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source: issm/trunk-jpl/src/c/analyses/SealevelriseAnalysis.cpp@ 25759

Last change on this file since 25759 was 25759, checked in by Eric.Larour, 4 years ago
CHG: missing parameters adds.
File size: 19.5 KB

Line
1	#include "./SealevelriseAnalysis.h"
2	#include <math.h>
3	#include "../toolkits/toolkits.h"
4	#include "../classes/classes.h"
5	#include "../classes/Inputs/TransientInput.h"
6	#include "../shared/shared.h"
7	#include "../modules/modules.h"
8
9	/Model processing/
10	void SealevelriseAnalysis::CreateConstraints(Constraints* constraints,IoModel* iomodel){/{{{/
11	/No constraints/
12	}/}}}/
13	void SealevelriseAnalysis::CreateLoads(Loads* loads, IoModel* iomodel){/{{{/
14	/No loads/
15	}/}}}/
16	void SealevelriseAnalysis::CreateNodes(Nodes* nodes,IoModel* iomodel,bool isamr){/{{{/
17	::CreateNodes(nodes,iomodel,SealevelriseAnalysisEnum,P1Enum);
18	}/}}}/
19	int SealevelriseAnalysis::DofsPerNode(int** doflist,int domaintype,int approximation){/{{{/
20	return 1;
21	}/}}}/
22	void SealevelriseAnalysis::UpdateElements(Elements* elements,Inputs* inputs,IoModel* iomodel,int analysis_counter,int analysis_type){/{{{/
23
24	int geodetic=0;
25	int dslmodel=0;
26
27	/Update elements: /
28	int counter=0;
29	for(int i=0;i<iomodel->numberofelements;i++){
30	if(iomodel->my_elements[i]){
31	Element* element=(Element*)elements->GetObjectByOffset(counter);
32	element->Update(inputs,i,iomodel,analysis_counter,analysis_type,P1Enum);
33	counter++;
34	}
35	}
36
37	/Create inputs: /
38	iomodel->FetchDataToInput(inputs,elements,"md.mask.ocean_levelset",MaskOceanLevelsetEnum);
39	iomodel->FetchDataToInput(inputs,elements,"md.mask.ice_levelset",MaskIceLevelsetEnum);
40	iomodel->FetchData(&geodetic,"md.solidearth.settings.computesealevelchange");
41	iomodel->FetchDataToInput(inputs,elements,"md.solidearth.surfaceload.icethicknesschange",SurfaceloadIceThicknessChangeEnum);
42	iomodel->FetchDataToInput(inputs,elements,"md.solidearth.sealevel",SealevelEnum,0);
43	iomodel->FetchDataToInput(inputs,elements,"md.geometry.bed",BedEnum);
44	iomodel->FetchDataToInput(inputs,elements,"md.solidearth.surfaceload.waterheightchange",SurfaceloadWaterHeightChangeEnum);
45
46	/dynamic sea level: /
47	iomodel->FetchData(&dslmodel,"md.dsl.model");
48	if (dslmodel==1){ /standard dsl model:{{{/
49
50	/deal with global mean steric rate: /
51	IssmDouble* str=NULL;
52	IssmDouble* times = NULL;
53	int M,N;
54
55	/fetch str vector:/
56	iomodel->FetchData(&str,&M,&N,"md.dsl.global_average_thermosteric_sea_level_change"); _assert_(M==2);
57
58	//recover time vector:
59	times=xNew<IssmDouble>(N);
60	for(int t=0;t<N;t++) times[t] = str[N+t];
61
62	/create transient input: /
63	inputs->SetTransientInput(DslGlobalAverageThermostericSeaLevelChangeEnum,times,N);
64	TransientInput* transientinput = inputs->GetTransientInput(DslGlobalAverageThermostericSeaLevelChangeEnum);
65
66
67	for(Object* & object : elements->objects){
68	Element* element=xDynamicCast<Element*>(object);
69
70	for(int t=0;t<N;t++){
71	switch(element->ObjectEnum()){
72	case TriaEnum: transientinput->AddTriaTimeInput( t,1,&element->lid,&str[t],P0Enum); break;
73	case PentaEnum: transientinput->AddPentaTimeInput(t,1,&element->lid,&str[t],P0Enum); break;
74	default: _error_("Not implemented yet");
75	}
76	}
77	}
78
79	/cleanup:/
80	xDelete<IssmDouble>(times);
81	iomodel->DeleteData(str,"md.dsl.global_average_thermosteric_sea_level_change");
82
83	/deal with dynamic sea level fields: /
84	iomodel->FetchDataToInput(inputs,elements,"md.dsl.sea_surface_height_change_above_geoid", DslSeaSurfaceHeightChangeAboveGeoidEnum);
85	iomodel->FetchDataToInput(inputs,elements,"md.dsl.sea_water_pressure_change_at_sea_floor", DslSeaWaterPressureChangeAtSeaFloorEnum);
86
87	} /}}}/
88	else if (dslmodel==2){ /multi-model ensemble dsl model:{{{/
89
90	/variables:/
91	int nummodels;
92	IssmDouble** pstr=NULL;
93	IssmDouble* str=NULL;
94	IssmDouble* times = NULL;
95	int* pM = NULL;
96	int* pN = NULL;
97	int M,N;
98
99	/deal with dsl.global_average_thermosteric_sea_level_change {{{/
100	iomodel->FetchData(&pstr,&pM,&pN,&nummodels,"md.dsl.global_average_thermosteric_sea_level_change");
101
102	/go through the mat array and create a dataset of transient inputs:/
103	for (int i=0;i<nummodels;i++){
104
105	M=pM[i];
106	N=pN[i];
107	str=pstr[i];
108
109	//recover time vector:
110	times=xNew<IssmDouble>(N);
111	for(int t=0;t<N;t++) times[t] = str[(M-1)*N+t];
112
113	TransientInput* transientinput=inputs->SetDatasetTransientInput(DslGlobalAverageThermostericSeaLevelChangeEnum,i, times,N);
114
115	for(Object* & object : elements->objects){
116	Element* element=xDynamicCast<Element*>(object);
117
118	for(int t=0;t<N;t++){
119	switch(element->ObjectEnum()){
120	case TriaEnum: transientinput->AddTriaTimeInput( t,1,&element->lid,&str[t],P0Enum); break;
121	case PentaEnum: transientinput->AddPentaTimeInput(t,1,&element->lid,&str[t],P0Enum); break;
122	default: _error_("Not implemented yet");
123	}
124	}
125	}
126	xDelete<IssmDouble>(times);
127	}
128	/Delete data:/
129	for(int i=0;i<nummodels;i++){
130	IssmDouble* str=pstr[i];
131	xDelete<IssmDouble>(str);
132	}
133	xDelete<IssmDouble*>(pstr);
134	xDelete<int>(pM);
135	xDelete<int>(pN);
136	/}}}/
137	iomodel->FetchDataToInput(inputs,elements,"md.dsl.sea_surface_height_change_above_geoid",DslSeaSurfaceHeightChangeAboveGeoidEnum);
138	iomodel->FetchDataToInput(inputs,elements,"md.dsl.sea_water_pressure_change_at_sea_floor",DslSeaWaterPressureChangeAtSeaFloorEnum);
139
140	} /}}}/
141	else _error_("Dsl model " << dslmodel << " not implemented yet!");
142
143
144
145	/Initialize cumdeltalthickness and sealevel rise rate input/
146	InputUpdateFromConstantx(inputs,elements,0.,SealevelriseCumDeltathicknessEnum);
147	InputUpdateFromConstantx(inputs,elements,0.,SealevelNEsaRateEnum);
148	InputUpdateFromConstantx(inputs,elements,0.,SealevelUEsaRateEnum);
149	InputUpdateFromConstantx(inputs,elements,0.,SealevelRSLRateEnum);
150	InputUpdateFromConstantx(inputs,elements,0.,SealevelEustaticMaskEnum);
151	InputUpdateFromConstantx(inputs,elements,0.,SealevelEustaticOceanMaskEnum);
152
153	}/}}}/
154	void SealevelriseAnalysis::UpdateParameters(Parameters* parameters,IoModel* iomodel,int solution_enum,int analysis_enum){/{{{/
155
156	int nl;
157	IssmDouble* love_h=NULL;
158	IssmDouble* love_k=NULL;
159	IssmDouble* love_l=NULL;
160	IssmDouble* love_th=NULL;
161	IssmDouble* love_tk=NULL;
162	IssmDouble* love_tl=NULL;
163	int dslmodel=0;
164
165	IssmDouble* G_rigid = NULL;
166	IssmDouble* G_rigid_local = NULL;
167	IssmDouble* G_elastic = NULL;
168	IssmDouble* G_elastic_local = NULL;
169	IssmDouble* U_elastic = NULL;
170	IssmDouble* U_elastic_local = NULL;
171	IssmDouble* H_elastic = NULL;
172	IssmDouble* H_elastic_local = NULL;
173	int M,m,lower_row,upper_row;
174	IssmDouble degacc=.01;
175	IssmDouble planetradius=0;
176	IssmDouble planetarea=0;
177	bool elastic=false;
178
179	int numoutputs;
180	char** requestedoutputs = NULL;
181
182	/transition vectors: /
183	IssmDouble **transitions = NULL;
184	int *transitions_M = NULL;
185	int *transitions_N = NULL;
186	int ntransitions;
187	IssmDouble* partitionice=NULL;
188	IssmDouble* partitionhydro=NULL;
189	IssmDouble* bslrice_partition=NULL;
190	IssmDouble* bslrhydro_partition=NULL;
191	int npartice,nparthydro,nel;
192
193
194	/some constant parameters: /
195	parameters->AddObject(iomodel->CopyConstantObject("md.dsl.model",DslModelEnum));
196	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.runfrequency",SolidearthSettingsRunFrequencyEnum));
197	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.reltol",SolidearthSettingsReltolEnum));
198	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.abstol",SolidearthSettingsAbstolEnum));
199	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.maxiter",SolidearthSettingsMaxiterEnum));
200	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.rigid",SolidearthSettingsRigidEnum));
201	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.horiz",SolidearthSettingsHorizEnum));
202	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.elastic",SolidearthSettingsElasticEnum));
203	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.rotation",SolidearthSettingsRotationEnum));
204	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.rotational.equatorialmoi",RotationalEquatorialMoiEnum));
205	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.rotational.polarmoi",RotationalPolarMoiEnum));
206	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.rotational.angularvelocity",RotationalAngularVelocityEnum));
207	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.ocean_area_scaling",SolidearthSettingsOceanAreaScalingEnum));
208	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.computesealevelchange",SolidearthSettingsComputesealevelchangeEnum));
209	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.planetradius",SolidearthPlanetRadiusEnum));
210	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.settings.glfraction",SolidearthSettingsGlfractionEnum));
211	parameters->AddObject(new DoubleParam(CumBslrEnum,0.0));
212	parameters->AddObject(new DoubleParam(CumBslrIceEnum,0.0));
213	parameters->AddObject(new DoubleParam(CumBslrHydroEnum,0.0));
214	parameters->AddObject(new DoubleParam(CumGmtslrEnum,0.0));
215
216	/compute planet area and plug into parameters:/
217	iomodel->FetchData(&planetradius,"md.solidearth.planetradius");
218	planetarea=4PIplanetradius*planetradius;
219	parameters->AddObject(new DoubleParam(SolidearthPlanetAreaEnum,planetarea));
220
221	/Deal with partition of the barystatic contribution:/
222	iomodel->FetchData(&npartice,"md.solidearth.npartice");
223	parameters->AddObject(new IntParam(SolidearthNpartIceEnum,npartice));
224	if(npartice){
225	iomodel->FetchData(&partitionice,&nel,NULL,"md.solidearth.partitionice");
226	parameters->AddObject(new DoubleMatParam(SolidearthPartitionIceEnum,partitionice,nel,1));
227	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.npartice",SolidearthNpartIceEnum));
228	bslrice_partition=xNewZeroInit<IssmDouble>(npartice);
229	parameters->AddObject(new DoubleMatParam(CumBslrIcePartitionEnum,bslrice_partition,npartice,1));
230	xDelete<IssmDouble>(partitionice);
231	}
232	iomodel->FetchData(&nparthydro,"md.solidearth.nparthydro");
233	parameters->AddObject(new IntParam(SolidearthNpartHydroEnum,nparthydro));
234	if(nparthydro){
235	iomodel->FetchData(&partitionhydro,&nel,NULL,"md.solidearth.partitionhydro");
236	parameters->AddObject(new DoubleMatParam(SolidearthPartitionHydroEnum,partitionhydro,nel,1));
237	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.nparthydro",SolidearthNpartHydroEnum));
238	bslrhydro_partition=xNewZeroInit<IssmDouble>(nparthydro);
239	parameters->AddObject(new DoubleMatParam(CumBslrHydroPartitionEnum,bslrhydro_partition,nparthydro,1));
240	xDelete<IssmDouble>(partitionhydro);
241	}
242
243	/Deal with dsl multi-model ensembles: {{{/
244	iomodel->FetchData(&dslmodel,"md.dsl.model");
245	parameters->AddObject(iomodel->CopyConstantObject("md.dsl.compute_fingerprints",DslComputeFingerprintsEnum));
246	if(dslmodel==2){
247	IssmDouble modelid;
248	int nummodels;
249
250	/*create double param, not int param, because Dakota will be updating it as
251	* a double potentially: */
252	iomodel->FetchData(&modelid,"md.dsl.modelid");
253	parameters->AddObject(new DoubleParam(DslModelidEnum,modelid));
254	parameters->AddObject(iomodel->CopyConstantObject("md.dsl.nummodels",DslNummodelsEnum));
255	iomodel->FetchData(&nummodels,"md.dsl.nummodels");
256
257	/quick checks: /
258	if(nummodels<=0)_error_("dslmme object in md.dsl field should contain at least 1 ensemble model!");
259	if(modelid<=0 \|\| modelid>nummodels)_error_("modelid field in dslmme object of md.dsl field should be between 1 and the number of ensemble runs!");
260	} /}}}/
261	/Deal with elasticity {{{/
262	iomodel->FetchData(&elastic,"md.solidearth.settings.elastic");
263	if(elastic){
264	/love numbers: /
265	iomodel->FetchData(&love_h,&nl,NULL,"md.solidearth.lovenumbers.h");
266	iomodel->FetchData(&love_k,&nl,NULL,"md.solidearth.lovenumbers.k");
267	iomodel->FetchData(&love_l,&nl,NULL,"md.solidearth.lovenumbers.l");
268	iomodel->FetchData(&love_th,&nl,NULL,"md.solidearth.lovenumbers.th");
269	iomodel->FetchData(&love_tk,&nl,NULL,"md.solidearth.lovenumbers.tk");
270	iomodel->FetchData(&love_tl,&nl,NULL,"md.solidearth.lovenumbers.tl");
271	parameters->AddObject(iomodel->CopyConstantObject("md.solidearth.lovenumbers.tk2secular",TidalLoveK2SecularEnum));
272
273	parameters->AddObject(new DoubleMatParam(LoadLoveHEnum,love_h,nl,1));
274	parameters->AddObject(new DoubleMatParam(LoadLoveKEnum,love_k,nl,1));
275	parameters->AddObject(new DoubleMatParam(LoadLoveLEnum,love_l,nl,1));
276	parameters->AddObject(new DoubleMatParam(TidalLoveHEnum,love_th,nl,1));
277	parameters->AddObject(new DoubleMatParam(TidalLoveKEnum,love_tk,nl,1));
278	parameters->AddObject(new DoubleMatParam(TidalLoveLEnum,love_tl,nl,1));
279
280	/compute elastic green function for a range of angles/
281	iomodel->FetchData(&degacc,"md.solidearth.settings.degacc");
282	M=reCast<int,IssmDouble>(180./degacc+1.);
283
284	// AD performance is sensitive to calls to ensurecontiguous.
285	// // Providing "t" will cause ensurecontiguous to be called.
286	#ifdef _HAVE_AD_
287	G_rigid=xNew<IssmDouble>(M,"t");
288	G_elastic=xNew<IssmDouble>(M,"t");
289	U_elastic=xNew<IssmDouble>(M,"t");
290	H_elastic=xNew<IssmDouble>(M,"t");
291	#else
292	G_rigid=xNew<IssmDouble>(M);
293	G_elastic=xNew<IssmDouble>(M);
294	U_elastic=xNew<IssmDouble>(M);
295	H_elastic=xNew<IssmDouble>(M);
296	#endif
297
298	/compute combined legendre + love number (elastic green function:/
299	m=DetermineLocalSize(M,IssmComm::GetComm());
300	GetOwnershipBoundariesFromRange(&lower_row,&upper_row,m,IssmComm::GetComm());
301	// AD performance is sensitive to calls to ensurecontiguous.
302	// // Providing "t" will cause ensurecontiguous to be called.
303	#ifdef _HAVE_AD_
304	G_elastic_local=xNew<IssmDouble>(m,"t");
305	G_rigid_local=xNew<IssmDouble>(m,"t");
306	U_elastic_local=xNew<IssmDouble>(m,"t");
307	H_elastic_local=xNew<IssmDouble>(m,"t");
308	#else
309	G_elastic_local=xNew<IssmDouble>(m);
310	G_rigid_local=xNew<IssmDouble>(m);
311	U_elastic_local=xNew<IssmDouble>(m);
312	H_elastic_local=xNew<IssmDouble>(m);
313	#endif
314
315	for(int i=lower_row;i<upper_row;i++){
316	IssmDouble alpha,x;
317	alpha= reCast<IssmDouble>(i)degacc PI / 180.0;
318
319	G_rigid_local[i-lower_row]= .5/sin(alpha/2.0);
320	G_elastic_local[i-lower_row]= (love_k[nl-1]-love_h[nl-1])*G_rigid_local[i-lower_row];
321	U_elastic_local[i-lower_row]= (love_h[nl-1])*G_rigid_local[i-lower_row];
322	H_elastic_local[i-lower_row]= 0;
323	IssmDouble Pn = 0.;
324	IssmDouble Pn1 = 0.;
325	IssmDouble Pn2 = 0.;
326	IssmDouble Pn_p = 0.;
327	IssmDouble Pn_p1 = 0.;
328	IssmDouble Pn_p2 = 0.;
329
330	for (int n=0;n<nl;n++) {
331	IssmDouble deltalove_G;
332	IssmDouble deltalove_U;
333
334	deltalove_G = (love_k[n]-love_k[nl-1]-love_h[n]+love_h[nl-1]);
335	deltalove_U = (love_h[n]-love_h[nl-1]);
336
337	/compute legendre polynomials: P_n(cos\theta) & d P_n(cos\theta)/ d\theta: /
338	if(n==0){
339	Pn=1;
340	Pn_p=0;
341	}
342	else if(n==1){
343	Pn = cos(alpha);
344	Pn_p = 1;
345	}
346	else{
347	Pn = ( (2n-1)cos(alpha)Pn1 - (n-1)Pn2 ) /n;
348	Pn_p = ( (2n-1)(Pn1+cos(alpha)Pn_p1) - (n-1)Pn_p2 ) /n;
349	}
350	Pn2=Pn1; Pn1=Pn;
351	Pn_p2=Pn_p1; Pn_p1=Pn_p;
352
353	G_elastic_local[i-lower_row] += deltalove_G*Pn; // gravitational potential
354	U_elastic_local[i-lower_row] += deltalove_U*Pn; // vertical (up) displacement
355	H_elastic_local[i-lower_row] += sin(alpha)love_l[n]Pn_p; // horizontal displacements
356	}
357	}
358
359	/merge G_elastic_local into G_elastic; U_elastic_local into U_elastic; H_elastic_local to H_elastic:{{{/
360	int* recvcounts=xNew<int>(IssmComm::GetSize());
361	int* displs=xNew<int>(IssmComm::GetSize());
362
363	//recvcounts:
364	ISSM_MPI_Allgather(&m,1,ISSM_MPI_INT,recvcounts,1,ISSM_MPI_INT,IssmComm::GetComm());
365
366	/displs: /
367	ISSM_MPI_Allgather(&lower_row,1,ISSM_MPI_INT,displs,1,ISSM_MPI_INT,IssmComm::GetComm());
368
369	/All gather:/
370	ISSM_MPI_Allgatherv(G_rigid_local, m, ISSM_MPI_DOUBLE, G_rigid, recvcounts, displs, ISSM_MPI_DOUBLE,IssmComm::GetComm());
371	ISSM_MPI_Allgatherv(G_elastic_local, m, ISSM_MPI_DOUBLE, G_elastic, recvcounts, displs, ISSM_MPI_DOUBLE,IssmComm::GetComm());
372	ISSM_MPI_Allgatherv(U_elastic_local, m, ISSM_MPI_DOUBLE, U_elastic, recvcounts, displs, ISSM_MPI_DOUBLE,IssmComm::GetComm());
373	ISSM_MPI_Allgatherv(H_elastic_local, m, ISSM_MPI_DOUBLE, H_elastic, recvcounts, displs, ISSM_MPI_DOUBLE,IssmComm::GetComm());
374
375	/free resources: /
376	xDelete<int>(recvcounts);
377	xDelete<int>(displs);
378	/}}}/
379
380	/Avoid singularity at 0: /
381	G_rigid[0]=G_rigid[1];
382	parameters->AddObject(new DoubleVecParam(SealevelriseGRigidEnum,G_rigid,M));
383	G_elastic[0]=G_elastic[1];
384	parameters->AddObject(new DoubleVecParam(SealevelriseGElasticEnum,G_elastic,M));
385	U_elastic[0]=U_elastic[1];
386	parameters->AddObject(new DoubleVecParam(SealevelriseUElasticEnum,U_elastic,M));
387	H_elastic[0]=H_elastic[1];
388	parameters->AddObject(new DoubleVecParam(SealevelriseHElasticEnum,H_elastic,M));
389
390	/Save our precomputed tables into parameters/
391	parameters->AddObject(new DoubleVecParam(SealevelriseGRigidEnum,G_rigid,M));
392	if(elastic){
393	parameters->AddObject(new DoubleVecParam(SealevelriseGElasticEnum,G_elastic,M));
394	parameters->AddObject(new DoubleVecParam(SealevelriseUElasticEnum,U_elastic,M));
395	parameters->AddObject(new DoubleVecParam(SealevelriseHElasticEnum,H_elastic,M));
396	}
397
398	/free resources: /
399	xDelete<IssmDouble>(love_h);
400	xDelete<IssmDouble>(love_k);
401	xDelete<IssmDouble>(love_l);
402	xDelete<IssmDouble>(love_th);
403	xDelete<IssmDouble>(love_tk);
404	xDelete<IssmDouble>(love_tl);
405	xDelete<IssmDouble>(G_rigid);
406	xDelete<IssmDouble>(G_rigid_local);
407	xDelete<IssmDouble>(G_elastic);
408	xDelete<IssmDouble>(G_elastic_local);
409	xDelete<IssmDouble>(U_elastic);
410	xDelete<IssmDouble>(U_elastic_local);
411	xDelete<IssmDouble>(H_elastic);
412	xDelete<IssmDouble>(H_elastic_local);
413	}
414
415	/Indicate we have not yet run the Geometry Core module: /
416	parameters->AddObject(new BoolParam(SealevelriseGeometryDoneEnum,false));
417	/}}}/
418
419	/Transitions:{{{ /
420	iomodel->FetchData(&transitions,&transitions_M,&transitions_N,&ntransitions,"md.solidearth.transitions");
421	if(transitions){
422	parameters->AddObject(new DoubleMatArrayParam(SealevelriseTransitionsEnum,transitions,ntransitions,transitions_M,transitions_N));
423
424	for(int i=0;i<ntransitions;i++){
425	IssmDouble* transition=transitions[i];
426	xDelete<IssmDouble>(transition);
427	}
428	xDelete<IssmDouble*>(transitions);
429	xDelete<int>(transitions_M);
430	xDelete<int>(transitions_N);
431	} /}}}/
432	/Requested outputs {{{/
433	iomodel->FindConstant(&requestedoutputs,&numoutputs,"md.solidearth.requested_outputs");
434	if(numoutputs)parameters->AddObject(new StringArrayParam(SealevelriseRequestedOutputsEnum,requestedoutputs,numoutputs));
435	iomodel->DeleteData(&requestedoutputs,numoutputs,"md.solidearth.requested_outputs");
436	/}}}/
437
438	/}}}/
439	}/}}}/
440
441	/Finite Element Analysis/
442	void SealevelriseAnalysis::Core(FemModel* femmodel){/{{{/
443	_error_("not implemented");
444	}/}}}/
445	ElementVector* SealevelriseAnalysis::CreateDVector(Element* element){/{{{/
446	/Default, return NULL/
447	return NULL;
448	}/}}}/
449	ElementMatrix* SealevelriseAnalysis::CreateJacobianMatrix(Element* element){/{{{/
450	_error_("Not implemented");
451	}/}}}/
452	ElementMatrix* SealevelriseAnalysis::CreateKMatrix(Element* element){/{{{/
453	_error_("not implemented yet");
454	}/}}}/
455	ElementVector* SealevelriseAnalysis::CreatePVector(Element* element){/{{{/
456	_error_("not implemented yet");
457	}/}}}/
458	void SealevelriseAnalysis::GetSolutionFromInputs(Vector<IssmDouble>* solution,Element* element){/{{{/
459	_error_("not implemented yet");
460	}/}}}/
461	void SealevelriseAnalysis::GradientJ(Vector<IssmDouble>* gradient,Element* element,int control_type,int control_interp,int control_index){/{{{/
462	_error_("Not implemented yet");
463	}/}}}/
464	void SealevelriseAnalysis::InputUpdateFromSolution(IssmDouble* solution,Element* element){/{{{/
465	_error_("not implemeneted yet!");
466
467	}/}}}/
468	void SealevelriseAnalysis::UpdateConstraints(FemModel* femmodel){/{{{/
469	/Default, do nothing/
470	return;
471	}/}}}/

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