mat_vpv
# include "scicos_block4.h"
# include "../machine.h"
#include <stdio.h>
#if WIN32
#define NULL 0
#endif
extern int C2F(dlacpy)();
extern int C2F(dgeev)();
extern int C2F(dlaset)();
extern int C2F(issymmetric)();
extern int C2F(dsyev)();
typedef struct
{ double *LA;
double *L0;
double *LVR;
double *LW;
double *LWR;
double *LWI;
double *dwork;
double *dwork1;
} mat_vps_struct ;
void mat_vpv(scicos_block *block,int flag)
{
double *u;
double *y1;
double *y2;
double *y3;
double *y4;
int nu;
int info;
int i,j,lwork,lwork1,ii,ij,ij1,ji;
int symmetric;
mat_vps_struct *ptr;
nu =GetInPortRows(block,1);
u=GetRealInPortPtrs(block,1);
y1=GetRealOutPortPtrs(block,1);
y2=GetImagOutPortPtrs(block,1);
y3=GetRealOutPortPtrs(block,2);
y4=GetImagOutPortPtrs(block,2);
lwork1=4*nu;
lwork=3*nu-1;
/*init : initialization*/
if (flag==4)
{if((*(block->work)=(mat_vps_struct*) scicos_malloc(sizeof(mat_vps_struct)))==NULL)
{set_block_error(-16);
return;}
ptr=*(block->work);
if((ptr->LA=(double*) scicos_malloc(sizeof(double)*(nu*nu)))==NULL)
{set_block_error(-16);
scicos_free(ptr);
return;}
if((ptr->L0=(double*) scicos_malloc(sizeof(double)))==NULL)
{set_block_error(-16);
scicos_free(ptr->LA);
scicos_free(ptr);
return;}
if((ptr->LVR=(double*) scicos_malloc(sizeof(double)*(nu*nu)))==NULL)
{set_block_error(-16);
scicos_free(ptr->L0);
scicos_free(ptr->LA);
scicos_free(ptr);
return;}
if((ptr->LW=(double*) scicos_malloc(sizeof(double)*(nu*nu)))==NULL)
{set_block_error(-16);
scicos_free(ptr->LVR);
scicos_free(ptr->L0);
scicos_free(ptr->LA);
scicos_free(ptr);
return;}
if((ptr->LWR=(double*) scicos_malloc(sizeof(double)*(nu*1)))==NULL)
{set_block_error(-16);
scicos_free(ptr->LW);
scicos_free(ptr->LVR);
scicos_free(ptr->L0);
scicos_free(ptr->LA);
scicos_free(ptr);
return;}
if((ptr->LWI=(double*) scicos_malloc(sizeof(double)*(nu*1)))==NULL)
{set_block_error(-16);
scicos_free(ptr->LWR);
scicos_free(ptr->LW);
scicos_free(ptr->LVR);
scicos_free(ptr->L0);
scicos_free(ptr->LA);
scicos_free(ptr);
return;}
if((ptr->dwork=(double*) scicos_malloc(sizeof(double)*lwork))==NULL)
{set_block_error(-16);
scicos_free(ptr->LWI);
scicos_free(ptr->LWR);
scicos_free(ptr->LW);
scicos_free(ptr->LVR);
scicos_free(ptr->L0);
scicos_free(ptr->LA);
scicos_free(ptr);
return;}
if((ptr->dwork1=(double*) scicos_malloc(sizeof(double)*lwork1))==NULL)
{set_block_error(-16);
scicos_free(ptr->dwork);
scicos_free(ptr->LWI);
scicos_free(ptr->LWR);
scicos_free(ptr->LW);
scicos_free(ptr->LVR);
scicos_free(ptr->L0);
scicos_free(ptr->LA);
scicos_free(ptr);
return;}
}
/* Terminaison */
else if (flag==5)
{ptr=*(block->work);
if(ptr->dwork1!=NULL){
scicos_free(ptr->LA);
scicos_free(ptr->L0);
scicos_free(ptr->LVR);
scicos_free(ptr->LW);
scicos_free(ptr->LWI);
scicos_free(ptr->LWR);
scicos_free(ptr->dwork);
scicos_free(ptr->dwork1);
scicos_free(ptr);
return;}
}
else
{
ptr=*(block->work);
C2F(dlacpy)("F",&nu,&nu,u,&nu,ptr->LA,&nu);
symmetric=1;
for (j=0;j<nu;j++)
{for (i=j;i<nu;i++)
{ij=i+j*nu;
ji=j+i*nu;
if (i!=j)
{if (*(ptr->LA+ij)==*(ptr->LA+ji)) symmetric*= 1;
else { symmetric*=0;break;}}}}
if (symmetric==1)
{C2F(dsyev)("V","U",&nu,ptr->LA,&nu,ptr->LW,ptr->dwork,&lwork,&info);
if (info!=0)
{if (flag!=6)
{set_block_error(-7);
return;
}}
for (i=0;i<nu;i++)
{ii=i+i*nu;
*(y1+ii)=*(ptr->LW+i);
}
C2F(dlacpy)("F",&nu,&nu,ptr->LA,&nu,y3,&nu);
}
else
{C2F(dgeev)("N","V",&nu,ptr->LA,&nu,ptr->LWR,ptr->LWI,ptr->dwork1,&nu,ptr->LVR,&nu,ptr->dwork1,&lwork1,&info);
if (info!=0)
{if (flag!=6)
{set_block_error(-7);
return;
}}
*(ptr->L0)=0;
C2F(dlaset)("F",&nu,&nu,ptr->L0,ptr->L0,y1,&nu);
C2F(dlaset)("F",&nu,&nu,ptr->L0,ptr->L0,y2,&nu);
for (i=0;i<nu;i++)
{ii=i+i*nu;
*(y1+ii)=*(ptr->LWR+i);
*(y2+ii)=*(ptr->LWI+i);
}
for (j=0;j<nu;j++)
{if (*(ptr->LWI+j)==0)
for (i=0;i<nu;i++)
{ij=i+(j)*nu;
*(y3+ij)=*(ptr->LVR +ij);
*(y4+ij)=0;}
else{
for (i=0;i<nu;i++)
{ij=i+(j)*nu;
ij1=i+(j+1)*nu;
*(y3+ij)=*(ptr->LVR +ij);
*(y4+ij)=*(ptr->LVR +ij1);
*(y3+ij1)=*(ptr->LVR +ij);
*(y4+ij1)=-(*(ptr->LVR +ij1));}
j++;}
}
}
}
}