diff options
Diffstat (limited to 'packages')
-rw-r--r-- | packages/sundials/src/Main.hs | 10 | ||||
-rw-r--r-- | packages/sundials/src/Numeric/Sundials/ARKode/ODE.hs | 38 |
2 files changed, 36 insertions, 12 deletions
diff --git a/packages/sundials/src/Main.hs b/packages/sundials/src/Main.hs index 9978aa5..6d6a397 100644 --- a/packages/sundials/src/Main.hs +++ b/packages/sundials/src/Main.hs | |||
@@ -69,6 +69,12 @@ stiffish t v = [ lamda * u + 1.0 / (1.0 + t * t) - lamda * atan t ] | |||
69 | lamda = -100.0 | 69 | lamda = -100.0 |
70 | u = v !! 0 | 70 | u = v !! 0 |
71 | 71 | ||
72 | stiffishV :: Double -> Vector Double -> Vector Double | ||
73 | stiffishV t v = fromList [ lamda * u + 1.0 / (1.0 + t * t) - lamda * atan t ] | ||
74 | where | ||
75 | lamda = -100.0 | ||
76 | u = v ! 0 | ||
77 | |||
72 | stiffJac :: Double -> Vector Double -> Matrix Double | 78 | stiffJac :: Double -> Vector Double -> Matrix Double |
73 | stiffJac _t _v = (1><1) [ lamda ] | 79 | stiffJac _t _v = (1><1) [ lamda ] |
74 | where | 80 | where |
@@ -143,6 +149,10 @@ main = do | |||
143 | (D.dims2D 500.0 500.0) | 149 | (D.dims2D 500.0 500.0) |
144 | (renderAxis $ kSaxis $ zip [0.0, 0.1 .. 10.0] (concat $ toLists res2)) | 150 | (renderAxis $ kSaxis $ zip [0.0, 0.1 .. 10.0] (concat $ toLists res2)) |
145 | 151 | ||
152 | let res2a = odeSolveV (SDIRK_5_3_4 stiffJac) 0.1 1e-3 1e-6 stiffishV (fromList [0.0]) (fromList [0.0, 0.1 .. 10.0]) | ||
153 | putStrLn "Lower tolerances" | ||
154 | putStrLn $ show res2a | ||
155 | |||
146 | let res3 = odeSolve' (SDIRK_5_3_4 lorenzJac) lorenz [-5.0, -5.0, 1.0] (fromList [0.0, 0.01 .. 10.0]) | 156 | let res3 = odeSolve' (SDIRK_5_3_4 lorenzJac) lorenz [-5.0, -5.0, 1.0] (fromList [0.0, 0.01 .. 10.0]) |
147 | putStrLn $ show $ last ((toLists $ tr res3)!!0) | 157 | putStrLn $ show $ last ((toLists $ tr res3)!!0) |
148 | 158 | ||
diff --git a/packages/sundials/src/Numeric/Sundials/ARKode/ODE.hs b/packages/sundials/src/Numeric/Sundials/ARKode/ODE.hs index 9ddb3df..85f1b3d 100644 --- a/packages/sundials/src/Numeric/Sundials/ARKode/ODE.hs +++ b/packages/sundials/src/Numeric/Sundials/ARKode/ODE.hs | |||
@@ -215,7 +215,7 @@ odeSolveV | |||
215 | -> Vector Double -- ^ desired solution times | 215 | -> Vector Double -- ^ desired solution times |
216 | -> Matrix Double -- ^ solution | 216 | -> Matrix Double -- ^ solution |
217 | odeSolveV meth _hi epsAbs epsRel f y0 ts = | 217 | odeSolveV meth _hi epsAbs epsRel f y0 ts = |
218 | case odeSolveVWith meth (XX' epsAbs epsRel 1 1) epsAbs epsAbs g y0 ts of | 218 | case odeSolveVWith meth (X epsAbs epsRel) g y0 ts of |
219 | Left c -> error $ show c -- FIXME | 219 | Left c -> error $ show c -- FIXME |
220 | -- FIXME: Can we do better than using lists? | 220 | -- FIXME: Can we do better than using lists? |
221 | Right (v, d) -> trace (show d) $ (nR >< nC) (V.toList v) | 221 | Right (v, d) -> trace (show d) $ (nR >< nC) (V.toList v) |
@@ -235,7 +235,7 @@ odeSolve :: (Double -> [Double] -> [Double]) -- ^ The RHS of the system \(\dot{y | |||
235 | -> Matrix Double -- ^ solution | 235 | -> Matrix Double -- ^ solution |
236 | odeSolve f y0 ts = | 236 | odeSolve f y0 ts = |
237 | -- FIXME: These tolerances are different from the ones in GSL | 237 | -- FIXME: These tolerances are different from the ones in GSL |
238 | case odeSolveVWith SDIRK_5_3_4' (XX' 1.0e-6 1.0e-10 1 1) 1.0e-6 1.0e-10 g (V.fromList y0) (V.fromList $ toList ts) of | 238 | case odeSolveVWith SDIRK_5_3_4' (XX' 1.0e-6 1.0e-10 1 1) g (V.fromList y0) (V.fromList $ toList ts) of |
239 | Left c -> error $ show c -- FIXME | 239 | Left c -> error $ show c -- FIXME |
240 | Right (v, d) -> trace (show d) $ (nR >< nC) (V.toList v) | 240 | Right (v, d) -> trace (show d) $ (nR >< nC) (V.toList v) |
241 | where | 241 | where |
@@ -250,7 +250,7 @@ odeSolve' :: ODEMethod | |||
250 | -> Vector Double -- ^ desired solution times | 250 | -> Vector Double -- ^ desired solution times |
251 | -> Matrix Double -- ^ solution | 251 | -> Matrix Double -- ^ solution |
252 | odeSolve' method f y0 ts = | 252 | odeSolve' method f y0 ts = |
253 | case odeSolveVWith method (XX' 1.0e-6 1.0e-10 1 1) 1.0e-6 1.0e-10 g (V.fromList y0) (V.fromList $ toList ts) of | 253 | case odeSolveVWith method (XX' 1.0e-6 1.0e-10 1 1) g (V.fromList y0) (V.fromList $ toList ts) of |
254 | Left c -> error $ show c -- FIXME | 254 | Left c -> error $ show c -- FIXME |
255 | Right (v, d) -> trace (show d) $ (nR >< nC) (V.toList v) | 255 | Right (v, d) -> trace (show d) $ (nR >< nC) (V.toList v) |
256 | where | 256 | where |
@@ -262,36 +262,40 @@ odeSolve' method f y0 ts = | |||
262 | odeSolveVWith :: | 262 | odeSolveVWith :: |
263 | ODEMethod | 263 | ODEMethod |
264 | -> StepControl | 264 | -> StepControl |
265 | -> Double | ||
266 | -> Double | ||
267 | -> (Double -> V.Vector Double -> V.Vector Double) -- ^ The RHS of the system \(\dot{y} = f(t,y)\) | 265 | -> (Double -> V.Vector Double -> V.Vector Double) -- ^ The RHS of the system \(\dot{y} = f(t,y)\) |
268 | -> V.Vector Double -- ^ Initial conditions | 266 | -> V.Vector Double -- ^ Initial conditions |
269 | -> V.Vector Double -- ^ Desired solution times | 267 | -> V.Vector Double -- ^ Desired solution times |
270 | -> Either Int ((V.Vector Double), SundialsDiagnostics) -- ^ Error code or solution | 268 | -> Either Int ((V.Vector Double), SundialsDiagnostics) -- ^ Error code or solution |
271 | odeSolveVWith method _control relTol absTol f y0 tt = | 269 | odeSolveVWith method control f y0 tt = |
272 | case solveOdeC (fromIntegral $ getMethod method) jacH (CDouble relTol) (CDouble absTol) | 270 | case solveOdeC (fromIntegral $ getMethod method) jacH (scise control) |
273 | (coerce f) (coerce y0) (coerce tt) of | 271 | (coerce f) (coerce y0) (coerce tt) of |
274 | Left c -> Left $ fromIntegral c | 272 | Left c -> Left $ fromIntegral c |
275 | Right (v, d) -> Right (coerce v, d) | 273 | Right (v, d) -> Right (coerce v, d) |
276 | where | 274 | where |
275 | l = size y0 | ||
276 | scise (X absTol relTol) = coerce (V.replicate l absTol, relTol) | ||
277 | scise (X' absTol relTol) = coerce (V.replicate l absTol, relTol) | ||
278 | scise (XX' absTol relTol yScale _yDotScale) = coerce (V.replicate l absTol, yScale * relTol) | ||
279 | -- FIXME; Should we check that the length of ss is correct? | ||
280 | scise (ScXX' absTol relTol yScale _yDotScale ss) = coerce (V.map (* absTol) ss, yScale * relTol) | ||
277 | jacH = fmap (\g t v -> matrixToSunMatrix $ g (coerce t) (coerce v)) $ | 281 | jacH = fmap (\g t v -> matrixToSunMatrix $ g (coerce t) (coerce v)) $ |
278 | getJacobian method | 282 | getJacobian method |
279 | matrixToSunMatrix m = T.SunMatrix { T.rows = nr, T.cols = nc, T.vals = vs } | 283 | matrixToSunMatrix m = T.SunMatrix { T.rows = nr, T.cols = nc, T.vals = vs } |
280 | where | 284 | where |
281 | nr = fromIntegral $ rows m | 285 | nr = fromIntegral $ rows m |
282 | nc = fromIntegral $ cols m | 286 | nc = fromIntegral $ cols m |
287 | -- FIXME: efficiency | ||
283 | vs = V.fromList $ map coerce $ concat $ toLists m | 288 | vs = V.fromList $ map coerce $ concat $ toLists m |
284 | 289 | ||
285 | solveOdeC :: | 290 | solveOdeC :: |
286 | CInt -> | 291 | CInt -> |
287 | (Maybe (CDouble -> V.Vector CDouble -> T.SunMatrix)) -> | 292 | (Maybe (CDouble -> V.Vector CDouble -> T.SunMatrix)) -> |
288 | CDouble -> | 293 | (V.Vector CDouble, CDouble) -> |
289 | CDouble -> | ||
290 | (CDouble -> V.Vector CDouble -> V.Vector CDouble) -- ^ The RHS of the system \(\dot{y} = f(t,y)\) | 294 | (CDouble -> V.Vector CDouble -> V.Vector CDouble) -- ^ The RHS of the system \(\dot{y} = f(t,y)\) |
291 | -> V.Vector CDouble -- ^ Initial conditions | 295 | -> V.Vector CDouble -- ^ Initial conditions |
292 | -> V.Vector CDouble -- ^ Desired solution times | 296 | -> V.Vector CDouble -- ^ Desired solution times |
293 | -> Either CInt ((V.Vector CDouble), SundialsDiagnostics) -- ^ Error code or solution | 297 | -> Either CInt ((V.Vector CDouble), SundialsDiagnostics) -- ^ Error code or solution |
294 | solveOdeC method jacH relTol absTol fun f0 ts = unsafePerformIO $ do | 298 | solveOdeC method jacH (absTols, relTol) fun f0 ts = unsafePerformIO $ do |
295 | let dim = V.length f0 | 299 | let dim = V.length f0 |
296 | nEq :: CLong | 300 | nEq :: CLong |
297 | nEq = fromIntegral dim | 301 | nEq = fromIntegral dim |
@@ -336,6 +340,9 @@ solveOdeC method jacH relTol absTol fun f0 ts = unsafePerformIO $ do | |||
336 | /* general problem variables */ | 340 | /* general problem variables */ |
337 | int flag; /* reusable error-checking flag */ | 341 | int flag; /* reusable error-checking flag */ |
338 | N_Vector y = NULL; /* empty vector for storing solution */ | 342 | N_Vector y = NULL; /* empty vector for storing solution */ |
343 | /* empty vector for storing absolute tolerances */ | ||
344 | N_Vector tv = NULL; | ||
345 | |||
339 | SUNMatrix A = NULL; /* empty matrix for linear solver */ | 346 | SUNMatrix A = NULL; /* empty matrix for linear solver */ |
340 | SUNLinearSolver LS = NULL; /* empty linear solver object */ | 347 | SUNLinearSolver LS = NULL; /* empty linear solver object */ |
341 | void *arkode_mem = NULL; /* empty ARKode memory structure */ | 348 | void *arkode_mem = NULL; /* empty ARKode memory structure */ |
@@ -353,6 +360,13 @@ solveOdeC method jacH relTol absTol fun f0 ts = unsafePerformIO $ do | |||
353 | for (i = 0; i < NEQ; i++) { | 360 | for (i = 0; i < NEQ; i++) { |
354 | NV_Ith_S(y,i) = ($vec-ptr:(double *fMut))[i]; | 361 | NV_Ith_S(y,i) = ($vec-ptr:(double *fMut))[i]; |
355 | }; /* Specify initial condition */ | 362 | }; /* Specify initial condition */ |
363 | |||
364 | tv = N_VNew_Serial(NEQ); /* Create serial vector for solution */ | ||
365 | if (check_flag((void *)tv, "N_VNew_Serial", 0)) return 1; | ||
366 | for (i = 0; i < NEQ; i++) { | ||
367 | NV_Ith_S(tv,i) = ($vec-ptr:(double *absTols))[i]; | ||
368 | }; | ||
369 | |||
356 | arkode_mem = ARKodeCreate(); /* Create the solver memory */ | 370 | arkode_mem = ARKodeCreate(); /* Create the solver memory */ |
357 | if (check_flag((void *)arkode_mem, "ARKodeCreate", 0)) return 1; | 371 | if (check_flag((void *)arkode_mem, "ARKodeCreate", 0)) return 1; |
358 | 372 | ||
@@ -367,8 +381,8 @@ solveOdeC method jacH relTol absTol fun f0 ts = unsafePerformIO $ do | |||
367 | if (check_flag(&flag, "ARKodeInit", 1)) return 1; | 381 | if (check_flag(&flag, "ARKodeInit", 1)) return 1; |
368 | 382 | ||
369 | /* Set routines */ | 383 | /* Set routines */ |
370 | flag = ARKodeSStolerances(arkode_mem, $(double relTol), $(double absTol)); | 384 | flag = ARKodeSVtolerances(arkode_mem, $(double relTol), tv); |
371 | if (check_flag(&flag, "ARKodeSStolerances", 1)) return 1; | 385 | if (check_flag(&flag, "ARKodeSVtolerances", 1)) return 1; |
372 | 386 | ||
373 | /* Initialize dense matrix data structure and solver */ | 387 | /* Initialize dense matrix data structure and solver */ |
374 | A = SUNDenseMatrix(NEQ, NEQ); | 388 | A = SUNDenseMatrix(NEQ, NEQ); |