/*--------------------------------------------------------------------------*/ SCICOS_BLOCKS_IMPEXP void matmul_i8n(scicos_block *block,int flag) { if ((flag==1)|(flag==6)) { char *u1,*u2,*y; double C,D; int mu1,nu1,nu2,i,j,l,ji,jl,il; int *ipar; mu1=GetInPortRows(block,1); nu1=GetInPortCols(block,1); nu2=GetInPortCols(block,2); u1=Getint8InPortPtrs(block,1); u2=Getint8InPortPtrs(block,2); y=Getint8OutPortPtrs(block,1); ipar=GetIparPtrs(block); for (l=0;l<nu2;l++) {for(j=0;j<mu1;j++) {D=0; jl=j+l*mu1; for(i=0;i<nu1;i++) {ji=j+i*mu1; il=i+l*nu1; C=(double)(u1[ji])*(double)(u2[il]); D=D + C;} y[jl]=(char)D; } } } }
/*--------------------------------------------------------------------------*/ SCICOS_BLOCKS_IMPEXP void logic(scicos_block *block, int flag) { char *u = NULL, *y = NULL; char inp, num; int i = 0, nin = 0, nout = 0, mo = 0; char *opar = NULL; nin = GetNin(block); nout = GetNout(block); opar = Getint8OparPtrs(block, 1); mo = GetOparSize(block, 1, 1); if (flag == 1) { num = 0; for (i = 0; i < nin; i++) { u = Getint8InPortPtrs(block, i + 1); inp = *u; if (inp > 0) { inp = 1; } else { inp = 0; } inp = inp << i; num = num + inp; } for (i = 0; i < nout; i++) { y = Getint8OutPortPtrs(block, i + 1); *y = *(opar + num + i * mo); } } if (flag == 6) { u = Getint8InPortPtrs(block, 1); for (i = 0; i < nout; i++) { y = Getint8OutPortPtrs(block, i + 1); *y = *u; } } }
/*--------------------------------------------------------------------------*/ SCICOS_BLOCKS_IMPEXP void extract_bit_8_LSB(scicos_block *block,int flag) { int i = 0,maxim = 0; char *y = NULL,*u = NULL,ref = 0,n = 0; int *ipar = NULL; y=Getint8OutPortPtrs(block,1); u=Getint8InPortPtrs(block,1); ipar=GetIparPtrs(block); maxim=8; ref=0; for(i=0;i<*ipar;i++) {n=(char)pow(2,i); ref=ref+n;} *y=(*u)&(ref); }
/*--------------------------------------------------------------------------*/ 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 summation_i8s(scicos_block *block, int flag) { if ((flag == 1) | (flag == 6)) { int j = 0, k = 0; int nu = 0, mu = 0, nin = 0; char *y = NULL; int *ipar = NULL; double v = 0. , l = 0.; double *rpar = NULL; char *u = NULL; y = Getint8OutPortPtrs(block, 1); nu = GetInPortRows(block, 1); mu = GetInPortCols(block, 1); ipar = GetIparPtrs(block); rpar = GetRparPtrs(block); nin = GetNin(block); l = pow(2, 8) / 2; if (nin == 1) { v = 0; u = Getint8InPortPtrs(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] = (char)v; } else { for (j = 0; j < nu * mu; j++) { v = 0; for (k = 0; k < nin; k++) { u = Getint8InPortPtrs(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] = (char)v; } } } }
/*--------------------------------------------------------------------------*/ 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 logicalop_i8(scicos_block *block, int flag) { int i, m, n, nin, k, j, l; int *ipar; char *y, *u; m = GetInPortRows(block, 1); n = GetInPortCols(block, 1); y = Getint8OutPortPtrs(block, 1); ipar = GetIparPtrs(block); nin = GetNin(block); k = ipar[0]; switch (k) { case 0: if (nin == 1) { u = Getint8InPortPtrs(block, 1); if (ipar[1] == 0) { *y = 1; for (i = 0; i < m * n; i++) { if (u[i] <= 0) { *y = 0; break; } } } else { *y = u[0]; for (i = 1; i < m * n; i++) { *y = (*y) & (u[i]); } } } else { if (ipar[1] == 0) { for (i = 0; i < m * n; i++) { y[i] = 1; for (j = 1; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); if (u[i] <= 0) { y[i] = 0; break; } } } } else { for (i = 0; i < m * n; i++) { u = Getint8InPortPtrs(block, 1); y[i] = u[i]; for (j = 2; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); y[i] = (y[i]) & (u[i]); } } } } break; case 1: if (nin == 1) { u = Getint8InPortPtrs(block, 1); *y = 0; if (ipar[1] == 0) { for (i = 0; i < m * n; i++) { if (u[i] > 0) { *y = 1; break; } } } else { for (i = 0; i < m * n; i++) { *y = (*y) | (u[i]); } } } else { if (ipar[1] == 0) { for (i = 0; i < m * n; i++) { y[i] = 0; for (j = 1; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); if (u[i] > 0) { y[i] = 1; break; } } } } else { for (i = 0; i < m * n; i++) { y[i] = 0; for (j = 1; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); y[i] = (y[i]) | (u[i]); } } } } break; case 2: if (nin == 1) { u = Getint8InPortPtrs(block, 1); if (ipar[1] == 0) { *y = 0; for (i = 0; i < m * n; i++) { if (u[i] <= 0) { *y = 1; break; } } } else { *y = u[0]; for (i = 1; i < m * n; i++) { *y = ((*y) & (u[i])); } *y = ~*y; } } else { if (ipar[1] == 0) { for (i = 0; i < m * n; i++) { y[i] = 0; for (j = 1; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); if (u[i] <= 0) { y[i] = 1; break; } } } } else { for (i = 0; i < m * n; i++) { u = Getint8InPortPtrs(block, 1); y[i] = u[i]; for (j = 2; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); y[i] = ((y[i]) & (u[i])); } y[i] = ~y[i]; } } } break; case 3: if (nin == 1) { u = Getint8InPortPtrs(block, 1); if (ipar[1] == 0) { *y = 1; for (i = 0; i < m * n; i++) { if (u[i] > 0) { *y = 0; break; } } } else { *y = 0; for (i = 0; i < m * n; i++) { *y = ((*y) | (u[i])); } *y = ~*y; } } else { if (ipar[1] == 0) { for (i = 0; i < m * n; i++) { y[i] = 1; for (j = 1; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); if (u[i] > 0) { y[i] = 0; break; } } } } else { for (i = 0; i < m * n; i++) { u = Getint8InPortPtrs(block, 1); y[i] = u[i]; for (j = 2; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); y[i] = ((y[i]) | (u[i])); } y[i] = ~y[i]; } } } break; case 4: if (nin == 1) { u = Getint8InPortPtrs(block, 1); if (ipar[1] == 0) { l = 0; for (i = 0; i < m * n; i++) { if (u[i] > 0) { l = (l + 1) % 2; } } *y = (char)l; } else { *y = u[0]; for (i = 1; i < m * n; i++) { *y = ((*y) ^ (u[i])); } } } else { if (ipar[1] == 0) { for (i = 0; i < m * n; i++) { l = 0; for (j = 1; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); if (u[i] > 0) { l = (l + 1) % 2; } } y[i] = (char)l; } } else { for (i = 0; i < m * n; i++) { u = Getint8InPortPtrs(block, 1); y[i] = u[i]; for (j = 2; j < nin + 1; j++) { u = Getint8InPortPtrs(block, j); y[i] = ((y[i]) ^ (u[i])); } } } } break; case 5: u = Getint8InPortPtrs(block, 1); if (ipar[1] == 0) { for (i = 0; i < m * n; i++) { if (u[i] > 0) { y[i] = 0; } else { y[i] = 1; } } } else { for (i = 0; i < m * n; i++) { y[i] = ~(u[i]); } } break; } }
/*--------------------------------------------------------------------------*/ 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 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; } } } }
/*--------------------------------------------------------------------------*/ SCICOS_BLOCKS_IMPEXP void relational_op_i8(scicos_block *block,int flag) { int k = 0,i = 0; int m = GetInPortRows(block,1); int n = GetInPortCols(block,1); char *u1 = Getint8InPortPtrs(block,1); char *u2 = Getint8InPortPtrs(block,2); char *y = Getint8OutPortPtrs(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)=(char)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]=*(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 summation_i8e(scicos_block *block, int flag) { if ((flag == 1) | (flag == 6)) { int j = 0, k = 0; int nu = 0, mu = 0, nin = 0; char *y = NULL; int *ipar = NULL; double v = 0., l = 0.; char *u = NULL; y = Getint8OutPortPtrs(block, 1); nu = GetInPortRows(block, 1); mu = GetInPortCols(block, 1); ipar = GetIparPtrs(block); nin = GetNin(block); l = pow(2, 8) / 2; if (nin == 1) { v = 0; u = Getint8InPortPtrs(block, 1); for (j = 0; j < nu * mu; j++) { v = v + (double)u[j]; } if ((v >= l) | (v < -l)) { scicos_print(_("overflow error")); set_block_error(-4); return; } else { y[0] = (char)v; } } else { for (j = 0; j < nu * mu; j++) { v = 0; for (k = 0; k < nin; k++) { u = Getint8InPortPtrs(block, k + 1); if (ipar[k] > 0) { v = v + (double)u[j]; } else { v = v - (double)u[j]; } } if ((v >= l) | (v < -l)) { scicos_print(_("overflow error")); set_block_error(-4); return; } else { y[j] = (char)v; } } } } }
/*--------------------------------------------------------------------------*/ SCICOS_BLOCKS_IMPEXP void gainblk_i8e(scicos_block *block, int flag) { if ((flag == 1) | (flag == 6)) { int i = 0, j = 0, l = 0, ji = 0, jl = 0, il = 0; char *u = NULL, *y = NULL; int mu = 0, ny = 0, my = 0, mo = 0, no = 0; char *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 = Getint8InPortPtrs(block, 1); y = Getint8OutPortPtrs(block, 1); opar = Getint8OparPtrs(block, 1); k = pow(2, 8) / 2; if (mo*no == 1) { for (i = 0; i < ny * mu; ++i) { D = (double)(opar[0]) * (double)(u[i]); if ((D >= k) | ( D < -k)) { sciprint(_("overflow error")); set_block_error(-4); return; } else { y[i] = (char)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)) { sciprint(_("overflow error")); set_block_error(-4); return; } else { y[jl] = (char)D; } } } } } }