1 #ifndef DUNE_PDELAB_GRIDOPERATOR_ONESTEP_PRESTAGEENGINE_HH
2 #define DUNE_PDELAB_GRIDOPERATOR_ONESTEP_PRESTAGEENGINE_HH
18 template<
typename OSLA>
21 typename OSLA::LocalAssemblerDT0::LocalResidualAssemblerEngine,
22 typename OSLA::LocalAssemblerDT1::LocalResidualAssemblerEngine
27 typename OSLA::LocalAssemblerDT0::LocalResidualAssemblerEngine,
28 typename OSLA::LocalAssemblerDT1::LocalResidualAssemblerEngine
52 typedef typename OSLA::Traits::Residual
Residual;
56 typedef typename OSLA::Traits::Solution
Solution;
60 typedef typename OSLA::Real
Real;
73 , invalid_residual(nullptr)
74 , invalid_solutions(nullptr)
75 , const_residual_0(invalid_residual)
76 , const_residual_1(invalid_residual)
77 , solutions(invalid_solutions)
83 {
return lae0->requireSkeleton() ||
lae1->requireSkeleton(); }
90 solutions = &solutions_;
97 const_residual_0 = &const_residual_0_;
98 const_residual_1 = &const_residual_1_;
101 assert(solutions != invalid_solutions);
110 const_residual_0 = &const_residual_;
111 const_residual_1 = &const_residual_;
114 assert(solutions != invalid_solutions);
125 template<
typename EG,
typename LFSU,
typename LFSV>
126 void onBindLFSUV(
const EG& eg,
const LFSU& lfsu,
const LFSV& lfsv)
128 template<
typename IG,
typename LFSU_S,
typename LFSV_S>
130 const LFSU_S & lfsu_s,
const LFSV_S & lfsv_s)
132 template<
typename IG,
typename LFSU_S,
typename LFSV_S,
typename LFSU_N,
typename LFSV_N>
134 const LFSU_S & lfsu_s,
const LFSV_S & lfsv_s,
135 const LFSU_N & lfsu_n,
const LFSV_N & lfsv_n)
145 template<
typename LFSU>
148 template<
typename LFSU>
151 template<
typename LFSU>
161 la.la1.setTime(
la.time+
la.osp_method->d(
la.stage)*
la.dt);
171 *const_residual_0 = 0.0;
172 *const_residual_1 = 0.0;
178 do0.resize(
la.stage);
179 do1.resize(
la.stage);
180 for (
int i=0; i<
la.stage; ++i){
181 a[i] =
la.osp_method->a(
la.stage,i);
182 b[i] =
la.osp_method->b(
la.stage,i);
183 d[i] =
la.osp_method->d(i);
184 do0[i] = ( std::abs(b[i]) > 1E-6 );
185 do1[i] = ( std::abs(a[i]) > 1E-6 );
189 la.la0.preStage(
la.time+
la.osp_method->d(
la.stage)*
la.dt,
la.stage);
190 la.la1.preStage(
la.time+
la.osp_method->d(
la.stage)*
la.dt,
la.stage);
193 template<
typename GFSU,
typename GFSV>
196 lae0->postAssembly(gfsu,gfsv);
197 lae1->postAssembly(gfsu,gfsv);
204 template<
typename EG,
typename LFSU,
typename LFSV>
207 for (
int s=0;
s<
la.stage; ++
s)
210 la.la0.setTime(
la.time+d[
s]*
la.dt);
211 la.la1.setTime(
la.time+d[
s]*
la.dt);
215 lae0->setSolution(*((*solutions)[
s]));
216 lae0->onBindLFSUV(eg,lfsu,lfsv);
217 lae0->loadCoefficientsLFSUInside(lfsu);
218 la.la0.setWeight(b[
s]*
la.dt_factor0);
219 lae0->assembleUVVolume(eg,lfsu,lfsv);
224 lae1->setSolution(*((*solutions)[
s]));
225 lae1->onBindLFSUV(eg,lfsu,lfsv);
226 lae1->loadCoefficientsLFSUInside(lfsu);
227 la.la1.setWeight(a[
s]*
la.dt_factor1);
228 lae1->assembleUVVolume(eg,lfsu,lfsv);
233 template<
typename EG,
typename LFSV>
236 for (
int s=0;
s<
la.stage; ++
s)
239 la.la0.setTime(
la.time+d[
s]*
la.dt);
240 la.la1.setTime(
la.time+d[
s]*
la.dt);
244 la.la0.setWeight(b[
s]*
la.dt_factor0);
245 lae0->assembleVVolume(eg,lfsv);
250 la.la1.setWeight(a[
s]*
la.dt_factor1);
251 lae1->assembleVVolume(eg,lfsv);
257 template<
typename IG,
typename LFSU_S,
typename LFSV_S,
typename LFSU_N,
typename LFSV_N>
259 const LFSU_N & lfsu_n,
const LFSV_N & lfsv_n)
261 for (
int s=0;
s<
la.stage; ++
s)
264 la.la0.setTime(
la.time+d[
s]*
la.dt);
265 la.la1.setTime(
la.time+d[
s]*
la.dt);
269 la.la0.setWeight(b[
s]*
la.dt_factor0);
270 lae0->setSolution(*((*solutions)[
s]));
271 lae0->onBindLFSUVInside(
ig,lfsu_s,lfsv_s);
272 lae0->onBindLFSUVOutside(
ig,lfsu_s,lfsv_s,lfsu_n,lfsv_n);
273 lae0->loadCoefficientsLFSUInside(lfsu_s);
274 lae0->loadCoefficientsLFSUOutside(lfsu_n);
275 la.la0.setWeight(b[
s]*
la.dt_factor0);
276 lae0->assembleUVSkeleton(
ig,lfsu_s,lfsv_s,lfsu_n,lfsv_n);
281 la.la1.setWeight(a[
s]*
la.dt_factor1);
282 lae1->setSolution(*((*solutions)[
s]));
283 lae1->onBindLFSUVInside(
ig,lfsu_s,lfsv_s);
284 lae1->onBindLFSUVOutside(
ig,lfsu_s,lfsv_s,lfsu_n,lfsv_n);
285 lae1->loadCoefficientsLFSUInside(lfsu_s);
286 lae1->loadCoefficientsLFSUOutside(lfsu_n);
287 la.la1.setWeight(a[
s]*
la.dt_factor1);
288 lae1->assembleUVSkeleton(
ig,lfsu_s,lfsv_s,lfsu_n,lfsv_n);
293 template<
typename IG,
typename LFSV_S,
typename LFSV_N>
296 for (
int s=0;
s<
la.stage; ++
s)
299 la.la0.setTime(
la.time+d[
s]*
la.dt);
300 la.la1.setTime(
la.time+d[
s]*
la.dt);
304 la.la0.setWeight(b[
s]*
la.dt_factor0);
305 lae0->assembleVSkeleton(
ig,lfsv_s,lfsv_n);
310 la.la1.setWeight(a[
s]*
la.dt_factor1);
311 lae1->assembleVSkeleton(
ig,lfsv_s,lfsv_n);
316 template<
typename IG,
typename LFSU_S,
typename LFSV_S>
319 for (
int s=0;
s<
la.stage; ++
s)
322 la.la0.setTime(
la.time+d[
s]*
la.dt);
323 la.la1.setTime(
la.time+d[
s]*
la.dt);
327 lae0->setSolution(*((*solutions)[
s]));
328 lae0->onBindLFSUVInside(
ig,lfsu_s,lfsv_s);
329 lae0->loadCoefficientsLFSUInside(lfsu_s);
330 la.la0.setWeight(b[
s]*
la.dt_factor0);
331 lae0->assembleUVBoundary(
ig,lfsu_s,lfsv_s);
336 lae1->setSolution(*((*solutions)[
s]));
337 lae1->onBindLFSUVInside(
ig,lfsu_s,lfsv_s);
338 lae1->loadCoefficientsLFSUInside(lfsu_s);
339 la.la1.setWeight(a[
s]*
la.dt_factor1);
340 lae1->assembleUVBoundary(
ig,lfsu_s,lfsv_s);
345 template<
typename IG,
typename LFSV_S>
348 for (
int s=0;
s<
la.stage; ++
s)
351 la.la0.setTime(
la.time+d[
s]*
la.dt);
352 la.la1.setTime(
la.time+d[
s]*
la.dt);
356 la.la0.setWeight(b[
s]*
la.dt_factor0);
357 lae0->assembleVBoundary(
ig,lfsv_s);
362 la.la1.setWeight(a[
s]*
la.dt_factor1);
363 lae1->assembleVBoundary(
ig,lfsv_s);
368 template<
typename IG,
typename LFSU_S,
typename LFSV_S>
371 for (
int s=0;
s<
la.stage; ++
s)
374 la.la0.setTime(
la.time+d[
s]*
la.dt);
375 la.la1.setTime(
la.time+d[
s]*
la.dt);
379 lae0->setSolution(*((*solutions)[
s]));
380 lae0->onBindLFSUVInside(
ig,lfsu_s,lfsv_s);
381 lae0->loadCoefficientsLFSUInside(lfsu_s);
382 la.la0.setWeight(b[
s]*
la.dt_factor0);
383 lae0->assembleUVProcessor(
ig,lfsu_s,lfsv_s);
388 lae1->setSolution(*((*solutions)[
s]));
389 lae1->onBindLFSUVInside(
ig,lfsu_s,lfsv_s);
390 lae1->loadCoefficientsLFSUInside(lfsu_s);
391 la.la1.setWeight(a[
s]*
la.dt_factor1);
392 lae1->assembleUVProcessor(
ig,lfsu_s,lfsv_s);
397 template<
typename IG,
typename LFSV_S>
400 for (
int s=0;
s<
la.stage; ++
s)
403 la.la0.setTime(
la.time+d[
s]*
la.dt);
404 la.la1.setTime(
la.time+d[
s]*
la.dt);
408 la.la0.setWeight(b[
s]*
la.dt_factor0);
409 lae0->assembleVProcessor(
ig,lfsv_s);
414 la.la1.setWeight(a[
s]*
la.dt_factor1);
415 lae1->assembleVProcessor(
ig,lfsv_s);
420 template<
typename IG,
typename LFSU_S,
typename LFSV_S,
typename LFSU_N,
typename LFSV_N,
421 typename LFSU_C,
typename LFSV_C>
423 const LFSU_S & lfsu_s,
const LFSV_S & lfsv_s,
424 const LFSU_N & lfsu_n,
const LFSV_N & lfsv_n,
425 const LFSU_C & lfsu_c,
const LFSV_C & lfsv_c)
427 for (
int s=0;
s<
la.stage; ++
s)
430 la.la0.setTime(
la.time+d[
s]*
la.dt);
431 la.la1.setTime(
la.time+d[
s]*
la.dt);
435 lae0->setSolution(*((*solutions)[
s]));
436 lae0->loadCoefficientsLFSUInside(lfsu_s);
437 lae0->loadCoefficientsLFSUOutside(lfsu_n);
438 lae0->loadCoefficientsLFSUCoupling(lfsu_c);
439 la.la0.setWeight(b[
s]*
la.dt_factor0);
440 lae0->assembleUVEnrichedCoupling(
ig,lfsu_s,lfsv_s,lfsu_n,lfsv_n,lfsu_c,lfsv_c);
445 lae1->setSolution(*((*solutions)[
s]));
446 lae1->loadCoefficientsLFSUInside(lfsu_s);
447 lae1->loadCoefficientsLFSUOutside(lfsu_n);
448 lae1->loadCoefficientsLFSUCoupling(lfsu_c);
449 la.la1.setWeight(a[
s]*
la.dt_factor1);
450 lae1->assembleUVEnrichedCoupling(
ig,lfsu_s,lfsv_s,lfsu_n,lfsv_n,lfsu_c,lfsv_c);
455 template<
typename IG,
typename LFSV_S,
typename LFSV_N,
typename LFSV_C>
457 const LFSV_S & lfsv_s,
458 const LFSV_N & lfsv_n,
459 const LFSV_C & lfsv_c)
461 for (
int s=0;
s<
la.stage; ++
s)
464 la.la0.setTime(
la.time+d[
s]*
la.dt);
465 la.la1.setTime(
la.time+d[
s]*
la.dt);
469 la.la0.setWeight(b[
s]*
la.dt_factor0);
470 lae0->assembleVEnrichedCoupling(
ig,lfsv_s,lfsv_n,lfsv_c);
475 la.la1.setWeight(a[
s]*
la.dt_factor1);
476 lae1->assembleVEnrichedCoupling(
ig,lfsv_s,lfsv_n,lfsv_c);
482 template<
typename EG,
typename LFSU,
typename LFSV>
485 for (
int s=0;
s<
la.stage; ++
s)
488 la.la0.setTime(
la.time+d[
s]*
la.dt);
489 la.la1.setTime(
la.time+d[
s]*
la.dt);
493 lae0->setSolution(*((*solutions)[
s]));
494 lae0->onBindLFSUV(eg,lfsu,lfsv);
495 lae0->loadCoefficientsLFSUInside(lfsu);
496 la.la0.setWeight(b[
s]*
la.dt_factor0);
497 lae0->assembleUVVolumePostSkeleton(eg,lfsu,lfsv);
502 lae1->setSolution(*((*solutions)[
s]));
503 lae1->onBindLFSUV(eg,lfsu,lfsv);
504 lae1->loadCoefficientsLFSUInside(lfsu);
505 la.la1.setWeight(a[
s]*
la.dt_factor1);
506 lae1->assembleUVVolumePostSkeleton(eg,lfsu,lfsv);
512 template<
typename EG,
typename LFSV>
515 for (
int s=0;
s<
la.stage; ++
s)
518 la.la0.setTime(
la.time+d[
s]*
la.dt);
519 la.la1.setTime(
la.time+d[
s]*
la.dt);
523 la.la0.setWeight(b[
s]*
la.dt_factor0);
524 lae0->assembleVVolumePostSkeleton(eg,lfsv);
529 la.la1.setWeight(a[
s]*
la.dt_factor1);
530 lae1->assembleVVolumePostSkeleton(eg,lfsv);
559 std::vector<bool> do0;
560 std::vector<bool> do1;
566 #endif // DUNE_PDELAB_GRIDOPERATOR_ONESTEP_PRESTAGEENGINE_HH