source: issm/trunk/src/c/parallel/ProcessResults.cpp@ 694

/*!\file:  ProcessResults.cpp
 * \brief: go through results dataset, and for each result, process it for easier retrieval 
 * by the Matlab side. This usually means splitting the velocities from the g-size nodeset 
 * to the grid set (ug->vx,vy,vz), same for pressure (p_g->pressure), etc ... It also implies 
 * departitioning of the results.
 * This phase is necessary prior to outputting the results on disk.
 */ 

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

#undef __FUNCT__ 
#define __FUNCT__ "ProcessResults"

#include "../DataSet/DataSet.h"
#include "../objects/objects.h"
#include "../EnumDefinitions/EnumDefinitions.h"
#include "../shared/shared.h"

void ProcessResults(DataSet** presults,FemModel* fems,int analysis_type){

        int i,n;
        Result* result=NULL;
        Result* newresult=NULL;
        
        /*input: */
        DataSet* results=NULL;

        /*output: */
        DataSet* newresults=NULL;

        /*fem diagnostic models: */
        FemModel* fem_dh=NULL;
        FemModel* fem_dv=NULL;
        FemModel* fem_dhu=NULL;
        FemModel* fem_ds=NULL;
        FemModel* fem_sl=NULL;

        /*fem thermal models: */
        FemModel* fem_t=NULL;

        /*fem prognostic models: */
        FemModel* fem_p=NULL;

        /*some parameters*/
        int ishutter;
        int ismacayealpattyn;
        int isstokes;
        int dim;

        /*intermediary: */
        Vec     u_g=NULL;
        double* u_g_serial=NULL;
        double* vx=NULL;
        double* vy=NULL;
        double* vz=NULL;
        double* vel=NULL;
        Vec     p_g=NULL;
        double* p_g_serial=NULL;
        double* pressure=NULL;
        double* parameter=NULL;
        double* partition=NULL;
        double  yts;

        Vec     h_g=NULL;
        double* h_g_serial=NULL;
        double* thickness=NULL;

        Vec     t_g=NULL;
        double* t_g_serial=NULL;
        double* temperature=NULL;

        Vec     m_g=NULL;
        double* m_g_serial=NULL;
        double* melting=NULL;

        int numberofnodes;

        /*recover input results: */
        results=*presults;

        /*Initialize new results: */
        newresults=new DataSet(ResultsEnum());
                
        /*Recover femmodels first: */
        if(analysis_type==DiagnosticAnalysisEnum()){

                fem_dh=fems+0;
                fem_dv=fems+1;
                fem_ds=fems+2;
                fem_dhu=fems+3;
                fem_sl=fems+4;
        
                /*some flags needed: */
                fem_dh->parameters->FindParam((void*)&dim,"dim");
                fem_dhu->parameters->FindParam((void*)&ishutter,"ishutter");
                fem_ds->parameters->FindParam((void*)&isstokes,"isstokes");
                fem_dh->parameters->FindParam((void*)&ismacayealpattyn,"ismacayealpattyn");
        }

        if(analysis_type==PrognosticAnalysisEnum()){
                fem_p=fems+0;
        }

        if(analysis_type==ThermalAnalysisEnum()){
                fem_t=fems+0;
        }

        for(n=0;n<results->Size();n++){
        
                result=(Result*)results->GetObjectByOffset(n);
                
                if(strcmp(result->GetFieldName(),"u_g")==0){
                        /*Ok, are we dealing with velocities coming from MacAyeal, Pattyin, Hutter, on 2,3 dofs or
                         *Stokes on 4 dofs: */
                        result->GetField(&u_g);
                        VecToMPISerial(&u_g_serial,u_g);

                        //2d results -> 2 dofs per node
                        if (dim==2){
                                /*ok, 2 dofs, on number of nodes: */
                                if(ismacayealpattyn){
                                        fem_dh->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                        VecToMPISerial(&partition,fem_dh->partition);
                                        fem_dh->parameters->FindParam((void*)&yts,"yts");
                                }
                                else{
                                        fem_dhu->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                        VecToMPISerial(&partition,fem_dhu->partition);
                                        fem_dhu->parameters->FindParam((void*)&yts,"yts");
                                }
                                vx=(double*)xmalloc(numberofnodes*sizeof(double));
                                vy=(double*)xmalloc(numberofnodes*sizeof(double));
                                vz=(double*)xmalloc(numberofnodes*sizeof(double)); 
                                vel=(double*)xmalloc(numberofnodes*sizeof(double)); 

                                for(i=0;i<numberofnodes;i++){
                                        vx[i]=u_g_serial[2*(int)partition[i]+0]*yts;
                                        vy[i]=u_g_serial[2*(int)partition[i]+1]*yts;
                                        vz[i]=0;
                                        vel[i]=sqrt(pow(vx[i],2)+pow(vy[i],2)+pow(vz[i],2));
                                }
                        }

                        //3d results -> 3 or 4 (stokes) dofs per node
                        else{

                                if(!isstokes){
                                        /*ok, 3 dofs, on number of nodes: */
                                        if(ismacayealpattyn){
                                                fem_dh->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                                VecToMPISerial(&partition,fem_dh->partition);
                                                fem_dh->parameters->FindParam((void*)&yts,"yts");
                                        }
                                        else{
                                                fem_dhu->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                                VecToMPISerial(&partition,fem_dhu->partition);
                                                fem_dhu->parameters->FindParam((void*)&yts,"yts");
                                        }
                                        vx=(double*)xmalloc(numberofnodes*sizeof(double));
                                        vy=(double*)xmalloc(numberofnodes*sizeof(double));
                                        vz=(double*)xmalloc(numberofnodes*sizeof(double)); 
                                        vel=(double*)xmalloc(numberofnodes*sizeof(double)); 

                                        for(i=0;i<numberofnodes;i++){
                                                vx[i]=u_g_serial[3*(int)partition[i]+0]*yts;
                                                vy[i]=u_g_serial[3*(int)partition[i]+1]*yts;
                                                vz[i]=u_g_serial[3*(int)partition[i]+2]*yts;
                                                vel[i]=sqrt(pow(vx[i],2)+pow(vy[i],2)+pow(vz[i],2));
                                        }
                                }

                                else{
                                        /* 4 dofs on number of nodes. discard pressure: */
                                        fem_ds->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                        VecToMPISerial(&partition,fem_ds->partition);
                                        fem_ds->parameters->FindParam((void*)&yts,"yts");
                                        vx=(double*)xmalloc(numberofnodes*sizeof(double));
                                        vy=(double*)xmalloc(numberofnodes*sizeof(double));
                                        vz=(double*)xmalloc(numberofnodes*sizeof(double));
                                        vel=(double*)xmalloc(numberofnodes*sizeof(double));
                                        for(i=0;i<numberofnodes;i++){
                                                vx[i]=u_g_serial[4*(int)partition[i]+0]*yts;
                                                vy[i]=u_g_serial[4*(int)partition[i]+1]*yts;
                                                vz[i]=u_g_serial[4*(int)partition[i]+2]*yts;
                                                vel[i]=sqrt(pow(vx[i],2)+pow(vy[i],2)+pow(vz[i],2));
                                        }
                                }
                        }

                        /*Ok, add vx,vy and vz to newresults: */
                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"vx",vx,numberofnodes);
                        newresults->AddObject(newresult);

                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"vy",vy,numberofnodes);
                        newresults->AddObject(newresult);

                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"vz",vz,numberofnodes);
                        newresults->AddObject(newresult);

                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"vel",vel,numberofnodes);
                        newresults->AddObject(newresult);

                        /*do some cleanup: */
                        xfree((void**)&u_g_serial);
                        xfree((void**)&partition);
                }

                else if(strcmp(result->GetFieldName(),"p_g")==0){
                        /*easy, p_g is of size numberofnodes, on 1 dof, just repartition: */
                        result->GetField(&p_g);
                        VecToMPISerial(&p_g_serial,p_g);

                        if(!isstokes){
                                if(ismacayealpattyn){
                                        fem_dh->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                        VecToMPISerial(&partition,fem_dh->partition);
                                }
                                else{
                                        fem_dhu->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                        VecToMPISerial(&partition,fem_dhu->partition);
                                }
                        }
                        else{
                                fem_ds->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                                VecToMPISerial(&partition,fem_ds->partition);
                        }

                        pressure=(double*)xmalloc(numberofnodes*sizeof(double));

                        for(i=0;i<numberofnodes;i++){
                                pressure[i]=p_g_serial[(int)partition[i]];
                        }
                        
                        /*Ok, add pressure,vy and vz to newresults: */
                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"pressure",pressure,numberofnodes);
                        newresults->AddObject(newresult);

                        /*do some cleanup: */
                        xfree((void**)&p_g_serial);
                        xfree((void**)&partition);
                }

                else if(strcmp(result->GetFieldName(),"t_g")==0){
                        /*easy, t_g is of size numberofnodes, on 1 dof, just repartition: */
                        result->GetField(&t_g);
                        VecToMPISerial(&t_g_serial,t_g);
                        fem_t->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                        VecToMPISerial(&partition,fem_t->partition);

                        temperature=(double*)xmalloc(numberofnodes*sizeof(double));

                        for(i=0;i<numberofnodes;i++){
                                temperature[i]=t_g_serial[(int)partition[i]];
                        }

                        /*Ok, add pressure to newresults: */
                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"temperature",temperature,numberofnodes);
                        newresults->AddObject(newresult);

                        /*do some cleanup: */
                        xfree((void**)&t_g_serial);
                        xfree((void**)&partition);
                }

                else if(strcmp(result->GetFieldName(),"m_g")==0){
                        /*easy, m_g is of size numberofnodes, on 1 dof, just repartition: */
                        result->GetField(&m_g);
                        VecToMPISerial(&m_g_serial,m_g);
                        fem_t->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                        VecToMPISerial(&partition,fem_t->partition);

                        melting=(double*)xmalloc(numberofnodes*sizeof(double));

                        for(i=0;i<numberofnodes;i++){
                                melting[i]=m_g_serial[(int)partition[i]];
                        }

                        /*Ok, add pressure to newresults: */
                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"melting",melting,numberofnodes);
                        newresults->AddObject(newresult);

                        /*do some cleanup: */
                        xfree((void**)&m_g_serial);
                        xfree((void**)&partition);
                }

                else if(strcmp(result->GetFieldName(),"h_g")==0){
                        /*easy, h_g is of size numberofnodes, on 1 dof, just repartition: */
                        result->GetField(&h_g);
                        VecToMPISerial(&h_g_serial,h_g);
                        fem_p->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                        VecToMPISerial(&partition,fem_p->partition);

                        thickness=(double*)xmalloc(numberofnodes*sizeof(double));

                        for(i=0;i<numberofnodes;i++){
                                thickness[i]=h_g_serial[(int)partition[i]];
                        }
                        
                        /*Ok, add pressure to newresults: */
                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"thickness",thickness,numberofnodes);
                        newresults->AddObject(newresult);

                        /*do some cleanup: */
                        xfree((void**)&h_g_serial);
                        xfree((void**)&partition);
                }

                else if(strcmp(result->GetFieldName(),"param_g")==0){
                        /*easy, param_g is of size numberofnodes, on 1 dof, just repartition: */
                        result->GetField(&p_g);
                        VecToMPISerial(&p_g_serial,p_g);
                        fem_p->parameters->FindParam((void*)&numberofnodes,"numberofnodes");
                        VecToMPISerial(&partition,fem_p->partition);

                        parameter=(double*)xmalloc(numberofnodes*sizeof(double));

                        for(i=0;i<numberofnodes;i++){
                                parameter[i]=p_g_serial[(int)partition[i]];
                        }
                        
                        /*Ok, add parameter to newresults: */
                        newresult=new Result(newresults->Size()+1,result->GetTime(),result->GetStep(),"parameter",parameter,numberofnodes);
                        newresults->AddObject(newresult);

                        /*do some cleanup: */
                        xfree((void**)&p_g_serial);
                        xfree((void**)&partition);
                }

                else{
                        /*Just copy the result into the new results dataset: */
                        newresults->AddObject(result);
                }
        }

        /*Delete results: */
        delete results;


        /*Assign output pointers:*/
        *presults=newresults;
}