source: issm/trunk/src/c/ModelProcessorx/Model.cpp@ 1766

/*! \file Model.cpp
 * \brief  Model structure that mirrors the matlab workspace structure. Servers for the serial 
 * and parallel runs.
 */

#ifdef HAVE_CONFIG_H
        #include "config.h"
#else
#error "Cannot compile with HAVE_CONFIG_H symbol! run configure first!"
#endif

#include "../shared/shared.h"
#include "../io/io.h"
#include "../include/globals.h"
#include "../include/macros.h"

#include <string.h>
#include "stdio.h"

#include "./Model.h"


/*!--------------------------------------------------
        NewModel
  --------------------------------------------------*/

Model* NewModel(void) {
        /*! create a new Model object */
        Model* model=NULL;

        model=(Model*)xmalloc(sizeof(Model));

        /*!initialize all pointers to 0: */
        model->name=NULL;
        model->repository=NULL;
        model->meshtype=NULL;
        model->analysis_type=0;
        model->sub_analysis_type=0;
        model->qmu_analysis=0;
        model->solverstring=NULL;
        model->numberofresponses=0;
        model->numberofvariables=0;
        model->qmu_npart=0; 
        model->numberofelements=0;
        model->numberofnodes=0;
        model->x=NULL; 
        model->y=NULL;
        model->z=NULL;
        model->elements=NULL;
        model->elements_type=NULL;
        model->numberofnodes2d=0;
        model->elements2d=NULL;
        model->deadgrids=NULL;
        model->numlayers=0;
        model->uppernodes=NULL;
        model->gridonhutter=NULL;
        model->gridonmacayeal=NULL;
        model->gridonpattyn=NULL;
        
        model->vx_obs=NULL;
        model->vy_obs=NULL;
        model->vx=NULL;
        model->vy=NULL;
        model->vz=NULL;
        model->pressure=NULL;
        model->temperature=NULL;
        model->melting=NULL;
        model->elementonbed=NULL;
        model->elementonsurface=NULL;
        model->gridonbed=NULL;
        model->gridonsurface=NULL;
        model->gridonstokes=NULL;
        model->borderstokes=NULL;
        model->thickness=NULL;
        model->surface=NULL;
        model->bed=NULL;
        model->elementoniceshelf=NULL;
        model->elementonwater=NULL;
        model->gridonicesheet=NULL;
        model->gridoniceshelf=NULL;

        model->drag_type=0;
        model->drag=NULL;
        model->p=NULL;
        model->q=NULL;
        
        
        model->numberofpressureloads=0;
        model->numberofpressureloads_stokes=0;
        model->pressureload=NULL;
        model->pressureload_stokes=NULL;
        model-> spcvelocity=NULL;
        model-> spctemperature=NULL;
        model-> spcthickness=NULL;
        
        /*!materials: */
        model->rho_water=0;
        model->rho_ice=0;
        model->g=0;
        model->n=NULL;
        model->B=NULL;

        /*!control methods: */
        model->control_type=NULL;

        /*!solution parameters: */
        model->fit=NULL;
        model->meanvel=0;
        model->epsvel=0;
        model->artificial_diffusivity=0;
        model->nsteps=0;
        model->tolx=0;
        model->maxiter=NULL;
        model->mincontrolconstraint=0;
        model->maxcontrolconstraint=0;
        model->debug=0;
        model->plot=0;
        model->eps_res=0;
        model->eps_rel=0;
        model->eps_abs=0;
        model->dt=0;
        model->ndt=0;
        model->penalty_offset=0;
        model->penalty_melting=0;
        model->penalty_lock=0;
        model->sparsity=0;
        model->connectivity=0;
        model->lowmem=0;
        model->optscal=NULL;
        model->yts=0;
        model->viscosity_overshoot=0;
        model->stokesreconditioning=0;
        model->waitonlock=0;

        /*!thermal parameters: */
        model->beta=0;
        model->meltingpoint=0;
        model->latentheat=0;
        model->heatcapacity=0;
        model->thermalconductivity=0;
        model->min_thermal_constraints=0;
        model->mixed_layer_capacity=0;
        model->thermal_exchange_velocity=0;

        
        model->numrifts=0;
        model->riftinfo=NULL;

        /*!penalties: */
        model->numpenalties=0;
        model->penalties=NULL;
        model->penaltypartitioning=NULL;

        /*!basal: */
        model->melting=NULL;
        model->accumulation=NULL;

        /*elements type: */
        model->ishutter=0;
        model->ismacayealpattyn=0;
        model->isstokes=0;


        model->epart=NULL;
        model->npart=NULL;
        model->my_grids=NULL;
        model->my_bordergrids=NULL;

        return model;
}


/*!--------------------------------------------------
        DeleteModel
  --------------------------------------------------*/

void DeleteModel(Model** pmodel){

        /*!Recover structure: */
        Model* model = *pmodel;
        
        int i;

        /*!Two cases here: 
         * - serial mode: matlab's memory manager will take care of delete model when returning from Imp. Do nothing here, so as not to confuse 
         *                the memory manager.
     * - in parallel, anything the io layer does (FetchData) did needs to be erased explicitely in the model.
         */

        #ifdef _PARALLEL_
        xfree((void**)&model->x);
        xfree((void**)&model->y);
        xfree((void**)&model->z);
        xfree((void**)&model->elements);
        xfree((void**)&model->elements_type);
        xfree((void**)&model->gridonhutter);
        xfree((void**)&model->gridonmacayeal);
        if (strcmp(model->meshtype,"3d")==0){
                xfree((void**)&model->elements2d);
                xfree((void**)&model->deadgrids);
                xfree((void**)&model->uppernodes);
                xfree((void**)&model->gridonpattyn);
        }
        xfree((void**)&model->solverstring);
        xfree((void**)&model->elementonbed);
        xfree((void**)&model->elementonsurface);
        xfree((void**)&model->gridonbed);
        xfree((void**)&model->gridonsurface);
        xfree((void**)&model->gridonstokes);
        xfree((void**)&model->borderstokes);
        xfree((void**)&model->thickness);
        xfree((void**)&model->surface);
        xfree((void**)&model->bed);
        xfree((void**)&model->vx_obs);
        xfree((void**)&model->vy_obs);
        xfree((void**)&model->vx);
        xfree((void**)&model->vy);
        xfree((void**)&model->vz);
        xfree((void**)&model->pressure);
        xfree((void**)&model->temperature);
        xfree((void**)&model->melting);
        xfree((void**)&model->drag);
        xfree((void**)&model->p);
        xfree((void**)&model->q);
        xfree((void**)&model->elementoniceshelf);
        xfree((void**)&model->elementonwater);
        xfree((void**)&model->gridonicesheet);
        xfree((void**)&model->gridoniceshelf);
        xfree((void**)&model->pressureload);
        xfree((void**)&model->pressureload_stokes);
        xfree((void**)&model->spcvelocity);
        xfree((void**)&model->spcthickness);
        xfree((void**)&model->spctemperature);
        xfree((void**)&model->geothermalflux);
        xfree((void**)&model->melting);
        xfree((void**)&model->accumulation);
        xfree((void**)&model->B);
        xfree((void**)&model->n);
        xfree((void**)&model->fit);
        xfree((void**)&model->optscal);
        xfree((void**)&model->maxiter);


        /*!Delete structure fields: */
        xfree((void**)&model->repository);
        xfree((void**)&model->meshtype);
        xfree((void**)&model->name);
        
        xfree((void**)&model->riftinfo);
        
        xfree((void**)&model->penalties);
        xfree((void**)&model->penaltypartitioning);
        
        xfree((void**)&model->control_type);
        
        xfree((void**)&model->epart);
        xfree((void**)&model->npart);
        xfree((void**)&model->my_grids);
        xfree((void**)&model->my_bordergrids);
        
        /*!Delete entire structure: */
        xfree((void**)pmodel);
        #endif
}

/*!--------------------------------------------------
        ModelInit
  --------------------------------------------------*/

#undef __FUNCT__ 
#define __FUNCT__ "ModelInit"

int     ModelInit(Model** pmodel,ConstDataHandle model_handle){

        int i,j;
        
        /*output: */
        Model* model=NULL;

        /*Allocate model: */
        model=NewModel();

        /*In ModelInit, we get all the data that is not difficult to get, and that is small: */
        ModelFetchData((void**)&model->name,NULL,NULL,model_handle,"name","String",NULL); 
        ModelFetchData((void**)&model->analysis_type,NULL,NULL,model_handle,"analysis_type","Integer",NULL); 
        ModelFetchData((void**)&model->sub_analysis_type,NULL,NULL,model_handle,"sub_analysis_type","Integer",NULL); 
        ModelFetchData((void**)&model->qmu_analysis,NULL,NULL,model_handle,"qmu_analysis","Integer",NULL); 
        ModelFetchData((void**)&model->meshtype,NULL,NULL,model_handle,"type","String",NULL);
        /*!Get numberofelements and numberofnodes: */
        ModelFetchData((void**)&model->numberofnodes,NULL,NULL,model_handle,"numberofgrids","Integer",NULL);
        ModelFetchData((void**)&model->numberofelements,NULL,NULL,model_handle,"numberofelements","Integer",NULL);
        /*!In case we are running 3d, we are going to need the collapsed and non-collapsed 2d meshes, from which the 3d mesh was extruded: */
        if (strcmp(model->meshtype,"3d")==0){
        
                /*!Deal with 2d mesh: */
                ModelFetchData((void**)&model->numberofelements2d,NULL,NULL,model_handle,"numberofelements2d","Integer",NULL);
                ModelFetchData((void**)&model->numberofnodes2d,NULL,NULL,model_handle,"numberofgrids2d","Integer",NULL);
                ModelFetchData((void**)&model->numlayers,NULL,NULL,model_handle,"numlayers","Integer",NULL);
        }


        /*elements type: */
        ModelFetchData((void**)&model->ishutter,NULL,NULL,model_handle,"ishutter","Integer",NULL);
        ModelFetchData((void**)&model->ismacayealpattyn,NULL,NULL,model_handle,"ismacayealpattyn","Integer",NULL);
        ModelFetchData((void**)&model->isstokes,NULL,NULL,model_handle,"isstokes","Integer",NULL);

        /*!Get drag_type, drag and p,q: */
        ModelFetchData((void**)&model->drag_type,NULL,NULL,model_handle,"drag_type","Integer",NULL);

        /*!Get materials: */
        ModelFetchData((void**)&model->rho_water,NULL,NULL,model_handle,"rho_water","Scalar",NULL);
        ModelFetchData((void**)&model->rho_ice,NULL,NULL,model_handle,"rho_ice","Scalar",NULL);
        ModelFetchData((void**)&model->g,NULL,NULL,model_handle,"g","Scalar",NULL);

        /*Get control parameters: */
        ModelFetchData((void**)&model->control_type,NULL,NULL,model_handle,"control_type","String",NULL); 

        /*!Get solution parameters: */
        ModelFetchData((void**)&model->yts,NULL,NULL,model_handle,"yts","Scalar",NULL);
        ModelFetchData((void**)&model->meanvel,NULL,NULL,model_handle,"meanvel","Scalar",NULL);
        ModelFetchData((void**)&model->epsvel,NULL,NULL,model_handle,"epsvel","Scalar",NULL);
        ModelFetchData((void**)&model->debug,NULL,NULL,model_handle,"debug","Integer",NULL);
        ModelFetchData((void**)&model->plot,NULL,NULL,model_handle,"plot","Integer",NULL);
        ModelFetchData((void**)&model->artificial_diffusivity,NULL,NULL,model_handle,"artificial_diffusivity","Integer",NULL);
        ModelFetchData((void**)&model->nsteps,NULL,NULL,model_handle,"nsteps","Integer",NULL);
        ModelFetchData((void**)&model->tolx,NULL,NULL,model_handle,"tolx","Scalar",NULL);
        ModelFetchData((void**)&model->mincontrolconstraint,NULL,NULL,model_handle,"mincontrolconstraint","Scalar",NULL);
        ModelFetchData((void**)&model->maxcontrolconstraint,NULL,NULL,model_handle,"maxcontrolconstraint","Scalar",NULL);
        ModelFetchData((void**)&model->eps_res,NULL,NULL,model_handle,"eps_res","Scalar",NULL);
        ModelFetchData((void**)&model->eps_rel,NULL,NULL,model_handle,"eps_rel","Scalar",NULL);
        ModelFetchData((void**)&model->eps_abs,NULL,NULL,model_handle,"eps_abs","Scalar",NULL);
        ModelFetchData((void**)&model->dt,NULL,NULL,model_handle,"dt","Scalar",NULL);
        ModelFetchData((void**)&model->ndt,NULL,NULL,model_handle,"ndt","Scalar",NULL);
        ModelFetchData((void**)&model->penalty_offset,NULL,NULL,model_handle,"penalty_offset","Scalar",NULL);
        ModelFetchData((void**)&model->penalty_melting,NULL,NULL,model_handle,"penalty_melting","Scalar",NULL);
        ModelFetchData((void**)&model->penalty_lock,NULL,NULL,model_handle,"penalty_lock","Integer",NULL);
        ModelFetchData((void**)&model->sparsity,NULL,NULL,model_handle,"sparsity","Scalar",NULL);
        ModelFetchData((void**)&model->connectivity,NULL,NULL,model_handle,"connectivity","Integer",NULL);
        ModelFetchData((void**)&model->lowmem,NULL,NULL,model_handle,"lowmem","Integer",NULL);
        ModelFetchData((void**)&model->solverstring,NULL,NULL,model_handle,"solverstring","String",NULL);
        ModelFetchData((void**)&model->viscosity_overshoot,NULL,NULL,model_handle,"viscosity_overshoot","Scalar",NULL);
        ModelFetchData((void**)&model->stokesreconditioning,NULL,NULL,model_handle,"stokesreconditioning","Scalar",NULL);
        ModelFetchData((void**)&model->waitonlock,NULL,NULL,model_handle,"waitonlock","Integer",NULL);

        /*!Get thermal parameters: */
        ModelFetchData((void**)&model->beta,NULL,NULL,model_handle,"beta","Scalar",NULL);
        ModelFetchData((void**)&model->meltingpoint,NULL,NULL,model_handle,"meltingpoint","Scalar",NULL);
        ModelFetchData((void**)&model->latentheat,NULL,NULL,model_handle,"latentheat","Scalar",NULL);
        ModelFetchData((void**)&model->heatcapacity,NULL,NULL,model_handle,"heatcapacity","Scalar",NULL);
        ModelFetchData((void**)&model->thermalconductivity,NULL,NULL,model_handle,"thermalconductivity","Scalar",NULL);
        ModelFetchData((void**)&model->min_thermal_constraints,NULL,NULL,model_handle,"min_thermal_constraints","Integer",NULL);
        ModelFetchData((void**)&model->mixed_layer_capacity,NULL,NULL,model_handle,"mixed_layer_capacity","Scalar",NULL);
        ModelFetchData((void**)&model->thermal_exchange_velocity,NULL,NULL,model_handle,"thermal_exchange_velocity","Scalar",NULL);

        /*qmu: */
        if(model->qmu_analysis){
                ModelFetchData((void**)&model->numberofvariables,NULL,NULL,model_handle,"numberofvariables","Integer",NULL);
                ModelFetchData((void**)&model->numberofresponses,NULL,NULL,model_handle,"numberofresponses","Integer",NULL);
                ModelFetchData((void**)&model->qmu_npart,NULL,NULL,model_handle,"npart","Integer",NULL);
        }

        /*Assign output pointers: */
        *pmodel=model;

        return 1;
}

/*!--------------------------------------------------
        ModelEcho
  --------------------------------------------------*/
void ModelEcho(Model* model,int which_part,int rank) {

        //which_part  determines what gets echoed, otherwise, we'll get too much output.
        //1-> penalties

        int i,j;

        if(which_part==1 && my_rank==rank && (strcmp(model->meshtype,"3d")==0)){
                printf("Model penalties: \n");
                printf("   number of penalties: %i\n",model->numpenalties);
                printf("   grids: \n");

                for(i=0;i<model->numpenalties;i++){
                        for(j=0;j<model->numlayers;j++){
                                printf("%i ",(int)*(model->penalties+model->numlayers*i+j));
                        }
                        printf("\n");
                }
        }
        
        return;
}