m a]
- catchDynamics :: (MonadComp m, Exception e) => Dynamics m a -> (e -> Dynamics m a) -> Dynamics m a
- finallyDynamics :: MonadComp m => Dynamics m a -> Dynamics m b -> Dynamics m a
- throwDynamics :: (MonadComp m, Exception e) => e -> Dynamics m a
- time :: Monad m => Dynamics m Double
- isTimeInteg :: Monad m => Dynamics m Bool
- integIteration :: Monad m => Dynamics m Int
- integPhase :: Monad m => Dynamics m Int
Dynamics Monad
A value in the Dynamics
monad represents a polymorphic time varying function
defined in the whole spectrum of time values as a single entity. It is ideal for
numerical approximating integrals.
MonadTrans Dynamics | |
MonadCompTrans Dynamics | |
ParameterLift Dynamics | |
SimulationLift Dynamics | |
DynamicsLift Dynamics | |
MonadComp m => ResultComputing Dynamics m | |
Monad m => Monad (Dynamics m) | |
Functor m => Functor (Dynamics m) | |
MonadFix m => MonadFix (Dynamics m) | |
Applicative m => Applicative (Dynamics m) | |
MonadIO m => MonadIO (Dynamics m) | |
(Floating a, Monad m) => Floating (Dynamics m a) | |
(Fractional a, Monad m) => Fractional (Dynamics m a) | |
(Num a, Monad m) => Num (Dynamics m a) |
class DynamicsLift t where Source
A type class to lift the Dynamics
computations into other computations.
liftDynamics :: MonadComp m => Dynamics m a -> t m a Source
Lift the specified Dynamics
computation into another computation.
runDynamicsInStartTime :: Dynamics m a -> Simulation m a Source
Run the Dynamics
computation in the initial time point.
runDynamicsInStopTime :: Dynamics m a -> Simulation m a Source
Run the Dynamics
computation in the final time point.
runDynamicsInIntegTimes :: Monad m => Dynamics m a -> Simulation m [m a] Source
Run the Dynamics
computation in all integration time points.
runDynamicsInTime :: Double -> Dynamics m a -> Simulation m a Source
Run the Dynamics
computation in the specified time point.
runDynamicsInTimes :: Monad m => [Double] -> Dynamics m a -> Simulation m [m a] Source
Run the Dynamics
computation in the specified time points.
Error Handling
catchDynamics :: (MonadComp m, Exception e) => Dynamics m a -> (e -> Dynamics m a) -> Dynamics m a Source
Exception handling within Dynamics
computations.
finallyDynamics :: MonadComp m => Dynamics m a -> Dynamics m b -> Dynamics m a Source
A computation with finalization part like the finally
function.
throwDynamics :: (MonadComp m, Exception e) => e -> Dynamics m a Source
Like the standard throw
function.
Simulation Time
isTimeInteg :: Monad m => Dynamics m Bool Source
Whether the current time is an integration time.
integIteration :: Monad m => Dynamics m Int Source
Return the integration iteration closest to the current simulation time.
integPhase :: Monad m => Dynamics m Int Source
Return the integration phase for the current simulation time.
It is (-1)
for non-integration time points.