Copyright  Copyright (c) 20092016, David Sorokin <david.sorokin@gmail.com> 

License  BSD3 
Maintainer  David Sorokin <david.sorokin@gmail.com> 
Stability  experimental 
Safe Haskell  None 
Language  Haskell2010 
Tested with: GHC 8.0.1
The module defines something which is most close to the notion of analogous circuit as an opposite to the digital one.
 newtype Transform a b = Transform {
 runTransform :: Dynamics a > Simulation (Dynamics b)
 delayTransform :: Dynamics Double > Dynamics a > Transform a a
 timeTransform :: Transform a Double
 integTransform :: Dynamics Double > Transform Double Double
 integTransformEither :: Dynamics Double > Transform (Either Double Double) Double
 sumTransform :: (Num a, Unboxed a) => Dynamics a > Transform a a
 sumTransformEither :: (Num a, Unboxed a) => Dynamics a > Transform (Either a a) a
The Transform Arrow
newtype Transform a b Source #
It allows representing an analogous circuit as an opposite to the digital one.
This is a transform of one time varying function to another usually
specified in the integration time points and then interpolated in
other time points with help of one of the memoization functions
like memo0Dynamics
.
Transform  

Delaying the Transform
The Time Transform
timeTransform :: Transform a Double Source #
A transform that returns the current modeling time.
Differential and Difference Equations
:: Dynamics Double  the initial value 
> Transform (Either Double Double) Double  map either a new 
Like integTransform
but allows either setting a new Left
value of the integral,
or updating it by the specified Right
derivative.