{-# OPTIONS_GHC -Wall #-} import qualified Data.Vector.Storable as V import Numeric.Sundials.Arkode.ODE import Numeric.LinearAlgebra import Plots as P import qualified Diagrams.Prelude as D import Diagrams.Backend.Rasterific import Control.Lens import Data.List (zip4) import Text.PrettyPrint.HughesPJClass import Data.List (intercalate) brusselator _t x = [ a - (w + 1) * u + v * u^2 , w * u - v * u^2 , (b - w) / eps - w * u ] where a = 1.0 b = 3.5 eps = 5.0e-6 u = x !! 0 v = x !! 1 w = x !! 2 brussJac _t x = (3><3) [ (-(w + 1.0)) + 2.0 * u * v, w - 2.0 * u * v, (-w) , u * u , (-(u * u)) , 0.0 , (-u) , u , (-1.0) / eps - u ] where y = toList x u = y !! 0 v = y !! 1 w = y !! 2 eps = 5.0e-6 stiffish t v = [ lamda * u + 1.0 / (1.0 + t * t) - lamda * atan t ] where lamda = -100.0 u = v !! 0 stiffJac _t _v = (1><1) [ lamda ] where lamda = -100.0 lSaxis :: [[Double]] -> P.Axis B D.V2 Double lSaxis xs = P.r2Axis &~ do let ts = xs!!0 us = xs!!1 vs = xs!!2 ws = xs!!3 P.linePlot' $ zip ts us P.linePlot' $ zip ts vs P.linePlot' $ zip ts ws kSaxis :: [(Double, Double)] -> P.Axis B D.V2 Double kSaxis xs = P.r2Axis &~ do P.linePlot' xs butcherTableauTex :: (Show a, Element a) => Matrix a -> String butcherTableauTex m = render $ vcat [ text ("\n\\begin{array}{c|" ++ (concat $ replicate n "c") ++ "}") , us , text "\\end{array}" ] where n = rows m rs = toLists m ss = map (\r -> intercalate " & " $ map show r) rs ts = zipWith (\n r -> "c_" ++ show n ++ " & " ++ r) [1..n] ss us = vcat $ map (\r -> text r <+> text "\\\\") ts main :: IO () main = do -- $$ -- \begin{array}{c|cccc} -- c_1 & a_{11} & a_{12}& \dots & a_{1s}\\ -- c_2 & a_{21} & a_{22}& \dots & a_{2s}\\ -- \vdots & \vdots & \vdots& \ddots& \vdots\\ -- c_s & a_{s1} & a_{s2}& \dots & a_{ss} \\ -- \hline -- & b_1 & b_2 & \dots & b_s\\ -- & b^*_1 & b^*_2 & \dots & b^*_s\\ -- \end{array} -- $$ let res = btGet SDIRK_2_1_2 putStrLn $ show res putStrLn $ butcherTableauTex res let res1 = odeSolve KVAERNO_4_2_3 brussJac brusselator [1.2, 3.1, 3.0] (fromList [0.0, 0.1 .. 10.0]) putStrLn $ show res1 renderRasterific "diagrams/brusselator.png" (D.dims2D 500.0 500.0) (renderAxis $ lSaxis $ [0.0, 0.1 .. 10.0]:(toLists $ tr res1)) let res2 = odeSolve KVAERNO_4_2_3 stiffJac stiffish [0.0] (fromList [0.0, 0.1 .. 10.0]) putStrLn $ show res2 renderRasterific "diagrams/stiffish.png" (D.dims2D 500.0 500.0) (renderAxis $ kSaxis $ zip [0.0, 0.1 .. 10.0] (concat $ toLists res2))