/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void shift_32_LC(scicos_block *block,int flag)
{
int mu = GetInPortRows(block,1);
int nu = GetInPortCols(block,1);
long *u = Getint32InPortPtrs(block,1);
long *y = Getint32OutPortPtrs(block,1);
int *ipar = GetIparPtrs(block);
unsigned long k = (unsigned long)pow(2,32-1);
int i = 0;
for (i=0;i<mu*nu;i++)
{
int j = 0;
long v=u[i];
for(j=0;j<ipar[0];j++)
{
y[i]=v&k;
if (y[i]==0) y[i]=v<<1;
else
{
y[i]=v<<1;
y[i]=(y[i])|(1);
}
v=y[i];
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void delay4_i32(scicos_block *block, int flag)
{
/* Copyright INRIA
Scicos block simulator
Ouputs nx*dt delayed input */
SCSINT32_COP *y = NULL, *u = NULL, *oz = NULL;
int nz = 0, mz = 0;
u = Getint32InPortPtrs(block, 1);
y = Getint32OutPortPtrs(block, 1);
oz = Getint32OzPtrs(block, 1);
nz = GetOzSize(block, 1, 2);
mz = GetOzSize(block, 1, 1);
if ((flag == 1) || (flag == 6) || (flag == 4))
{
y[0] = oz[0];
}
else if (flag == 2)
{
/* shift buffer */
int i = 0;
for (i = 0; i <= (mz * nz) - 2; i++)
{
oz[i] = oz[i + 1];
}
/* add new point to the buffer */
oz[(mz * nz) - 1] = u[0];
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void shift_32_RC(scicos_block *block, int flag)
{
int i = 0, j = 0;
int mu = GetInPortRows(block, 1);
int nu = GetInPortCols(block, 1);
SCSINT32_COP *u = Getint32InPortPtrs(block, 1);
SCSINT32_COP *y = Getint32OutPortPtrs(block, 1);
int *ipar = GetIparPtrs(block);
unsigned long k = (unsigned long)pow(2, 32 - 1);
for (i = 0; i < mu * nu; i++)
{
SCSINT32_COP v = u[i];
for (j = 0; j < -ipar[0]; j++)
{
y[i] = v & 1;
if (y[i] == 0)
{
y[i] = v >> 1;
y[i] = y[i] & (k - 1);
}
else
{
y[i] = v >> 1;
y[i] = (y[i]) | (k);
}
v = y[i];
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void shift_32_LA(scicos_block *block,int flag)
{
int i = 0;
int mu = GetInPortRows(block,1);
int nu = GetInPortCols(block,1);
long *u = Getint32InPortPtrs(block,1);
long *y = Getint32OutPortPtrs(block,1);
int *ipar = GetIparPtrs(block);
for (i=0;i<mu*nu;i++) y[i]=u[i]<<ipar[0];
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void summation_i32s(scicos_block *block,int flag)
{
if((flag==1)|(flag==6))
{
int j = 0,k = 0;
int nu = 0,mu = 0,nin = 0;
long *y = NULL;
int *ipar = NULL;
double v = 0.,l = 0.;
double *rpar = NULL;
long *u = NULL;
y = Getint32OutPortPtrs(block,1);
nu = GetInPortRows(block,1);
mu = GetInPortCols(block,1);
ipar = GetIparPtrs(block);
rpar = GetRparPtrs(block);
nin = GetNin(block);
l = pow(2,32)/2;
if (nin==1)
{
v=0;
u=Getint32InPortPtrs(block,1);
for (j=0;j<nu*mu;j++)
{
v=v+(double)u[j];
}
if (v>=l) v=l-1;
else if (v<-l) v=-l;
y[0]=(long)v;
}
else
{
for (j=0;j<nu*mu;j++)
{
v=0;
for (k=0;k<nin;k++)
{
u=Getint32InPortPtrs(block,k+1);
if(ipar[k]>0)
{
v=v+(double)u[j];
}
else
{
v=v-(double)u[j];}
}
if (v>=l) v=l-1;
else if (v<-l) v=-l;
y[j]=(long)v;
}
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void bit_set_32(scicos_block *block, int flag)
{
int n, m, i;
SCSINT32_COP *opar;
SCSINT32_COP *u, *y;
opar = Getint32OparPtrs(block, 1);
u = Getint32InPortPtrs(block, 1);
y = Getint32OutPortPtrs(block, 1);
n = GetInPortCols(block, 1);
m = GetInPortRows(block, 1);
for (i = 0; i < m * n; i++)
{
*(y + i) = ((*(u + i)) | (*opar));
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void bit_clear_32(scicos_block *block, int flag)
{
int n = 0, m = 0, i = 0;
SCSINT32_COP *opar = NULL;
SCSINT32_COP *u = NULL, *y = NULL;
opar = Getint32OparPtrs(block, 1);
u = Getint32InPortPtrs(block, 1);
y = Getint32OutPortPtrs(block, 1);
m = GetInPortRows(block, 1);
n = GetInPortCols(block, 1);
for (i = 0; i < m * n; i++)
{
*(y + i) = ((*(u + i)) & (*opar));
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void extract_bit_32_LH(scicos_block *block, int flag)
{
int i = 0, maxim = 0;
long *y = NULL, *u = NULL, ref = 0, n = 0;
y = Getint32OutPortPtrs(block, 1);
u = Getint32InPortPtrs(block, 1);
maxim = 32;
ref = 0;
for (i = 0; i < maxim / 2; i++)
{
n = (long)pow(2, (double)i);
ref = ref + n;
}
*y = (*u) & (ref);
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void extract_bit_32_UH0(scicos_block *block, int flag)
{
int i = 0, maxim = 0;
SCSINT32_COP *y = NULL, *u = NULL, ref = 0, n = 0;
y = Getint32OutPortPtrs(block, 1);
u = Getint32InPortPtrs(block, 1);
maxim = 32;
ref = 0;
for (i = 0; i < maxim / 2; i++)
{
n = (SCSINT32_COP)pow(2, maxim / 2 + i);
ref = ref + n;
}
*y = (*u) & (ref);
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void extract_bit_32_MSB0(scicos_block *block,int flag)
{
int i = 0,maxim = 0;
long *y = NULL,*u = NULL,ref = 0,n = 0;
int *ipar = NULL;
y=Getint32OutPortPtrs(block,1);
u=Getint32InPortPtrs(block,1);
ipar=GetIparPtrs(block);
maxim=32;
ref=0;
for(i=0;i<*ipar;i++)
{n=(long)pow(2,maxim-1-i);
ref=ref+n;}
*y=(*u)&(ref);
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void extract_bit_32_LSB(scicos_block *block, int flag)
{
int i = 0, maxim = 0;
long *y, *u, ref, n;
int *ipar;
y = Getint32OutPortPtrs(block, 1);
u = Getint32InPortPtrs(block, 1);
ipar = GetIparPtrs(block);
maxim = 32;
ref = 0;
for (i = 0; i < *ipar; i++)
{
n = (long)pow(2, (double)i);
ref = ref + n;
}
*y = (*u) & (ref);
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void gainblk_i32s(scicos_block *block,int flag)
{
if ((flag==1)|(flag==6)){
int i = 0,j = 0,l = 0,ji = 0,jl = 0,il = 0;
long *u = NULL,*y = NULL;
int mu = 0,ny = 0,my = 0,mo = 0,no = 0;
long *opar = NULL;
double k = 0.,D = 0.,C = 0.;
mo=GetOparSize(block,1,1);
no=GetOparSize(block,1,2);
mu=GetInPortRows(block,1);
my=GetOutPortRows(block,1);
ny=GetOutPortCols(block,1);
u=Getint32InPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
opar=Getint32OparPtrs(block,1);
k=pow(2,32)/2;
if (mo*no==1){
for (i=0;i<ny*mu;++i){
D=(double)(opar[0])*(double)(u[i]);
if (D>=k) D=k-1;
else if (D<-k) D=-k;
y[i]=(long)D;
}
}else{
for (l=0;l<ny;l++)
{for (j=0;j<my;j++)
{D=0;
jl=j+l*my;
for (i=0;i<mu;i++)
{ji=j+i*my;
il=i+l*mu;
C=(double)(opar[ji])*(double)(u[il]);
D=D + C;}
if (D>=k) D=k-1;
else if (D<-k) D=-k;
y[jl]=(long)D;
}
}
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void matmul_i32e(scicos_block *block, int flag)
{
if ((flag == 1) | (flag == 6))
{
int mu1 = GetInPortRows(block, 1);
int nu1 = GetInPortCols(block, 1);
int nu2 = GetInPortCols(block, 2);
SCSINT32_COP *u1 = Getint32InPortPtrs(block, 1);
SCSINT32_COP *u2 = Getint32InPortPtrs(block, 2);
SCSINT32_COP *y = Getint32OutPortPtrs(block, 1);
double k = pow(2, 32);
int l = 0;
for (l = 0; l < nu2; l++)
{
int j = 0;
for (j = 0; j < mu1; j++)
{
double D = 0.;
int i = 0;
int jl = j + l * mu1;
for (i = 0; i < nu1; i++)
{
int ji = j + i * mu1;
int il = i + l * nu1;
double C = (double)(u1[ji]) * (double)(u2[il]);
D = D + C;
}
if ((D > ((k / 2) - 1)) | (D < -((k / 2))))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y[jl] = (SCSINT32_COP)(D);
}
}
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void convert(scicos_block *block,int flag)
{
int m = 0,n = 0,i = 0;
int *ipar = NULL;
double v = 0.,w = 0.,k = 0.;
m=GetInPortRows(block,1);
n=GetInPortCols(block,1);
ipar=GetIparPtrs(block);
if ((flag==1)|(flag==6))
{
switch (*ipar){
case 1:{
void *u = NULL,*y = NULL;
int so;
so=GetSizeOfOut(block,1);
u=GetInPortPtrs(block,1);
y=GetOutPortPtrs(block,1);
memcpy(y,u,m*n*so);
break;
}
case 2:{
double *u = NULL;
long *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if (fabs(w)>k/2-1)
{if (w>=0) w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
else w=-(-(k/2)+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(long)w;}
break;}
case 3:{
double *u = NULL;
short *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if (fabs(w)>k/2-1)
{if (w>=0) w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
else w=-(-(k/2)+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(short)w;}
break;}
case 4:{
double *u = NULL;
char *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if (fabs(w)>k/2-1)
{if (w>=0) w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
else w=-(-(k/2)+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(char)w;}
break;}
case 5:{
double *u = NULL;
unsigned long *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned long)w;}
break;}
case 6:{
double *u = NULL;
unsigned short *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned short)w;}
break;}
case 7:{
double *u = NULL;
unsigned char *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned char)w;}
break;}
case 8:{
long *u = NULL;
double *y = NULL;
u=Getint32InPortPtrs(block,1);
y=GetRealOutPortPtrs(block,1);
for (i=0;i<m*n;i++) y[i]=(double) u[i];
break;}
case 9:{
long *u = NULL;
short *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if (fabs(w)>k/2-1)
{if (w>=0) w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
else w=-(-(k/2)+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(short)w;}
break;}
case 10:{
long *u = NULL;
char *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if (fabs(w)>k/2-1)
{if (w>=0) w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
else w=-(-(k/2)+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(char)w;}
break;}
case 11:{
long *u = NULL;
unsigned short *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned short)w;}
break;}
case 12:{
long *u = NULL;
unsigned char *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned char)w;}
break;}
case 13:{
short *u = NULL;
double *y = NULL;
u=Getint16InPortPtrs(block,1);
y=GetRealOutPortPtrs(block,1);
for (i=0;i<m*n;i++) y[i]=(double) u[i];
break;}
case 14:{
short *u = NULL;
long *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(long)u[i];}
break;}
case 15:{
short *u = NULL;
char *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if (fabs(w)>k/2-1)
{if (w>=0) w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
else w=-(-(k/2)+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(char)w;}
break;}
case 16:{
short *u = NULL;
unsigned long *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(unsigned long)u[i];}
break;}
case 17:{
short *u = NULL;
unsigned char *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned char)w;}
break;}
case 18:{
char *u = NULL;
double *y = NULL;
u=Getint8InPortPtrs(block,1);
y=GetRealOutPortPtrs(block,1);
for (i=0;i<m*n;i++) y[i]=(double) u[i];
break;}
case 19:{
char *u = NULL;
long *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(long)u[i];}
break;}
case 20:{
char *u = NULL;
short *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(short)u[i];}
break;}
case 21:{
char *u = NULL;
unsigned long *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(unsigned long)u[i];}
break;}
case 22:{
char *u = NULL;
unsigned short *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(unsigned short)u[i];}
break;}
case 23:{
unsigned long *u = NULL;
double *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=GetRealOutPortPtrs(block,1);
for (i=0;i<m*n;i++) y[i]=(double) u[i];
break;}
case 24:{
unsigned long *u = NULL;
short *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if ((w)>k/2-1)
{ w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(short)w;}
break;}
case 25:{
unsigned long *u = NULL;
char *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if ((w)>k/2-1)
{w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(char)w;}
break;}
case 26:{
unsigned long *u = NULL;
unsigned short *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned short)w;}
break;}
case 27:{
unsigned long *u = NULL;
unsigned char *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned char)w;}
break;}
case 28:{
unsigned short *u = NULL;
double *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=GetRealOutPortPtrs(block,1);
for (i=0;i<m*n;i++) y[i]=(double) u[i];
break;}
case 29:{
unsigned short *u = NULL;
long *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(long)u[i];}
break;}
case 30:{
unsigned short *u = NULL;
char *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
if (w>k/2-1)
{w=(-k/2+fabs(w-(double)((int)(w/(k/2)))*(k/2)));
}
y[i]=(char)w;}
break;}
case 31:{
unsigned short *u = NULL;
unsigned long *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(unsigned long)u[i];}
break;}
case 32:{
unsigned short *u = NULL;
unsigned char *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{v=(double)u[i];
w=v-(double)((int)(v/k))*k;
y[i]=(unsigned char)w;}
break;}
case 33:{
unsigned char *u = NULL;
double *y = NULL;
u=Getuint8InPortPtrs(block,1);
y=GetRealOutPortPtrs(block,1);
for (i=0;i<m*n;i++) y[i]=(double) u[i];
break;}
case 34:{
unsigned char *u = NULL;
long *y = NULL;
u=Getuint8InPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(long)u[i];}
break;}
case 35:{
unsigned char *u = NULL;
short *y = NULL;
u=Getuint8InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(short)u[i];}
break;}
case 36:{
unsigned char *u = NULL;
unsigned long *y = NULL;
u=Getuint8InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(unsigned long)u[i];}
break;}
case 37:{
unsigned char *u = NULL;
unsigned short *y = NULL;
u=Getuint8InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{y[i]=(unsigned short)u[i];}
break;}
case 38:{
double *u = NULL;
long *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{if (u[i]>k/2-1)
{y[i]=(long)(k/2-1);}
else if (u[i]<-(k/2))
{y[i]=-(long)(k/2);}
else {y[i]=(long)(u[i]);}
}
break;}
case 39:{
double *u = NULL;
short *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>k/2-1)
{y[i]=(short)(k/2-1);}
else if (u[i]<-(k/2))
{y[i]=-(short)(k/2);}
else {y[i]=(short)(u[i]);}
}
break;}
case 40:{
double *u = NULL;
char *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>k/2-1)
{y[i]=(char)(k/2-1);}
else if (u[i]<-(k/2))
{y[i]=-(char)(k/2);}
else {y[i]=(char)(u[i]);}
}
break;}
case 41:{
double *u = NULL;
unsigned long *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{if (u[i]>=k)
{y[i]=(unsigned long)(k-1);}
else if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned long)(u[i]);}
}
break;}
case 42:{
double *u = NULL;
unsigned short *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>=k)
{y[i]=(unsigned short)(k-1);}
else if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 43:{
double *u = NULL;
unsigned char *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>=k)
{y[i]=(unsigned char)(k-1);}
else if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 44:{
long *u = NULL;
short *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>(long)(k/2-1))
{y[i]=(short)(k/2-1);}
else if (u[i]<-(long)(k/2))
{y[i]=-(short)(k/2);}
else {y[i]=(short)(u[i]);}
}
break;}
case 45:{
long *u = NULL;
char *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(long)(k/2-1))
{y[i]=(char)(k/2-1);}
else if (u[i]<-(long)(k/2))
{y[i]=-(char)(k/2);}
else {y[i]=(char)(u[i]);}
}
break;}
case 46:{
long *u = NULL;
unsigned long *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned long)(u[i]);}
}
break;}
case 47:{
long *u = NULL;
unsigned short *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>=(long)(k))
{y[i]=(unsigned short)(k-1);}
else if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 48:{
long *u = NULL;
unsigned char *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>=(long)k)
{y[i]=(unsigned char)(k-1);}
else if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 49:{
short *u = NULL;
char *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(short)(k/2-1))
{y[i]=(char)(k/2-1);}
else if (u[i]<-(short)(k/2))
{y[i]=-(char)(k/2);}
else {y[i]=(char)(u[i]);}
}
break;}
case 50:{
short *u = NULL;
unsigned long *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0) y[i]=0;
else y[i]=(unsigned long)u[i];}
break;}
case 51:{
short *u = NULL;
unsigned short *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 52:{
short *u = NULL;
unsigned char *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>=(short)k)
{y[i]=(unsigned char)(k-1);}
else if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 53:{
char *u = NULL;
unsigned long *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0) y[i]=0;
else y[i]=(unsigned long)u[i];}
break;}
case 54:{
char *u = NULL;
unsigned short *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 55:{
char *u = NULL;
unsigned char *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{y[i]=0;}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 56:{
long *y = NULL;
unsigned long *u = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned long)(k/2-1))
{y[i]=(long)(k/2-1);}
else {y[i]=(long)(u[i]);}
}
break;}
case 57:{
unsigned long *u = NULL;
short *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned long)(k/2-1))
{y[i]=(short)(k/2-1);}
else {y[i]=(short)(u[i]);}
}
break;}
case 58:{
unsigned long *u = NULL;
char *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned long)(k/2-1))
{y[i]=(char)(k/2-1);}
else {y[i]=(char)(u[i]);}
}
break;}
case 59:{
unsigned long *u = NULL;
unsigned short *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned long)(k/2-1))
{y[i]=(unsigned short)(k/2-1);}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 60:{
unsigned long *u = NULL;
unsigned char *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned long)(k/2-1))
{y[i]=(unsigned char)(k/2-1);}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 61:{
unsigned short *u = NULL;
short *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned short)(k/2-1))
{y[i]=(short)(k/2-1);}
else {y[i]=(short)(u[i]);}
}
break;}
case 62:{
unsigned short *u = NULL;
char *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned short)(k/2-1))
{y[i]=(char)(k/2-1);}
else {y[i]=(char)(u[i]);}
}
break;}
case 63:{
unsigned short *u = NULL;
unsigned char *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned short)(k/2-1))
{y[i]=(unsigned char)k/2-1;}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 64:{
unsigned char *u = NULL;
char *y = NULL;
u=Getuint8InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(unsigned char)(k/2-1))
{y[i]=(char)(k/2-1);}
else {y[i]=(char)(u[i]);}
}
break;}
case 65:{
double *u = NULL;
long *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{if ((u[i]>k/2-1) | (u[i]<-(k/2)))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(long)(u[i]);}
}
break;}
case 66:{
double *u = NULL;
short *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if ((u[i]>k/2-1) | (u[i]<-(k/2)))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(short)(u[i]);}
}
break;}
case 67:{
double *u = NULL;
char *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if ((u[i]>k/2-1) | (u[i]<-(k/2)))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(char)(u[i]);}
}
break;}
case 68:{
double *u = NULL;
unsigned long *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{if ((u[i]>=k) | (u[i]<0))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned long)(u[i]);}
}
break;}
case 69:{
double *u = NULL;
unsigned short *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if ((u[i]>=k) | (u[i]<0))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 70:{
double *u = NULL;
unsigned char *y = NULL;
u=GetRealInPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if ((u[i]>=k) | (u[i]<0))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 71:{
long *u = NULL;
short *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if ((u[i]>k/2-1) | (u[i]<-(k/2)))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(short)(u[i]);}
}
break;}
case 72:{
long *u = NULL;
char *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if ((u[i]>k/2-1) | (u[i]<-(k/2)))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(char)(u[i]);}
}
break;}
case 73:{
long *u = NULL;
unsigned long *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned long)(u[i]);}
}
break;}
case 74:{
long *u = NULL;
unsigned short *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if ((u[i]>=k) | (u[i]<0))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 75:{
long *u = NULL;
unsigned char *y = NULL;
u=Getint32InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if ((u[i]>=k) | (u[i]<0))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 76:{
short *u = NULL;
char *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if ((u[i]>k/2-1) | (u[i]<-(k/2)))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(char)(u[i]);}
}
break;}
case 77:{
short *u = NULL;
unsigned long *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else y[i]=(unsigned long)u[i];}
break;}
case 78:{
short *u = NULL;
unsigned short *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 79:{
short *u = NULL;
unsigned char *y = NULL;
u=Getint16InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (((u[i]>=k) | (u[i]<0))& (flag==1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 80:{
char *u = NULL;
unsigned long *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint32OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else y[i]=(unsigned long)u[i];}
break;}
case 81:{
char *u = NULL;
unsigned short *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 82:{
char *u = NULL;
unsigned char *y = NULL;
u=Getint8InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
for (i=0;i<m*n;i++)
{if (u[i]<0)
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 83:{
long *y = NULL;
unsigned long *u = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint32OutPortPtrs(block,1);
k=pow(2,32);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(long)(u[i]);}
}
break;}
case 84:{
unsigned long *u = NULL;
short *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(short)(u[i]);}
}
break;}
case 85:{
unsigned long *u = NULL;
char *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(char)(u[i]);}
}
break;}
case 86:{
unsigned long *u = NULL;
unsigned short *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getuint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned short)(u[i]);}
}
break;}
case 87:{
unsigned long *u = NULL;
unsigned char *y = NULL;
u=Getuint32InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 88:{
unsigned short *u = NULL;
short *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getint16OutPortPtrs(block,1);
k=pow(2,16);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(short)(u[i]);}
}
break;}
case 89:{
unsigned short *u = NULL;
char *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(char)(u[i]);}
}
break;}
case 90:{
unsigned short *u = NULL;
unsigned char *y = NULL;
u=Getuint16InPortPtrs(block,1);
y=Getuint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(unsigned char)(u[i]);}
}
break;}
case 91:{
unsigned char *u = NULL;
char *y = NULL;
u=Getuint8InPortPtrs(block,1);
y=Getint8OutPortPtrs(block,1);
k=pow(2,8);
for (i=0;i<m*n;i++)
{if (u[i]>(k/2-1))
{if (flag==1)
{sciprint(_("overflow error"));
set_block_error(-4);
return;}}
else {y[i]=(char)(u[i]);}
}
break;}
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void matbyscal_e(scicos_block *block, int flag)
{
if (flag == 1)
{
int i = 0;
double v = 0.;
int ut = GetInType(block, 1);
int mu = GetOutPortRows(block, 1);
int nu = GetOutPortCols(block, 1);
double *rpar = GetRparPtrs(block);
switch (ut)
{
case SCSINT32_N :
{
long *u1 = Getint32InPortPtrs(block, 1);
long *u2 = Getint32InPortPtrs(block, 2);
long *y1 = Getint32OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[0];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (long)v;
}
}
break;
}
case SCSINT16_N :
{
short *u1 = Getint16InPortPtrs(block, 1);
short *u2 = Getint16InPortPtrs(block, 2);
short *y1 = Getint16OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[0];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (short)v;
}
}
break;
}
case SCSINT8_N :
{
char *u1 = Getint8InPortPtrs(block, 1);
char *u2 = Getint8InPortPtrs(block, 2);
char *y1 = Getint8OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[0];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (char)v;
}
}
break;
}
case SCSUINT32_N :
{
unsigned long *u1 = Getuint32InPortPtrs(block, 1);
unsigned long *u2 = Getuint32InPortPtrs(block, 2);
unsigned long *y1 = Getuint32OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[0];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (unsigned long)v;
}
}
break;
}
case SCSUINT16_N :
{
unsigned short *u1 = Getuint16InPortPtrs(block, 1);
unsigned short *u2 = Getuint16InPortPtrs(block, 2);
unsigned short *y1 = Getuint16OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[0];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (unsigned short)v;
}
}
break;
}
case SCSUINT8_N :
{
unsigned char *u1 = Getuint8InPortPtrs(block, 1);
unsigned char *u2 = Getuint8InPortPtrs(block, 2);
unsigned char *y1 = Getuint8OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[0];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (unsigned char)v;
}
}
break;
}
default :
{
set_block_error(-4);
return;
}
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void matmul2_m(scicos_block *block,int flag)
{
if (flag==1){
int i = 0;
int ut=GetInType(block,1);
int mu=GetOutPortRows(block,1);
int nu=GetOutPortCols(block,1);
switch (ut)
{
case SCSREAL_N :{
double *u1=GetRealInPortPtrs(block,1);
double *u2=GetRealInPortPtrs(block,2);
double *y1=GetRealOutPortPtrs(block,1);
matmul2(y1,u1,u2,mu,nu);
break;}
case SCSINT32_N :{
long *u1=Getint32InPortPtrs(block,1);
long *u2=Getint32InPortPtrs(block,2);
long *y1=Getint32OutPortPtrs(block,1);
matmul2(y1,u1,u2,mu,nu);
break;}
case SCSINT16_N :{
short *u1=Getint16InPortPtrs(block,1);
short *u2=Getint16InPortPtrs(block,2);
short *y1=Getint16OutPortPtrs(block,1);
matmul2(y1,u1,u2,mu,nu);
break;}
case SCSINT8_N :{
char *u1=Getint8InPortPtrs(block,1);
char *u2=Getint8InPortPtrs(block,2);
char *y1=Getint8OutPortPtrs(block,1);
matmul2(y1,u1,u2,mu,nu);
break;}
case SCSUINT32_N :{
unsigned long *u1=Getuint32InPortPtrs(block,1);
unsigned long *u2=Getuint32InPortPtrs(block,2);
unsigned long *y1=Getuint32OutPortPtrs(block,1);
matmul2(y1,u1,u2,mu,nu);
break;}
case SCSUINT16_N :{
unsigned short *u1=Getuint16InPortPtrs(block,1);
unsigned short *u2=Getuint16InPortPtrs(block,2);
unsigned short *y1=Getuint16OutPortPtrs(block,1);
matmul2(y1,u1,u2,mu,nu);
break;}
case SCSUINT8_N :{
unsigned char *u1=Getuint8InPortPtrs(block,1);
unsigned char *u2=Getuint8InPortPtrs(block,2);
unsigned char *y1=Getuint8OutPortPtrs(block,1);
matmul2(y1,u1,u2,mu,nu);
break;}
case SCSCOMPLEX_N :{
double *u1r=GetRealInPortPtrs(block,1);
double *u2r=GetRealInPortPtrs(block,2);
double *y1r=GetRealOutPortPtrs(block,1);
double *u1i=GetImagInPortPtrs(block,1);
double *u2i=GetImagInPortPtrs(block,2);
double *y1i=GetImagOutPortPtrs(block,1);
for (i=0;i<mu*nu;i++)
{y1r[i]=(u1r[i]*u2r[i])-(u1i[i]*u2i[i]);
y1i[i]=(u1r[i]*u2i[i])+(u1i[i]*u2r[i]);}
break;}
default :{
set_block_error(-4);
return;}
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void relational_op_i32(scicos_block *block, int flag)
{
int k = 0, i = 0;
int m = GetInPortRows(block, 1);
int n = GetInPortCols(block, 1);
long *u1 = Getint32InPortPtrs(block, 1);
long *u2 = Getint32InPortPtrs(block, 2);
long *y = Getint32OutPortPtrs(block, 1);
int *ipar = GetIparPtrs(block);
if (flag == 1)
{
if ((block->ng != 0) & (get_phase_simulation() == 2))
{
for (i = 0; i < m * n; i++)
{
*(y + i) = block->mode[i] - 1;
}
}
else
{
for (i = 0; i < m * n; i++)
{
y[i] = 0;
}
k = ipar[0];
switch (k)
{
case 0:
for (i = 0; i < m * n; i++)
{
if (u1[i] == u2[i])
{
y[i] = 1;
}
}
break;
case 1:
for (i = 0; i < m * n; i++)
{
if (u1[i] != u2[i])
{
y[i] = 1;
}
}
break;
case 2:
for (i = 0; i < m * n; i++)
{
if (u1[i] < u2[i])
{
y[i] = 1;
}
}
break;
case 3:
for (i = 0; i < m * n; i++)
{
if (u1[i] <= u2[i])
{
y[i] = 1;
}
}
break;
case 4:
for (i = 0; i < m * n; i++)
{
if (u1[i] > u2[i])
{
y[i] = 1;
}
}
break;
case 5:
for (i = 0; i < m * n; i++)
{
if (u1[i] >= u2[i])
{
y[i] = 1;
}
}
break;
}
}
}
else if (flag == 9)
{
for (i = 0; i < (m * n); i++)
{
block->g[i] = (double)(*(u1 + i) - * (u2 + i));
}
if (get_phase_simulation() == 1)
{
for (i = 0; i < m * n; i++)
{
block->mode[i] = (int)1;
}
k = ipar[0];
switch (k)
{
case 0:
for (i = 0; i < m * n; i++)
{
if (u1[i] == u2[i])
{
block->mode[i] = (int)2;
}
}
break;
case 1:
for (i = 0; i < m * n; i++)
{
if (u1[i] != u2[i])
{
block->mode[i] = (int)2;
}
}
break;
case 2:
for (i = 0; i < m * n; i++)
{
if (u1[i] < u2[i])
{
block->mode[i] = (int)2;
}
}
break;
case 3:
for (i = 0; i < m * n; i++)
{
if (u1[i] <= u2[i])
{
block->mode[i] = (int)2;
}
}
break;
case 4:
for (i = 0; i < m * n; i++)
{
if (u1[i] > u2[i])
{
block->mode[i] = (int)2;
}
}
break;
case 5:
for (i = 0; i < m * n; i++)
{
if (u1[i] >= u2[i])
{
block->mode[i] = (int)2;
}
}
break;
}
}
}
}
/*--------------------------------------------------------------------------*/
SCICOS_BLOCKS_IMPEXP void matmul2_e(scicos_block *block, int flag)
{
if (flag == 1)
{
int i = 0;
double v = 0.;
int ut = GetInType(block, 1);
int mu = GetOutPortRows(block, 1);
int nu = GetOutPortCols(block, 1);
double *rpar = GetRparPtrs(block);
switch (ut)
{
case SCSINT32_N :
{
SCSINT32_COP *u1 = Getint32InPortPtrs(block, 1);
SCSINT32_COP *u2 = Getint32InPortPtrs(block, 2);
SCSINT32_COP *y1 = Getint32OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[i];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (SCSUINT32_COP)v;
}
}
break;
}
case SCSINT16_N :
{
SCSINT16_COP *u1 = Getint16InPortPtrs(block, 1);
SCSINT16_COP *u2 = Getint16InPortPtrs(block, 2);
SCSINT16_COP *y1 = Getint16OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[i];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (SCSINT16_COP)v;
}
}
break;
}
case SCSINT8_N :
{
SCSINT8_COP *u1 = Getint8InPortPtrs(block, 1);
SCSINT8_COP *u2 = Getint8InPortPtrs(block, 2);
SCSINT8_COP *y1 = Getint8OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[i];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (SCSINT8_COP)v;
}
}
break;
}
case SCSUINT32_N :
{
SCSUINT32_COP *u1 = Getuint32InPortPtrs(block, 1);
SCSUINT32_COP *u2 = Getuint32InPortPtrs(block, 2);
SCSUINT32_COP *y1 = Getuint32OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[i];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (SCSUINT32_COP)v;
}
}
break;
}
case SCSUINT16_N :
{
SCSUINT16_COP *u1 = Getuint16InPortPtrs(block, 1);
SCSUINT16_COP *u2 = Getuint16InPortPtrs(block, 2);
SCSUINT16_COP *y1 = Getuint16OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[i];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (SCSUINT16_COP)v;
}
}
break;
}
case SCSUINT8_N :
{
SCSUINT8_COP *u1 = Getuint8InPortPtrs(block, 1);
SCSUINT8_COP *u2 = Getuint8InPortPtrs(block, 2);
SCSUINT8_COP *y1 = Getuint8OutPortPtrs(block, 1);
for (i = 0; i < mu * nu; i++)
{
v = (double)u1[i] * (double)u2[i];
if ((v < rpar[0]) | (v > rpar[1]))
{
sciprint(_("overflow error"));
set_block_error(-4);
return;
}
else
{
y1[i] = (SCSUINT8_COP)v;
}
}
break;
}
default :
{
set_block_error(-4);
return;
}
}
}
}
