Context Navigation

source: issm/trunk-jpl/src/c/classes/Materials/Matestar.cpp@ 22010

Last change on this file since 22010 was 22010, checked in by Mathieu Morlighem, 8 years ago
CHG: move rheology_law to matpar
File size: 17.1 KB

Rev	Line
[20687]	1	/*!\file Matestar.c
	2	* \brief: implementation of the Matestar object
	3	*/
	4
	5	#ifdef HAVE_CONFIG_H
	6	#include <config.h>
	7	#else
	8	#error "Cannot compile with HAVE_CONFIG_H symbol! run configure first!"
	9	#endif
	10
	11	#include "./Matestar.h"
	12	#include "./Materials.h"
	13	#include "../Inputs/Input.h"
	14	#include "../Inputs/Inputs.h"
	15	#include "../Inputs/TriaInput.h"
	16	#include "../Inputs/PentaInput.h"
	17	#include "../Inputs/ControlInput.h"
	18	#include "../Elements/Element.h"
	19	#include "../Elements/Tria.h"
	20	#include "../Elements/Penta.h"
	21	#include "../Params/Parameters.h"
	22	#include "../Vertex.h"
	23	#include "../Hook.h"
	24	#include "../Node.h"
	25	#include "../IoModel.h"
	26	#include "../../shared/shared.h"
	27
	28	/Matestar constructors and destructor/
	29	Matestar::Matestar(){/{{{/
	30	this->helement=NULL;
	31	this->element=NULL;
	32	return;
	33	}
	34	/}}}/
	35	Matestar::Matestar(int matestar_mid,int index, IoModel* iomodel){/{{{/
	36
	37	/Intermediaries:/
	38	int matestar_eid;
	39
	40	/Initialize id/
	41	this->mid=matestar_mid;
	42
	43	/Hooks: /
	44	matestar_eid=index+1;
	45	this->helement=new Hook(&matestar_eid,1);
	46	this->element=NULL;
	47
	48	return;
	49	}
	50	/}}}/
	51	Matestar::~Matestar(){/{{{/
	52	delete helement;
	53	return;
	54	}
	55	/}}}/
	56
	57	/Object virtual functions definitions:/
	58	Object* Matestar::copy() {/{{{/
	59
	60	/Output/
	61	Matestar* matestar=NULL;
	62
	63	/Initialize output/
	64	matestar=new Matestar();
	65
	66	/copy fields: /
	67	matestar->mid=this->mid;
	68	matestar->helement=(Hook*)this->helement->copy();
	69	matestar->element =(Element*)this->helement->delivers();
	70
	71	return matestar;
	72	}
	73	/}}}/
	74	Material* Matestar::copy2(Element* element_in) {/{{{/
	75
	76	/Output/
	77	Matestar* matestar=NULL;
	78
	79	/Initialize output/
	80	matestar=new Matestar();
	81
	82	/copy fields: /
	83	matestar->mid=this->mid;
	84	matestar->helement=(Hook*)this->helement->copy();
	85	matestar->element =element_in;
	86
	87	return matestar;
	88	}
	89	/}}}/
	90	void Matestar::DeepEcho(void){/{{{/
	91
	92	_printf_("Matestar:\n");
	93	_printf_(" mid: " << mid << "\n");
	94	_printf_(" element:\n");
	95	helement->Echo();
	96	}
	97	/}}}/
	98	void Matestar::Echo(void){/{{{/
	99
	100	_printf_("Matestar:\n");
	101	_printf_(" mid: " << mid << "\n");
	102	_printf_(" element:\n");
	103	helement->Echo();
	104	}
	105	/}}}/
	106	int Matestar::Id(void){ return mid; }/{{{/
	107	/}}}/
	108	void Matestar::Marshall(char** pmarshalled_data,int* pmarshalled_data_size, int marshall_direction){ /{{{/
	109
	110	if(marshall_direction==MARSHALLING_BACKWARD)helement=new Hook();
	111
	112	MARSHALLING_ENUM(MatestarEnum);
	113	MARSHALLING(mid);
	114	this->helement->Marshall(pmarshalled_data,pmarshalled_data_size,marshall_direction);
	115	this->element=(Element*)this->helement->delivers();
	116
	117	}
	118	/}}}/
[20827]	119	int Matestar::ObjectEnum(void){/{{{/
[20687]	120
[20827]	121	return MatestarEnum;
	122
	123	}
	124	/}}}/
	125
[20687]	126	/Matestar management/
	127	void Matestar::Configure(Elements* elementsin){/{{{/
	128
	129	/*Take care of hooking up all objects for this element, ie links the objects in the hooks to their respective
	130	* datasets, using internal ids and offsets hidden in hooks: */
	131	helement->configure((DataSet*)elementsin);
	132	this->element = (Element*)helement->delivers();
	133	}
	134	/}}}/
	135	IssmDouble Matestar::GetA(){/{{{/
[21381]	136	/*
	137	* A = 1/B^n
	138	*/
	139
	140	IssmDouble B,n;
	141
	142	element->inputs->GetInputAverage(&B,MaterialsRheologyBEnum);
	143	n=this->GetN();
	144
	145	return pow(B,-n);
[20687]	146	}
	147	/}}}/
	148	IssmDouble Matestar::GetAbar(){/{{{/
[21381]	149	/*
	150	* A = 1/B^n
	151	*/
	152
	153	IssmDouble B,n;
	154
	155	element->inputs->GetInputAverage(&B,MaterialsRheologyBbarEnum);
	156	n=this->GetN();
	157
	158	return pow(B,-n);
[20687]	159	}
	160	/}}}/
	161	IssmDouble Matestar::GetB(){/{{{/
[21700]	162
[21381]	163	/Output/
	164	IssmDouble B;
	165
	166	element->inputs->GetInputAverage(&B,MaterialsRheologyBEnum);
	167	return B;
[20687]	168	}
	169	/}}}/
	170	IssmDouble Matestar::GetBbar(){/{{{/
[21700]	171
[21381]	172	/Output/
	173	IssmDouble Bbar;
[20687]	174
[21381]	175	element->inputs->GetInputAverage(&Bbar,MaterialsRheologyBbarEnum);
	176	return Bbar;
[20687]	177	}
	178	/}}}/
	179	IssmDouble Matestar::GetD(){/{{{/
	180	_error_("not implemented yet");
	181	}
	182	/}}}/
	183	IssmDouble Matestar::GetDbar(){/{{{/
	184
	185	_error_("not implemented yet");
	186	}
	187	/}}}/
[21381]	188	IssmDouble Matestar::GetEc(){/{{{/
	189
	190	/Output/
	191	IssmDouble Ec;
	192
	193	element->inputs->GetInputAverage(&Ec,MaterialsRheologyEcEnum);
	194	return Ec;
	195	}
	196	/}}}/
[21700]	197	IssmDouble Matestar::GetEcbar(){/{{{/
	198
	199	/Output/
	200	IssmDouble Ecbar;
	201
	202	element->inputs->GetInputAverage(&Ecbar,MaterialsRheologyEcbarEnum);
	203	return Ecbar;
	204	}
	205	/}}}/
[21381]	206	IssmDouble Matestar::GetEs(){/{{{/
	207
	208	/Output/
	209	IssmDouble Es;
	210
	211	element->inputs->GetInputAverage(&Es,MaterialsRheologyEsEnum);
	212	return Es;
	213	}
	214	/}}}/
[21700]	215	IssmDouble Matestar::GetEsbar(){/{{{/
	216
	217	/Output/
	218	IssmDouble Esbar;
	219
	220	element->inputs->GetInputAverage(&Esbar,MaterialsRheologyEsbarEnum);
	221	return Esbar;
	222	}
	223	/}}}/
[20827]	224	IssmDouble Matestar::GetN(){/{{{/
[21407]	225
	226	/Output/
	227	IssmDouble n=3.0;
	228	return n;
[20687]	229	}
	230	/}}}/
	231	void Matestar::GetViscosity(IssmDouble* pviscosity,IssmDouble eps_eff){/{{{/
	232	_error_("not implemented yet");
	233	}
	234	/}}}/
	235	void Matestar::GetViscosityBar(IssmDouble* pviscosity,IssmDouble eps_eff){/{{{/
	236	_error_("not implemented yet");
	237	}
	238	/}}}/
	239	void Matestar::GetViscosityComplement(IssmDouble* pviscosity_complement, IssmDouble* epsilon){/{{{/
	240	_error_("not implemented yet");
	241	}
	242	/}}}/
	243	void Matestar::GetViscosityDComplement(IssmDouble* pviscosity_complement, IssmDouble* epsilon){/{{{/
	244	_error_("not implemented yet");
	245	}
	246	/}}}/
	247	void Matestar::GetViscosityDerivativeEpsSquare(IssmDouble* pmu_prime, IssmDouble* epsilon){/{{{/
	248	_error_("not implemented yet");
	249	}
	250	/}}}/
[21826]	251	IssmDouble Matestar::GetViscosityGeneral(IssmDouble vx,IssmDouble vy,IssmDouble vz,IssmDouble* dvx,IssmDouble* dvy,IssmDouble* dvz,IssmDouble eps_eff,bool isdepthaveraged){/{{{/
[20827]	252
[21700]	253	/output: /
	254	IssmDouble viscosity;
	255
[20827]	256	/Intermediaries/
[21826]	257	IssmDouble epsprime_norm;
[21381]	258	IssmDouble lambdas;
[20827]	259	IssmDouble vmag,dvmag[3];
[21700]	260	IssmDouble B,Ec,Es,E,n;
[20827]	261
	262	/Calculate velocity magnitude and its derivative/
	263	vmag = sqrt(vxvx+vyvy+vz*vz);
	264	if(vmag<1e-12){
	265	dvmag[0]=0;
	266	dvmag[1]=0;
	267	dvmag[2]=0;
	268	}
	269	else{
	270	dvmag[0]=1./(2sqrt(vmag))(2vxdvx[0]+2vydvy[0]+2vzdvz[0]);
	271	dvmag[1]=1./(2sqrt(vmag))(2vxdvx[1]+2vydvy[1]+2vzdvz[1]);
	272	dvmag[2]=1./(2sqrt(vmag))(2vxdvx[2]+2vydvy[2]+2vzdvz[2]);
	273	}
	274
[21826]	275	EstarStrainrateQuantities(&epsprime_norm,vx,vy,vz,vmag,dvx,dvy,dvz,&dvmag[0]);
	276	lambdas=EstarLambdaS(eps_eff,epsprime_norm);
[20827]	277
[21381]	278	/Get B and enhancement/
[21700]	279	n=GetN(); _assert_(n>0.);
	280	if (isdepthaveraged==0.){
	281	B=GetB(); _assert_(B>0.);
	282	Ec=GetEc(); _assert_(Ec>=0.);
	283	Es=GetEs(); _assert_(Es>=0.);
	284	}
	285	else{
	286	B=GetBbar(); _assert_(B>0.);
	287	Ec=GetEcbar(); _assert_(Ec>=0.);
	288	Es=GetEsbar(); _assert_(Es>=0.);
	289	}
[21381]	290
[20827]	291	/Get total enhancement factor E(lambdas)/
[21381]	292	E = Ec + (Es-Ec)lambdaslambdas; _assert_(E>0.);
[20827]	293
	294	/Compute viscosity/
[21381]	295	/if no strain rate, return maximum viscosity/
[21826]	296	if(eps_eff==0.){
[21381]	297	viscosity = 1.e+14/2.;
	298	//viscosity = B;
	299	//viscosity=2.5*pow(10.,17);
	300	}
	301	else{
[21826]	302	viscosity = B/(2.pow(E,1./n)pow(eps_eff,2./n));
[21381]	303	}
[20827]	304
[21826]	305	/Checks in debugging mode/
	306	if(viscosity<=0) _error_("Negative viscosity");
	307
[20827]	308	/Assign output pointer/
	309	return viscosity;
[20687]	310	}
	311	/}}}/
[21826]	312	IssmDouble Matestar::GetViscosity_BGeneral(IssmDouble vx,IssmDouble vy,IssmDouble vz,IssmDouble* dvx,IssmDouble* dvy,IssmDouble* dvz,IssmDouble eps_eff,bool isdepthaveraged){/{{{/
[21700]	313
	314	/Intermediaries/
[21407]	315	IssmDouble dmudB;
[21826]	316	IssmDouble epsprime_norm;
[21700]	317	IssmDouble lambdas;
	318	IssmDouble vmag,dvmag[3];
	319	IssmDouble Ec,Es,E;
[21407]	320
[21700]	321	/Calculate velocity magnitude and its derivative/
	322	vmag = sqrt(vxvx+vyvy+vz*vz);
	323	if(vmag<1e-12){
	324	dvmag[0]=0;
	325	dvmag[1]=0;
	326	dvmag[2]=0;
	327	}
	328	else{
	329	dvmag[0]=1./(2sqrt(vmag))(2vxdvx[0]+2vydvy[0]+2vzdvz[0]);
	330	dvmag[1]=1./(2sqrt(vmag))(2vxdvx[1]+2vydvy[1]+2vzdvz[1]);
	331	dvmag[2]=1./(2sqrt(vmag))(2vxdvx[2]+2vydvy[2]+2vzdvz[2]);
	332	}
[21407]	333
[21826]	334	EstarStrainrateQuantities(&epsprime_norm,vx,vy,vz,vmag,dvx,dvy,dvz,&dvmag[0]);
	335	lambdas=EstarLambdaS(eps_eff,epsprime_norm);
[21700]	336
	337	/Get enhancement/
	338	if (isdepthaveraged==0.){
	339	Ec=GetEc(); _assert_(Ec>=0.);
	340	Es=GetEs(); _assert_(Es>=0.);
[21407]	341	}
	342	else{
[21700]	343	Ec=GetEcbar(); _assert_(Ec>=0.);
	344	Es=GetEsbar(); _assert_(Es>=0.);
[21407]	345	}
	346
[21700]	347	/Get total enhancement factor E(lambdas)/
	348	E = Ec + (Es-Ec)lambdaslambdas; _assert_(E>0.);
	349
	350	/Compute dmudB/
[21826]	351	if(eps_eff==0.) dmudB = 0.;
	352	else dmudB = 1./(2.pow(E,1./3.)pow(eps_eff,2./3.));
[21700]	353
	354	/Assign output/
	355	return dmudB;
	356
[20687]	357	}
	358	/}}}/
[21700]	359	void Matestar::GetViscosity_B(IssmDouble* pdmudB,IssmDouble eps_eff){/{{{/
	360	_error_("not implemented yet");
	361	}
	362	/}}}/
[20827]	363	void Matestar::GetViscosity_D(IssmDouble* pdmudD,IssmDouble eps_eff){/{{{/
	364	_error_("not implemented yet");
[20687]	365	}
	366	/}}}/
[20827]	367	void Matestar::GetViscosity2dDerivativeEpsSquare(IssmDouble* pmu_prime, IssmDouble* epsilon){/{{{/
	368	_error_("not implemented yet");
[20687]	369	}
	370	/}}}/
	371	void Matestar::InputUpdateFromConstant(IssmDouble constant, int name){/{{{/
	372	/Nothing updated yet/
	373	}
	374	/}}}/
	375	void Matestar::InputUpdateFromConstant(int constant, int name){/{{{/
	376	/Nothing updated yet/
	377	}
	378	/}}}/
	379	void Matestar::InputUpdateFromConstant(bool constant, int name){/{{{/
	380	/Nothing updated yet/
	381	}
	382	/}}}/
[20827]	383	void Matestar::InputUpdateFromMatrixDakota(IssmDouble* matrix, int nrows, int ncols,int name, int type){/{{{/
	384	/Nothing updated yet/
	385	}
	386	/}}}/
	387	void Matestar::InputUpdateFromVector(IssmDouble* vector, int name, int type){/{{{/
	388
	389	}
	390	/}}}/
	391	void Matestar::InputUpdateFromVectorDakota(IssmDouble* vector, int name, int type){/{{{/
	392
	393	}
	394	/}}}/
	395	bool Matestar::IsDamage(){/{{{/
	396
	397	_error_("not implemented yet");
	398	}
	399	/}}}/
	400	void Matestar::ResetHooks(){/{{{/
	401
	402	this->element=NULL;
	403
	404	/Get Element type/
	405	this->helement->reset();
	406
	407	}
	408	/}}}/
	409	void Matestar::SetCurrentConfiguration(Elements* elementsin,Loads* loadsin,Nodes* nodesin,Vertices* verticesin,Materials* materialsin,Parameters* parametersin){/{{{/
	410
	411	}
	412	/}}}/
[21826]	413	void Matestar::ViscosityBFS(IssmDouble* pdmudB,int dim,IssmDouble* xyz_list,Gauss* gauss,Input* vx_input,Input* vy_input,Input* vz_input,IssmDouble eps_eff){/{{{/
[21700]	414
	415	/Intermediaries/
	416	IssmDouble vx,vy,vz;
	417	IssmDouble dvx[3],dvy[3],dvz[3];
	418	bool isdepthaveraged=0.;
	419
	420	/Get velocity derivatives in all directions/
	421	_assert_(dim>1);
	422	_assert_(vx_input);
	423	vx_input->GetInputValue(&vx,gauss);
	424	vx_input->GetInputDerivativeValue(&dvx[0],xyz_list,gauss);
	425	_assert_(vy_input);
	426	vy_input->GetInputValue(&vy,gauss);
	427	vy_input->GetInputDerivativeValue(&dvy[0],xyz_list,gauss);
	428	if(dim==3){
	429	_assert_(vz_input);
	430	vz_input->GetInputValue(&vz,gauss);
	431	vz_input->GetInputDerivativeValue(&dvz[0],xyz_list,gauss);
	432	}
	433	else{
	434	vz = 0.;
	435	dvz[0] = 0.; dvz[1] = 0.; dvz[2] = 0.;
	436	}
	437
	438	/Compute dmudB/
[21826]	439	*pdmudB=GetViscosity_BGeneral(vx,vy,vz,&dvx[0],&dvy[0],&dvz[0],eps_eff,isdepthaveraged);
[21700]	440	}
	441	/}}}/
[21826]	442	void Matestar::ViscosityBHO(IssmDouble* pdmudB,int dim,IssmDouble* xyz_list,Gauss* gauss,Input* vx_input,Input* vy_input,IssmDouble eps_eff){/{{{/
[21700]	443
	444	/Intermediaries/
	445	IssmDouble vx,vy,vz;
	446	IssmDouble dvx[3],dvy[3],dvz[3];
	447	bool isdepthaveraged=0.;
	448
	449	/Get velocity derivatives in all directions/
	450	_assert_(dim==2 \|\| dim==3);
	451	_assert_(vx_input);
	452	vx_input->GetInputValue(&vx,gauss);
	453	vx_input->GetInputDerivativeValue(&dvx[0],xyz_list,gauss);
	454	if(dim==3){
	455	_assert_(vy_input);
	456	vy_input->GetInputValue(&vy,gauss);
	457	vy_input->GetInputDerivativeValue(&dvy[0],xyz_list,gauss);
	458	}
	459	else{
	460	dvx[2] = 0.;
	461	vy = 0.;
	462	dvy[0] = 0.; dvy[1] = 0.; dvy[2] = 0.;
	463	}
	464	vz = 0.;
	465	dvz[0] = 0.; dvz[1] = 0.; dvz[2] = -dvx[0]-dvy[1];
	466
	467	/Compute viscosity/
[21826]	468	*pdmudB=GetViscosity_BGeneral(vx,vy,vz,&dvx[0],&dvy[0],&dvz[0],eps_eff,isdepthaveraged);
[21700]	469	}/}}}/
[21826]	470	void Matestar::ViscosityBSSA(IssmDouble* pdmudB,int dim,IssmDouble* xyz_list,Gauss* gauss,Input* vx_input,Input* vy_input,IssmDouble eps_eff){/{{{/
[21700]	471	/Intermediaries/
	472	IssmDouble vx,vy,vz;
	473	IssmDouble dvx[3],dvy[3],dvz[3];
	474	bool isdepthaveraged=1.;
	475
	476	/Get velocity derivatives in all directions/
	477	_assert_(dim==1 \|\| dim==2);
	478	_assert_(vx_input);
	479	vx_input->GetInputValue(&vx,gauss);
	480	vx_input->GetInputDerivativeValue(&dvx[0],xyz_list,gauss);
	481	if(dim==2){
	482	_assert_(vy_input);
	483	vy_input->GetInputValue(&vy,gauss);
	484	vy_input->GetInputDerivativeValue(&dvy[0],xyz_list,gauss);
	485	}
	486	else{
	487	dvx[1] = 0.;
	488	dvx[2] = 0.;
	489	vy = 0.;
	490	dvy[0] = 0.; dvy[1] = 0.; dvy[2] = 0.;
	491	}
	492	dvx[2] = 0.;
	493	dvy[2] = 0.;
	494	vz = 0.;
	495	dvz[0] = 0.; dvz[1] = 0.; dvz[2] = -dvx[0]-dvy[1];
	496
	497	/Compute viscosity/
[21826]	498	*pdmudB=GetViscosity_BGeneral(vx,vy,vz,&dvx[0],&dvy[0],&dvz[0],eps_eff,isdepthaveraged);
[21700]	499	}/}}}/
[20687]	500	void Matestar::ViscosityFS(IssmDouble* pviscosity,int dim,IssmDouble* xyz_list,Gauss* gauss,Input* vx_input,Input* vy_input,Input* vz_input){/{{{/
	501
	502	/Intermediaries/
	503	IssmDouble vx,vy,vz;
	504	IssmDouble dvx[3],dvy[3],dvz[3];
[21826]	505	IssmDouble epsilon3d[6]; /* epsilon=[exx,eyy,ezz,exy,exz,eyz];*/
	506	IssmDouble epsilon2d[3]; /* epsilon=[exx,eyy,exy];*/
	507	IssmDouble eps_eff,eps0=1.e-27;
[21700]	508	bool isdepthaveraged=0.;
[20687]	509
	510	/Get velocity derivatives in all directions/
	511	_assert_(dim>1);
	512	_assert_(vx_input);
	513	vx_input->GetInputValue(&vx,gauss);
	514	vx_input->GetInputDerivativeValue(&dvx[0],xyz_list,gauss);
	515	_assert_(vy_input);
	516	vy_input->GetInputValue(&vy,gauss);
	517	vy_input->GetInputDerivativeValue(&dvy[0],xyz_list,gauss);
	518	if(dim==3){
	519	_assert_(vz_input);
	520	vz_input->GetInputValue(&vz,gauss);
	521	vz_input->GetInputDerivativeValue(&dvz[0],xyz_list,gauss);
	522	}
	523	else{
	524	vz = 0.;
	525	dvz[0] = 0.; dvz[1] = 0.; dvz[2] = 0.;
	526	}
	527
[21826]	528	if(dim==3){
	529	/* eps_eff^2 = exx^2 + eyy^2 + exy^2 + exz^2 + eyz^2 + exxeyy /
	530	element->StrainRateFS(&epsilon3d[0],xyz_list,gauss,vx_input,vy_input,vz_input);
	531	eps_eff = sqrt(epsilon3d[0]epsilon3d[0] + epsilon3d[1]epsilon3d[1] + epsilon3d[3]epsilon3d[3] + epsilon3d[4]epsilon3d[4] + epsilon3d[5]epsilon3d[5] + epsilon3d[0]epsilon3d[1]+eps0*eps0);
	532	}
	533	else{
	534	/* eps_eff^2 = 1/2 ( exx^2 + eyy^2 + 2exy^2 )/
	535	element->StrainRateSSA(&epsilon2d[0],xyz_list,gauss,vx_input,vy_input);
	536	eps_eff = 1./sqrt(2.)sqrt(epsilon2d[0]epsilon2d[0] + epsilon2d[1]epsilon2d[1] + 2.epsilon2d[2]*epsilon2d[2]);
	537	}
	538
[20687]	539	/Compute viscosity/
[21826]	540	*pviscosity=GetViscosityGeneral(vx,vy,vz,&dvx[0],&dvy[0],&dvz[0],eps_eff,isdepthaveraged);
[20687]	541	}
	542	/}}}/
	543	void Matestar::ViscosityFSDerivativeEpsSquare(IssmDouble* pmu_prime,IssmDouble* epsilon){/{{{/
	544	this->GetViscosityDerivativeEpsSquare(pmu_prime,epsilon);
	545	}/}}}/
	546	void Matestar::ViscosityHO(IssmDouble* pviscosity,int dim,IssmDouble* xyz_list,Gauss* gauss,Input* vx_input,Input* vy_input){/{{{/
	547
	548	/Intermediaries/
	549	IssmDouble vx,vy,vz;
	550	IssmDouble dvx[3],dvy[3],dvz[3];
[21826]	551	IssmDouble epsilon3d[5]; /* epsilon=[exx,eyy,exy,exz,eyz];*/
	552	IssmDouble epsilon2d[5]; /* epsilon=[exx,exy];*/
	553	IssmDouble eps_eff;
[21700]	554	bool isdepthaveraged=0.;
[20687]	555
[21826]	556	if(dim==3){
	557	/* eps_eff^2 = exx^2 + eyy^2 + exy^2 + exz^2 + eyz^2 + exxeyy /
	558	element->StrainRateHO(&epsilon3d[0],xyz_list,gauss,vx_input,vy_input);
	559	eps_eff = sqrt(epsilon3d[0]epsilon3d[0] + epsilon3d[1]epsilon3d[1] + epsilon3d[2]epsilon3d[2] + epsilon3d[3]epsilon3d[3] + epsilon3d[4]epsilon3d[4] + epsilon3d[0]epsilon3d[1]);
	560	}
	561	else{
	562	/* eps_eff^2 = 1/2 (2exx^2 + 2exy^2 ) (since eps_zz = - eps_xx)*/
	563	element->StrainRateHO2dvertical(&epsilon2d[0],xyz_list,gauss,vx_input,vy_input);
	564	eps_eff = 1./sqrt(2.)sqrt(2epsilon2d[0]epsilon2d[0] + 2epsilon2d[1]*epsilon2d[1]);
	565	}
	566
[20687]	567	/Get velocity derivatives in all directions/
	568	_assert_(dim==2 \|\| dim==3);
	569	_assert_(vx_input);
	570	vx_input->GetInputValue(&vx,gauss);
	571	vx_input->GetInputDerivativeValue(&dvx[0],xyz_list,gauss);
	572	if(dim==3){
	573	_assert_(vy_input);
	574	vy_input->GetInputValue(&vy,gauss);
	575	vy_input->GetInputDerivativeValue(&dvy[0],xyz_list,gauss);
	576	}
	577	else{
	578	dvx[2] = 0.;
	579	vy = 0.;
	580	dvy[0] = 0.; dvy[1] = 0.; dvy[2] = 0.;
	581	}
	582	vz = 0.;
	583	dvz[0] = 0.; dvz[1] = 0.; dvz[2] = -dvx[0]-dvy[1];
	584
	585	/Compute viscosity/
[21826]	586	*pviscosity=GetViscosityGeneral(vx,vy,vz,&dvx[0],&dvy[0],&dvz[0],eps_eff,isdepthaveraged);
[20687]	587	}/}}}/
	588	void Matestar::ViscosityHODerivativeEpsSquare(IssmDouble* pmu_prime,IssmDouble* epsilon){/{{{/
	589	_error_("not implemented yet");
	590	}/}}}/
	591	void Matestar::ViscosityL1L2(IssmDouble* pviscosity,IssmDouble* xyz_list,Gauss* gauss,Input* vx_input,Input* vy_input,Input* surface_input){/{{{/
	592	_error_("not implemented yet");
	593	}/}}}/
	594	void Matestar::ViscositySSA(IssmDouble* pviscosity,int dim,IssmDouble* xyz_list,Gauss* gauss,Input* vx_input,Input* vy_input){/{{{/
[21700]	595
[20687]	596	/Intermediaries/
	597	IssmDouble vx,vy,vz;
	598	IssmDouble dvx[3],dvy[3],dvz[3];
[21826]	599	IssmDouble epsilon2d[3];/* epsilon=[exx,eyy,exy]; */
	600	IssmDouble epsilon1d; /* epsilon=[exx]; */
	601	IssmDouble eps_eff;
[21700]	602	bool isdepthaveraged=1.;
[20687]	603
	604	/Get velocity derivatives in all directions/
	605	_assert_(dim==1 \|\| dim==2);
	606	_assert_(vx_input);
	607	vx_input->GetInputValue(&vx,gauss);
	608	vx_input->GetInputDerivativeValue(&dvx[0],xyz_list,gauss);
	609	if(dim==2){
	610	_assert_(vy_input);
	611	vy_input->GetInputValue(&vy,gauss);
	612	vy_input->GetInputDerivativeValue(&dvy[0],xyz_list,gauss);
	613	}
	614	else{
	615	dvx[1] = 0.;
	616	dvx[2] = 0.;
	617	vy = 0.;
	618	dvy[0] = 0.; dvy[1] = 0.; dvy[2] = 0.;
	619	}
[21112]	620	dvx[2] = 0.;
	621	dvy[2] = 0.;
[20687]	622	vz = 0.;
	623	dvz[0] = 0.; dvz[1] = 0.; dvz[2] = -dvx[0]-dvy[1];
	624
[21826]	625	if(dim==2){
	626	/* eps_eff^2 = exx^2 + eyy^2 + exy^2 + exxeyy/
	627	element->StrainRateSSA(&epsilon2d[0],xyz_list,gauss,vx_input,vy_input);
	628	eps_eff = sqrt(epsilon2d[0]epsilon2d[0] + epsilon2d[1]epsilon2d[1] + epsilon2d[2]epsilon2d[2] + epsilon2d[0]epsilon2d[1]);
	629	}
	630	else{
	631	/* eps_eff^2 = exx^2*/
	632	element->StrainRateSSA1d(&epsilon1d,xyz_list,gauss,vx_input);
	633	eps_eff = fabs(epsilon1d);
	634	}
	635
[20687]	636	/Compute viscosity/
[21826]	637	*pviscosity=GetViscosityGeneral(vx,vy,vz,&dvx[0],&dvy[0],&dvz[0],eps_eff,isdepthaveraged);
[20687]	638	}/}}}/
	639	void Matestar::ViscositySSADerivativeEpsSquare(IssmDouble* pmu_prime,IssmDouble* epsilon){/{{{/
	640	_error_("not implemented yet");
	641	}/}}}/

Note: See TracBrowser for help on using the repository browser.

Download in other formats: