aivika-2.0: examples/ChemicalReactionCircuit.hs
-- Note that the integCircut function uses Euler's method regardless of
-- the simulation specs specified. Therefore, to receieve almost the same
-- results in the old example based on using the integ function, you should
-- specify Euler's method in their specs in that file, although the Runge-Kutta
-- method gives similar results too, which is expected.
--
-- Finally, the integ function can be significantly faster than integCircuit,
-- although they have different purposes.
{-# LANGUAGE Arrows #-}
import Control.Arrow
import Simulation.Aivika
specs = Specs { spcStartTime = 0,
spcStopTime = 13,
spcDT = 0.01,
spcMethod = RungeKutta4,
spcGeneratorType = SimpleGenerator }
circuit :: Circuit () [Double]
circuit =
let ka = 1
kb = 1
in proc () -> do
rec let da = - ka * a
db = ka * a - kb * b
dc = kb * b
a <- integCircuit 100 -< da
b <- integCircuit 0 -< db
c <- integCircuit 0 -< dc
returnA -< [a, b, c]
model :: Simulation [Double]
model =
do results <-
runTransform (circuitTransform circuit) $
return ()
runDynamicsInStopTime results
main = runSimulation model specs >>= print