bool ProjectOptionsDlg::IsScriptValid(ProjectBuildTarget* target, const wxString& script)
{
static const wxString clearout_buildscripts = _T("SetBuildOptions <- null;");
try
{
wxString script_nomacro = script;
Manager::Get()->GetMacrosManager()->ReplaceMacros(script_nomacro, target);
script_nomacro = wxFileName(script_nomacro).IsAbsolute() ? script_nomacro : m_Project->GetBasePath() + wxFILE_SEP_PATH + script_nomacro;
Manager::Get()->GetScriptingManager()->LoadBuffer(clearout_buildscripts); // clear previous script's context
Manager::Get()->GetScriptingManager()->LoadScript(script_nomacro);
SqPlus::SquirrelFunction<void> setopts("SetBuildOptions");
if (setopts.func.IsNull())
return false;
return true;
}
catch (SquirrelError& e)
{
Manager::Get()->GetScriptingManager()->DisplayErrors(&e);
return false;
}
}
// ------------------ functions --------------------------------------------------------------------
// ------------------ main -------------------------------------------------------------------------
int nsmain(int argc, char *argv[])
{
config = new mon::lib::config::CConfig();
logger = new mon::lib::logger::CLogger();
logger->enableOutToConsole();
logger->enableOutToFile(false);
logger->enableOutToSyslog(false);
setopts(argc, argv);
config->load(configFile);
sensor = new mon::daemons::node::CSensor(sensorFile);
sensor->load();
MON_LOG_NFO("Sensor name: " << sensor->getName());
bool frameAvialable = true; //sensor->getFrameAvialable(frame.c_str());
MON_LOG_NFO("Sensor avialable? " << frameAvialable);
if(frameAvialable)
{
if(showDefinition)
{
MON_LOG_NFO("Sensor raw definition (" << sensor->getDefinitionLength() << " bytes)");
MON_LOG_NFO(sensor->getDefinition());
std::string first = parceAndGenerate(std::string(sensor->getDefinition()));
std::string second = parceAndGenerate(first);
//parceAndGenerate(parceAndGenerate(second));
MON_LOG_NFO("Definition parcer and generator work fine? " << (first.compare(second) == 0));
}
for (int a = 0; a < numberOfGetStatistics; a++)
{
//MON_LOG_NFO(sensor->getStatistics(frame.c_str()));
usleep(timeBetweenStatisticsCall);
}
}
delete sensor;
delete logger;
delete config;
return 0;
}
int main()
{ /* MIRACL rational calculator */
int i,j,k,p,q,c,hpos;
BOOL over,help;
screen();
#if MIRACL==16
mip=mirsys(10,0); /*** 16-bit computer ***/
#else
mip=mirsys(6,0); /*** 32-bit computer ***/
#endif
mip->ERCON=TRUE;
x=mirvar(0);
for (i=0;i<=top;i++) y[i]=mirvar(0);
m=mirvar(0);
t=mirvar(0);
radeg=mirvar(0);
loge2=mirvar(0);
loge10=mirvar(0);
eps=mirvar(0);
mip->pi=mirvar(0);
cinstr(mip->pi,cpi); /* read in constants */
fpmul(mip->pi,1,180,radeg);
cinstr(loge2,clg2);
cinstr(loge10,clg10);
cinstr(eps,ceps);
help=OFF;
show(TRUE);
p=6;
q=0;
flag=OFF;
newx=OFF;
over=FALSE;
setopts();
clrall();
drawit();
while (!over)
{ /* main loop */
if (mip->ERNUM)
{
aprint(ORDINARY,4+5*p,6+3*q,keys[q][p]);
p=5,q=0;
}
if (width==80 || !help)
{
aprint(INVER,4+5*p,6+3*q,keys[q][p]);
curser(1,24);
c=gethit();
aprint(ORDINARY,4+5*p,6+3*q,keys[q][p]);
}
else while ((c=gethit())!='H') ;
result=TRUE;
if ((k=arrow(c))!=0)
{ /* arrow key hit */
if (k==1 && q>0) q--;
if (k==2 && q<5) q++;
if (k==3 && p<6) p++;
if (k==4 && p>0) p--;
continue;
}
if (c=='H')
{ /* switch help on/off */
help=!help;
for (i=1;i<=24;i++)
{
if (width==80) hpos=41;
else hpos=1;
if (help) aprint(HELPCOL,hpos,i,htext[i-1]);
else lclr(hpos,i);
}
if (width==40 && !help) drawit();
continue;
}
if (c>='A' && c<='F')
{ /* hex only */
if (!next(c)) putchar(BELL);
else show(FALSE);
continue;
}
for (j=0;j<6;j++)
for (i=0;i<7;i++)
if (c==qkeys[j][i]) p=i,q=j,c=' ';
if (c==8 || c==127) p=6,q=1,c=' '; /* aliases */
if (c==',' || c=='a') p=5,q=5,c=' ';
if (c=='O' || c==ESC) p=6,q=0,c=' ';
if (c==13) p=6,q=5,c=' ';
if (c=='[' || c=='{') p=3,q=5,c=' ';
if (c==']' || c=='}') p=4,q=5,c=' ';
if (c=='d') p=5,q=2,c=' ';
if (c=='b') p=5,q=3,c=' ';
if (c=='^') p=3,q=2,c=' ';
if (c==' ') over=act(p,q);
else continue;
absol(x,t);
if (fcomp(t,eps)<0) zero(x);
if (result)
{ /* output result to display */
cotstr(x,mip->IOBUFF);
just((char *)mip->IOBUFF);
if (mip->ERNUM<0)
{ /* convert to radix and try again */
mip->ERNUM=0;
mip->RPOINT=ON;
cotstr(x,mip->IOBUFF);
putchar(BELL);
just((char *)mip->IOBUFF);
}
clr();
}
if (newx)
{ /* update display */
getstat();
show(FALSE);
}
}
curser(1,24);
restore();
return 0;
}
static BOOL act(int p,int q)
{ /* act on selected key */
int k,n,c;
aprint(PRESSED,4+5*p,6+3*q,keys[q][p]);
switch(p+7*q)
{
case 0: if (degrees) fmul(x,radeg,x);
if (hyp) fsinh(x,x);
else fsin(x,x);
newx=TRUE;
break;
case 1: if (degrees) fmul(x,radeg,x);
if (hyp) fcosh(x,x);
else fcos(x,x);
newx=TRUE;
break;
case 2: if (degrees) fmul(x,radeg,x);
if (hyp) ftanh(x,x);
else ftan(x,x);
newx=TRUE;
break;
case 3: if (lgbase>0)
{
n=size(x);
if (abs(n)<MR_TOOBIG)
{
convert(lgbase,x);
if (n<0) frecip(x,x);
fpower(x,abs(n),x);
newx=TRUE;
break;
}
if (lgbase==2) fmul(x,loge2,x);
if (lgbase==10) fmul(x,loge10,x);
}
fexp(x,x);
newx=TRUE;
break;
case 4: mip->RPOINT=!mip->RPOINT;
newx=TRUE;
break;
case 5: clrall();
newx=TRUE;
break;
case 6: return TRUE;
case 7: if (hyp) fasinh(x,x);
else fasin(x,x);
if (degrees) fdiv(x,radeg,x);
newx=TRUE;
break;
case 8: if (hyp) facosh(x,x);
else facos(x,x);
if (degrees) fdiv(x,radeg,x);
newx=TRUE;
break;
case 9: if (hyp) fatanh(x,x);
else fatan(x,x);
if (degrees) fdiv(x,radeg,x);
newx=TRUE;
break;
case 10: flog(x,x);
if (lgbase==2) fdiv(x,loge2,x);
if (lgbase==10) fdiv(x,loge10,x);
newx=TRUE;
break;
case 11: newx=TRUE;
k=3;
forever
{
aprint(INVER,2+stptr[k],2,settings[k][option[k]]);
curser(2+stptr[k],2);
c=arrow(gethit());
if (c==1)
{
if (option[k]==nops[k]) option[k]=0;
else option[k]+=1;
continue;
}
aprint(STATCOL,2+stptr[k],2,settings[k][option[k]]);
if (c==0 || c==2) break;
if (c==4 && k>0) k--;
if (c==3 && k<3) k++;
}
setopts();
break;
case 12: chekit(7);
break;
case 13: result=FALSE;
if (ipt==0) break;
ipt--;
mybuff[ipt]='\0';
if (ipt==0) clr();
just(mybuff);
cinstr(x,mybuff);
newx=TRUE;
break;
case 14: if (!next('7')) putchar(BELL);
break;
case 15: if (!next('8')) putchar(BELL);
break;
case 16: if (!next('9')) putchar(BELL);
break;
case 17: chekit(6);
break;
case 18: chekit(5);
break;
case 19: chekit(4);
break;
case 20: copy(m,x);
newx=TRUE;
break;
case 21: if (!next('4')) putchar(BELL);
break;
case 22: if (!next('5')) putchar(BELL);
break;
case 23: if (!next('6')) putchar(BELL);
break;
case 24: fmul(x,x,x);
newx=TRUE;
break;
case 25: froot(x,2,x);
newx=TRUE;
break;
case 26: chekit(3);
break;
case 27: brkt=0;
chekit(0);
flag=OFF;
fadd(m,x,m);
newx=TRUE;
break;
case 28: if (!next('1')) putchar(BELL);
break;
case 29: if (!next('2')) putchar(BELL);
break;
case 30: if (!next('3')) putchar(BELL);
break;
case 31: frecip(x,x);
newx=TRUE;
break;
case 32: fpi(x);
newx=TRUE;
break;
case 33: chekit(2);
break;
case 34: negify(x,x);
newx=TRUE;
break;
case 35: if (!next('0')) putchar(BELL);
break;
case 36: if (!next('/')) putchar(BELL);
break;
case 37: if (!next('.')) putchar(BELL);
break;
case 38: if (ipt>0)
{
putchar(BELL);
result=FALSE;
}
else
{
zero(x);
brkt+=1;
newx=TRUE;
}
break;
case 39: if (brkt>0)
{
chekit(0);
brkt-=1;
}
else
{
putchar(BELL);
result=FALSE;
}
break;
case 40: chekit(1);
break;
case 41: brkt=0;
equals(0);
flag=OFF;
break;
}
return FALSE;
}
int main(int argc,char *argv[])
{
#define NOT_REPLACE -999999.0
struct imh imhin={""}, imhout={""};
struct icom icomin={0}, icomout={0};
char fnamin[BUFSIZ]="", fnamout[BUFSIZ]="";
char temp[BUFSIZ];
FILE *fp=NULL, *fp2=NULL;
float *dp, *dpout;
float *dpybin,*dpxbin;
int *ndp;
int ix,iy;
int pixignr=INT_MIN;
float rplc_ignor=NOT_REPLACE;
int maxadd=-1;
float bzero=0.,bscale=1.;
/* int pixoff; */
int u2off;
int iouty, ioutx, i, NBINX=1, NBINY=1, NBIN=1;
int ymin=0, ymax=INT_MAX;
int xmin=0, xmax=INT_MAX;
char dtype[80]="\0";
int fitsdtype;
float fitsmax;
char modename[20]="";
int pixoff;
int n0;
int nline=-1;
int xshift=0,yshift=0;
float vxref=FLT_MAX,vyref=FLT_MAX;
MOSMODE mosmode=NODIST_NOADD;
/*
int dist_clip=0,dist_flux=0,dist_peak=0,dist_add=0,
dist_med=0, nodist_noadd=0, const_add=0;
*/
int addorghead=0;
float vxoff,vyoff;
int nfrm;
float sigmaf=0.16,nsigma=3.0;
int meanmin=0,clipmin=3;
getargopt opts[30];
char *files[3]={NULL};
int n=0;
int helpflag;
/*
* ... Open Input
*/
files[0]=fnamin;
files[1]=fnamout;
setopts(&opts[n++],"-maxadd=", OPTTYP_INT , &maxadd,"(mos)max number of coadd");
setopts(&opts[n++],"-nline=", OPTTYP_INT , &nline,"(mos)y-width of buffering");
setopts(&opts[n++],"-nodist_noadd", OPTTYP_FLAG , &mosmode,"(mos)quick mode (default)",NODIST_NOADD);
setopts(&opts[n++],"-dist_add", OPTTYP_FLAG , &mosmode,"(mos)bilinear weighted mean",DIST_ADD);
setopts(&opts[n++],"-dist_med", OPTTYP_FLAG , &mosmode,"(mos)bilinear weighted median",DIST_MED);
setopts(&opts[n++],"-const_add", OPTTYP_FLAG , &mosmode,"(mos)mean of at least maxadd images or blank",CONST_ADD);
setopts(&opts[n++],"-dist_clip", OPTTYP_FLAG , &mosmode,"(mos)clip mean mode(tesing)",DIST_CLIP_ADD);
setopts(&opts[n++],"-dist_flux", OPTTYP_FLAG , &mosmode,"(mos)flux map mode(testing)",DIST_FLUX);
setopts(&opts[n++],"-dist_peak", OPTTYP_FLAG , &mosmode,"(mos)outlyer mode(testing)",DIST_PEAK);
setopts(&opts[n++],"-vxref=", OPTTYP_FLOAT , &vxref,"(mos) reference pixel x(default: not used (automatic))");
setopts(&opts[n++],"-vyref=", OPTTYP_FLOAT , &vyref,"(mos) reference pixel y(default: not used(automacic))");
setopts(&opts[n++],"-addorghead", OPTTYP_FLAG , &addorghead,"(mos) Add original header of reference (default:no)",1);
setopts(&opts[n++],"-sigmaf=", OPTTYP_FLOAT , &sigmaf,"(mos/clip)sigma estimate fraction (default:0.160)");
setopts(&opts[n++],"-nsigma=", OPTTYP_FLOAT , &nsigma,"(mos/clip)clipping sigma factor(default:3.0)");
setopts(&opts[n++],"-clipmin=", OPTTYP_INT , &clipmin,"(mos/clip)minimum # of images for clipping (default:3)");
setopts(&opts[n++],"-meanmin=", OPTTYP_INT , &meanmin,"(mos/clip)minimum # of images for taking clipped mean(default:not set)");
setopts(&opts[n++],"-ymin=", OPTTYP_INT , &ymin,"ymin (default:0)");
setopts(&opts[n++],"-ymax=", OPTTYP_INT , &ymax,"ymax (default:npy-1)");
setopts(&opts[n++],"-xmin=", OPTTYP_INT , &xmin,"xmin (default:0)");
setopts(&opts[n++],"-xmax=", OPTTYP_INT , &xmax,"xmax (default:npx-1");
setopts(&opts[n++],"-bin=", OPTTYP_INT , &NBIN,"binning size(default:1)");
setopts(&opts[n++],"-binx=", OPTTYP_INT , &NBINX,"binning size(default:1)");
setopts(&opts[n++],"-biny=", OPTTYP_INT , &NBINY,"binning size(default:1)");
setopts(&opts[n++],"-bzero=", OPTTYP_FLOAT , &bzero,
"bzero");
setopts(&opts[n++],"-bscale=", OPTTYP_FLOAT , &bscale,
"bscale");
setopts(&opts[n++],"-dtype=", OPTTYP_STRING , dtype,
"datatyp(FITSFLOAT,FITSSHORT...)");
setopts(&opts[n++],"-pixignr=", OPTTYP_FLOAT , &rplc_ignor,
"pixignr value");
setopts(&opts[n++],"-ignor=", OPTTYP_FLOAT , &rplc_ignor,
"pixignr value");
setopts(&opts[n++],"",0,NULL,NULL);
helpflag=parsearg(argc,argv,opts,files,NULL);
if(fnamout[0]=='\0')
{
fprintf(stderr,"Error: No input file specified!!\n");
helpflag=1;
}
if(helpflag==1)
{
print_help("Usage: imcio2 <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
switch(mosmode)
{
case DIST_CLIP_ADD:
sprintf(modename,"dist_clip");
imc_mos_set_clip_param(nsigma,sigmaf,clipmin,meanmin);
break;
case CONST_ADD:
if (maxadd<=0) maxadd=1;
sprintf(modename,"const_add %d",maxadd);
break;
case DIST_FLUX:
sprintf(modename,"dist_flux");
break;
case DIST_PEAK:
sprintf(modename,"dist_peak");
break;
case DIST_ADD:
sprintf(modename,"dist_add");
break;
case DIST_MED:
sprintf(modename,"dist_med");
break;
case NODIST_NOADD:
sprintf(modename,"dist_noadd");
break;
default:
mosmode=NODIST_NOADD;
sprintf(modename,"nodist_noadd");
break;
}
imc_mos_set_default_add( mosmode );
if (maxadd>0)
{
imc_mos_set_default_maxadd( maxadd );
printf(" Max # of frames is %d\n", maxadd);
}
if(nline<0)
nline=200;
imc_mos_set_nline(nline);
imc_mos_set_nline_l(nline);
if( fnamin[0]=='\0' )
{
(void) printf("\n input IRAF/FITS/MOS file name = " );
(void) fgets( temp,BUFSIZ,stdin );
sscanf(temp,"%s",fnamin);
}
else
(void)printf("\n Input = %s\n",fnamin );
if( (fp = imropen ( fnamin, &imhin, &icomin )) == NULL )
{
exit(-1);
}
/* testing */
if (imhin.dtype==DTYPEMOS)
{
if (vxref!=FLT_MAX && vyref!=FLT_MAX)
{
printf("vxref:%f vyref:%f\n",vxref,vyref);
imc_mos_set_shift(&imhin, -vxref, -vyref);
}
}
u2off=imget_u2off( &imhin );
(void) printf("Offset = %d\n",u2off);
pixignr=imget_pixignr( &imhin );
(void) printf("Pixignr= %d\n",pixignr);
if(xmin<0) xshift=-xmin;
if(ymin<0) yshift=-ymin;
if( ymax == INT_MAX )
{
/* ymax is not given */
ymax = imhin.npy;
}
else
ymax++;
if( xmax == INT_MAX )
{
/* ymax is not given */
xmax = imhin.npx;
}
else
xmax++;
printf("Output Y range: %d to %d in original frame\n",ymin,(ymax-1));
printf("Output X range: %d to %d in original frame\n",xmin,(xmax-1));
if( ymin > (ymax-1) )
{
printf("Error: Ymin > Ymax\n");
imclose( fp,&imhin,&icomin );
exit(-1);
}
if( xmin > (xmax-1) )
{
printf("Error: Xmin > Xmax\n");
imclose( fp,&imhin,&icomin );
exit(-1);
}
/* 2003/12/23 */
/* check */
if (imhin.dtype==DTYPEMOS)
{
if (0!=imc_mos_check_fill_buffer(&imhin,xmin,xmax,
ymin,ymax,nline))
{
printf("Error: nline is not appropriate\n");
exit(-1);
}
}
/*
* ... Open output
*/
if(fnamout[0]=='\0' )
{
(void) printf(" output IRAF/FITS file name = " );
(void) fgets( temp,BUFSIZ,stdin );
sscanf(temp,"%s",fnamout);
}
else
(void)printf( " Output= %s\n\n", fnamout );
imh_inherit(&imhin,&icomin,&imhout,&icomout,fnamout);
if (NBIN!=1)
{
NBINX=NBIN;
NBINY=NBIN;
}
NBIN=NBINX*NBINY;
imhout.npx = (xmax - xmin)/ NBINX;
imhout.npy = (ymax - ymin)/ NBINY;
imhout.ndatx = imhout.npx;
imhout.ndaty = imhout.npy;
if (imhout.dtype==DTYPFITS)
{
if(dtype[0]!='\0')
{
if (strstr(dtype,"SHORT"))
{
fitsdtype=FITSSHORT;
fitsmax=(float)SHRT_MAX-1.; /* defined in <limits.h> */
}
else if (strstr(dtype,"INT"))
{
fitsdtype=FITSINT;
fitsmax=(float)INT_MAX-1.; /* defined in <limits.h> */
}
else if (strstr(dtype,"CHAR"))
{
fitsdtype=FITSCHAR;
fitsmax=(float)CHAR_MAX-1.; /* defined in <limits.h> */
}
else if (strstr(dtype,"FLOAT"))
{
fitsdtype=FITSFLOAT;
}
else
{
fitsdtype=FITSSHORT;
fitsmax=SHRT_MAX-2.; /* defined in <limits.h> */
}
}
else
{
(void)imc_fits_get_dtype( &imhout, &fitsdtype, NULL, NULL, NULL);
}
(void)imc_fits_set_dtype( &imhout, fitsdtype, bzero, bscale );
}
else
{
if (strstr(dtype,"I2"))
{
imhout.dtype=DTYPI2;
}
else if (strstr(dtype,"INT"))
{
imhout.dtype=DTYPINT;
}
else if (strstr(dtype,"I4"))
{
imhout.dtype=DTYPI4;
}
else if (strstr(dtype,"R4"))
{
imhout.dtype=DTYPR4;
}
else if (strstr(dtype,"R8"))
{
imhout.dtype=DTYPR8;
}
else
{
imhout.dtype=DTYPU2;
}
imset_u2off(&imhout,&icomout,u2off);
}
/* Make comments */
imaddhistf(&icomout,"made by imcio2 from %-48.48s",fnamin);
if(imhout.npx != imhin.npx || imhout.npy != imhin.npy || NBIN>1)
{
imaddhistf(&icomout,
" x[%d:%d] y[%d:%d] %dx%d bining",
xmin,xmax,ymin,ymax,NBINX,NBINY);
}
(void)imc_fits_get_dtype( &imhout, NULL, NULL, NULL, &pixoff);
if(rplc_ignor!=NOT_REPLACE)
{
imset_pixignr(&imhout, &icomout, (int)rplc_ignor);
}
else
{
imset_pixignr(&imhout, &icomout, (int)pixignr);
rplc_ignor=pixignr;
}
/* 2002/05/07 WCS change is added */
imc_shift_WCS(&icomout, (float)xmin, (float)ymin);
if (NBIN>1)
{
/*
imc_scale_WCS(&icomout, 1.0/((float)NBIN));
*/
imc_scale_WCS2(&icomout, 1.0/((float)NBINX),1.0/((float)NBINY));
}
/** 2004/03/03 *.mos */
if (imhin.dtype==DTYPEMOS)
{
imc_mos_get_params(&imhin,&vxoff,&vyoff,
NULL,NULL,NULL,NULL,
NULL,&nfrm,NULL);
imaddhistf(&icomout,"shift by %f %f from original mos",
vxoff,vyoff);
imaddhistf(&icomout,"%d frames are used, %s",
nfrm, modename);
if (addorghead==1)
imc_mos_merge_org_header(&icomout,&imhin);
}
if( (fp2 = imwopen( fnamout, &imhout, &icomout )) == NULL )
{
imclose( fp,&imhin,&icomin );
exit(-1);
}
/*
* ... Copy line to line
*/
dp=(float*)malloc(sizeof(float)*imhin.npx);
if(dp==NULL)
{
printf("Image too large. Cannot allocale memory for dp.\n");
imclose( fp,&imhin,&icomin );
imclose( fp2,&imhout,&icomout );
exit(-1);
}
/* Bin */
if( NBIN > 1 )
{
/* 1999/02/19 changed */
printf("\nBinning by %d x %d ...\n", NBINX, NBINY );
dpybin=(float*)malloc(sizeof(float)*imhin.npx);
dpxbin=(float*)malloc(sizeof(float)*imhout.npx);
ndp=(int*)malloc(sizeof(int)*imhin.npx);
if(dpybin==NULL||dpxbin==NULL||ndp==NULL)
{
printf("Image too large. Cannot allocale memory for ndp.\n");
imclose( fp,&imhin,&icomin );
imclose( fp2,&imhout,&icomout );
exit(-1);
}
for( iy=ymin, iouty=0; iouty<imhout.npy; iouty++ )
{
/* clear y buffer */
memset(ndp,0,imhin.npx*sizeof(int));
memset(dpybin,0,imhin.npx*sizeof(float));
/* bin in y */
for(i=0; i<NBINY && iy<ymax; i++ )
{
/* Read a line */
if(iy>=0)
{
(void) imrl_tor( &imhin, fp, dp, iy );
for( ix=xmin; ix<xmax; ix++)
{
if((ix>=0) && (dp[ix]!=(float)pixignr))
{
dpybin[ix+xshift] += dp[ix];
ndp[ix+xshift]++;
}
}
}
iy++;
}
/* clear x buffer */
memset(dpxbin,0,imhout.npx*sizeof(float));
/* bin in x */
for(ix=xmin, ioutx=0 ; ioutx<imhout.npx; ioutx++ )
{
n0=0;
for(i=0; i<NBINX && ix<xmax; i++)
{
dpxbin[ioutx] += dpybin[ix+xshift];
n0+=ndp[ix+xshift];
ix++;
}
/*
printf("%d %d %f %d\n",ioutx,iouty,dpxbin[ioutx],n0);
*/
if(n0!=0)
{
dpxbin[ioutx]/=(float)n0;
}
else
{
if(rplc_ignor != NOT_REPLACE)
dpxbin[ioutx]=rplc_ignor;
else
dpxbin[ioutx]=(float)pixignr;
}
}
/* output a line */
(void) imwl_rto( &imhout, fp2, dpxbin, iouty );
}
free(dpxbin);
free(dpybin);
free(ndp);
}
else
{
/* No binning */
dpout=(float*)malloc(sizeof(float)*imhout.npx);
if(dpout==NULL)
{
printf("Image too large. Cannot allocale memory for ndp.\n");
imclose( fp,&imhin,&icomin );
imclose( fp2,&imhout,&icomout );
exit(-1);
}
/* Sep 28 temp; -> Feb5 */
{
/**/
for( iy=ymin; iy<ymax; iy++ )
{
if(iy>=0 && iy<imhin.npy)
{
imrl_tor( &imhin, fp, dp, iy );
for( ix=xmin; ix<xmax; ix++ )
{
if(ix<0||ix>=imhin.npx|| dp[ix] == (float)pixignr)
dpout[ix-xmin]=rplc_ignor;
else
dpout[ix-xmin]=dp[ix];
/*
printf("%d %d\n",ix,ix-xmin);
*/
}
}
else
for( ix=xmin; ix<xmax; ix++ )
dpout[ix-xmin]=rplc_ignor;
(void) imwl_rto( &imhout, fp2, dpout, (iy-ymin));
}
}
free(dpout);
}
free(dp);
printf(" Image Size is %d x %d\n\n", imhout.npx, imhout.npy );
if (fp!=NULL) {imclose( fp,&imhin,&icomin );}
if (fp2!=NULL) {imclose( fp2,&imhout,&icomout );}
return 0;
}
int main(int argc, char **argv)
{
float *f,*g;
int npx=2046,npy=4090;
float pixignr=0;
double xcen=5000,ycen=4192;
double xpos=-FLT_MAX,ypos=-FLT_MAX;
double a[N+1]={0,A1,A2,A3,A4,A5,A6,A7};
int npx2,npy2,xshift,yshift;
int i;
char fnamin[255]="";
char fnamout[255]="";
char dtype[255];
int ignor=INT_MIN;
float bzero=0.0,bscale=1.0;
FILE *fpin,*fpout;
struct imh imhin={""}, imhout={""};
struct icom icomin={0}, icomout={0};
int quickmode=0; /* default slow */
int keepSB=1; /* default keep SB, not flux */
/* for WCS */
double b11=1.0,b12=0.0,b21=0.0,b22=1.0;
/***** parse options ******/
getargopt opts[20];
char *files[3]={NULL};
int n=0;
int keepflux=0;
files[0]=fnamin;
files[1]=fnamout;
n=0;
setopts(&opts[n++],"-x=", OPTTYP_DOUBLE , &xpos,
"chip offset x from the center(always needed)");
setopts(&opts[n++],"-y=", OPTTYP_DOUBLE , &ypos,
"chip offset y from the center(always needed)");
setopts(&opts[n++],"-quick", OPTTYP_FLAG , &quickmode,
"quick mode (default: quick)",1);
setopts(&opts[n++],"-keepflux", OPTTYP_FLAG , &keepflux,
"keep flux mode (default:keep SB)",1);
/*
setopts(&opts[n++],"-reverse", OPTTYP_FLAG , &reverse,
"reverse(not impl.)",1);
*/
setopts(&opts[n++],"-a2=", OPTTYP_DOUBLE , &(a[2]),
"a2(default:0)");
setopts(&opts[n++],"-a3=", OPTTYP_DOUBLE , &(a[3]),
"a3(default:4.15755e-10)");
setopts(&opts[n++],"-a4=", OPTTYP_DOUBLE , &(a[4]),
"a4(default:0)");
setopts(&opts[n++],"-a5=", OPTTYP_DOUBLE , &(a[5]),
"a5(default:1.64531e-18)");
setopts(&opts[n++],"-a6=", OPTTYP_DOUBLE , &(a[6]),
"a6(default:0)");
setopts(&opts[n++],"-a7=", OPTTYP_DOUBLE , &(a[7]),
"a7(default:-4.62459e-26)");
setopts(&opts[n++],"-b11=", OPTTYP_DOUBLE , &(b11),
"b11(default:1.0)");
setopts(&opts[n++],"-b12=", OPTTYP_DOUBLE , &(b12),
"b12(default:0.0)");
setopts(&opts[n++],"-b21=", OPTTYP_DOUBLE , &(b21),
"b21(defaulr:0.0)");
setopts(&opts[n++],"-b22=", OPTTYP_DOUBLE , &(b22),
"b22(default:1.0)");
setopts(&opts[n++],"-bzero=", OPTTYP_FLOAT , &bzero,
"bzero");
setopts(&opts[n++],"-bscale=", OPTTYP_FLOAT , &bscale,
"bscale");
setopts(&opts[n++],"-dtype=", OPTTYP_STRING , dtype,
"data_typ(FITSFLOAT,FITSSHORT...)");
setopts(&opts[n++],"-pixignr=", OPTTYP_FLOAT , &ignor,
"pixignr value");
setopts(&opts[n++],"",0,NULL,NULL);
if(parsearg(argc,argv,opts,files,NULL)
||fnamout[0]=='\0' || xpos==-FLT_MAX || ypos==-FLT_MAX)
{
print_help("Usage: distcorr5 [options] filein fileout",
opts,"");
exit(-1);
}
if(keepflux==1) keepSB=0;
xcen=-xpos;
ycen=-ypos;
/* read FILE */
if ((fpin= imropen(fnamin,&imhin,&icomin))==NULL)
{
printf("File %s not found !!\n",fnamin);
exit(-1);
}
pixignr=(float)imget_pixignr( &imhin );
npx=imhin.npx;
npy=imhin.npy;
f=(float*)malloc(npx*npy*sizeof(float));
imrall_tor(&imhin,fpin,f,npx*npy);
/* 2002/04/01 */
/* only "quick" version is implemented */
g=distcorr_lintrans_quick3(f,npx,npy,pixignr,xcen,ycen,N,a,
b11,b12,b21,b22,
&npx2,&npy2,&xshift,&yshift,keepSB);
/* replace pixignr */
imh_inherit(&imhin,&icomin,&imhout,&icomout,fnamout);
imclose(fpin,&imhin,&icomin);
imc_fits_set_dtype(&imhout,FITSFLOAT,bzero,bscale);
if(ignor!=INT_MIN)
{
for(i=0;i<npx2*npy2;i++)
if (g[i]==pixignr) g[i]=(float)ignor;
imset_pixignr(&imhout,&icomout,ignor);
}
else
{
imset_pixignr(&imhout,&icomout,(int)pixignr);
}
imhout.npx=npx2;
imhout.npy=npy2;
imhout.ndatx=npx2;
imhout.ndaty=npy2;
imaddhistf(&icomout,"Distortion corrected with center=(%f,%f)",xcen,ycen);
if (keepSB==1)
imaddhistf(&icomout," keep-SB mode.");
else
imaddhistf(&icomout," keep-flux mode.");
imaddhistf(&icomout," matrix=(%f,%f)(%f,%f)",b11,b12,b21,b22);
imaddhistf(&icomout," coeff:a2=%e a3=%e a4=%e",a[2],a[3],a[4]);
imaddhistf(&icomout," coeff:a5=%e a6=%e a7=%e",a[5],a[6],a[7]);
/* WCS revise */
imc_shift_WCS(&icomout,(float)xshift,(float)yshift);
/* write FILE */
if ((fpout= imwopen(fnamout,&imhout,&icomout))==NULL)
{
printf("Cannot open file %s !!\n",fnamout);
exit(-1);
}
imwall_rto( &imhout, fpout, g );
imclose(fpout,&imhout,&icomout);
free(g);
return 0;
}
int main(int argc,char **argv)
{
float *g;
int i;
struct imh imhin={""};
struct icom icomin={0};
FILE *fp;
int npx,npy;
int pixignr;
double total=0.;
int disable_pixignr=0;
char fnamin[BUFSIZ]="";
/* for getarg */
/* Ver3. */
getargopt opts[20];
char *files[3]={NULL};
int n=0;
int helpflag;
files[0]=fnamin;
setopts(&opts[n++],"-disable_pixignr",OPTTYP_FLAG,&disable_pixignr,
"add pixignr(blank) as a normal pix.",1);
setopts(&opts[n++],"",0,NULL,NULL);
helpflag=parsearg(argc,argv,opts,files,NULL);
if(fnamin[0]=='\0')
{
fprintf(stderr,"Error: No input file specified!!\n");
helpflag=1;
}
if(helpflag==1)
{
print_help("Usage: total [option] (infilename)",
opts,"");
exit(-1);
}
/*
* ... Open Input
*/
if ((fp=imropen(fnamin,&(imhin),&(icomin)))==NULL)
{
printf("File %s not found !! ignore. \n",fnamin);
return -1;
}
npx=imhin.npx;
npy=imhin.npy;
g=(float*)malloc(sizeof(float)*(npy+1)*(npx+1));
imrall_tor(&imhin, fp, g, npx*npy);
pixignr=imget_pixignr(&imhin);
imclose(fp,&imhin,&icomin);
if(disable_pixignr==1)
for(i=0;i<npx*npy;i++)
{
total+=(double)g[i];
}
else
for(i=0;i<npx*npy;i++)
{
if(g[i]!=(float)pixignr)
total+=(double)g[i];
}
printf("%f\n",total);
free(g);
return 0;
}
void CheckHook()
{
ShimData *data = NULL;
HANDLE datahandle = OpenFileMappingA(FILE_MAP_READ, FALSE, GLOBAL_HOOK_DATA_NAME);
if(datahandle == NULL)
{
LOGPRINT(L"renderdocshim: can't open global data\n");
return;
}
data = (ShimData *)MapViewOfFile(datahandle, FILE_MAP_READ, 0, 0, sizeof(ShimData));
if(data == NULL)
{
CloseHandle(datahandle);
LOGPRINT(L"renderdocshim: can't map global data\n");
return;
}
if(data->pathmatchstring[0] == 0 || data->pathmatchstring[1] == 0 ||
data->pathmatchstring[2] == 0 || data->pathmatchstring[3] == 0)
{
LOGPRINT(L"renderdocshim: invalid pathmatchstring: '");
LOGPRINT(data->pathmatchstring);
LOGPRINT(L"'\n");
UnmapViewOfFile(data);
CloseHandle(datahandle);
return;
}
// no new[], need to use VirtualAlloc
const int exepathLen = 1024;
wchar_t *exepath = (wchar_t *)VirtualAlloc(NULL, exepathLen * sizeof(wchar_t),
MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE);
if(exepath)
{
// no memset :).
for(int i = 0; i < exepathLen; i++)
exepath[i] = 0;
GetModuleFileNameW(NULL, exepath, exepathLen - 1);
// no str*cmp functions
int find = FindStringOrdinal(FIND_FROMSTART, exepath, -1, data->pathmatchstring, -1, TRUE);
if(find >= 0)
{
LOGPRINT(L"renderdocshim: Hooking into '");
LOGPRINT(exepath);
LOGPRINT(L"', based on '");
LOGPRINT(data->pathmatchstring);
LOGPRINT(L"'\n");
HMODULE mod = LoadLibraryW(data->rdocpath);
if(mod)
{
pINTERNAL_SetCaptureOptions setopts =
(pINTERNAL_SetCaptureOptions)GetProcAddress(mod, "INTERNAL_SetCaptureOptions");
pINTERNAL_SetLogFile setlogfile =
(pINTERNAL_SetLogFile)GetProcAddress(mod, "INTERNAL_SetLogFile");
pRENDERDOC_SetDebugLogFile setdebuglog =
(pRENDERDOC_SetDebugLogFile)GetProcAddress(mod, "RENDERDOC_SetDebugLogFile");
if(setopts)
setopts((const CaptureOptions *)data->opts);
if(setlogfile && data->logfile[0])
setlogfile(data->logfile);
if(setdebuglog && data->debuglog[0])
setdebuglog(data->debuglog);
}
}
else
{
LOGPRINT(L"renderdocshim: NOT Hooking into '");
LOGPRINT(exepath);
LOGPRINT(L"', based on '");
LOGPRINT(data->pathmatchstring);
LOGPRINT(L"'\n");
}
VirtualFree(exepath, 0, MEM_RELEASE);
}
else
{
LOGPRINT(L"renderdocshim: Failed to allocate exepath\n");
}
UnmapViewOfFile(data);
CloseHandle(datahandle);
}
int main(int argc,char **argv)
{
char fnamin[BUFSIZ]="";
char fnamout[BUFSIZ]="";
struct icom icomin={0};
struct imh imhin={""};
float fact,fsigm;
float gmax,gmean,gmin,gsd;
int npx,npy;
int nmesh_x,nmesh_y;
int meshsiz_x=0,meshsiz_y=0,meshsiz_xy=0;
int ncycle;
float pixignr;
float *g;
float *rmesh;
float *sgmesh;
float bscale=1.;
FILE *fpin;
float msky,msigm;
int dtypein;
int binflag;
/***** parse options ******/
getargopt opts[20];
char *files[3]={NULL};
int n=0;
files[0]=fnamin;
files[1]=fnamout;
n=0;
setopts(&opts[n++],"-mesh=", OPTTYP_INT , &meshsiz_xy,
"mesh size (default: image size)");
setopts(&opts[n++],"-meshx=", OPTTYP_INT , &meshsiz_x,
"mesh x-size (default: image size)");
setopts(&opts[n++],"-meshy=", OPTTYP_INT , &meshsiz_y,
"mesh y-size (default: image size)");
/* not impl. yet */
/*
setopts(&opts[n++],"-xmin=", OPTTYP_INT , &xmin,
"");
setopts(&opts[n++],"-xmax=", OPTTYP_INT , &xmax,
"");
setopts(&opts[n++],"-ymin=", OPTTYP_INT , &ymin,
"");
setopts(&opts[n++],"-ymax=", OPTTYP_INT , &ymax,
"");
*/
setopts(&opts[n++],"",0,NULL,NULL);
if(parsearg(argc,argv,opts,files,NULL)||fnamin[0]=='\0')
{
print_help("Usage: skydet [options] filein [fileout]",
opts,"");
exit(-1);
}
/********* main loop *************/
/*
*** DATA INPUT ***
*/
/**** read image ****/
if ((fpin= imropen(fnamin,&imhin,&icomin))==NULL)
{
fprintf(stderr,"File %s not found !!\n",fnamin);
exit(-1);
}
pixignr=imget_pixignr( &imhin );
if(imhin.dtype==DTYPFITS)
{
imc_fits_get_dtype( &imhin, &dtypein, NULL, &bscale, NULL );
if(dtypein==FITSFLOAT || bscale!=1.0)
binflag=0;
else
binflag=1;
}
else
{
if(imhin.dtype==DTYPR4 || imhin.dtype==DTYPR8)
binflag=0;
else
binflag=1;
}
npx=imhin.npx;
npy=imhin.npy;
if(meshsiz_xy!=0)
{
meshsiz_x=meshsiz_xy;
meshsiz_y=meshsiz_xy;
}
if(meshsiz_x<1) meshsiz_x=npx;
if(meshsiz_y<1) meshsiz_y=npy;
g=(float*)malloc(sizeof(float)*npx*npy);
if (g==NULL)
{
printf("Error cannot allocate image buffer");
exit(-1);
}
if(!imrall_tor(&imhin,fpin,g,npx*npy))
{
fprintf(stderr,"Error. cannot read data.\n");
exit(-1);
}
imclose(fpin,&imhin,&icomin);
/*
*** SATAISTICS
*/
fact=2.0;
ncycle=2;
statsk(g,npx,npy,fact,ncycle,&gmax,&gmin,&gmean,&gsd,pixignr);
printf("\n => GMAX GMIN GMEAN GSD= %f %f %f %f \n",gmax,gmin,gmean,gsd);
/*
*** SKY DETERMINATION AND SUBTRACTION ***
*/
nmesh_x=(int)(((float)npx*2.)/meshsiz_x)-1;
if(nmesh_x<1) nmesh_x=1;
nmesh_y=(int)(((float)npy*2.)/meshsiz_y)-1;
if(nmesh_y<1) nmesh_y=1;
rmesh=(float*)malloc(sizeof(float)*nmesh_x*nmesh_y);
sgmesh=(float*)malloc(sizeof(float)*nmesh_x*nmesh_y);
/* 97/09/12 Yagi */
fsigm=70.0; /* default */
skydet2b(g,npx,npy,rmesh,
nmesh_x,nmesh_y,
meshsiz_x,meshsiz_y,
gmean,gsd,fsigm,sgmesh,binflag,
pixignr);
if(nmesh_x*nmesh_y>2)
{
msigm=skysigmadet(sgmesh,nmesh_x,nmesh_y);
msky=medfilter_skysb(rmesh,nmesh_x,nmesh_y,1);
}
else if (nmesh_x*nmesh_y==2)
{
msky=0.5*(rmesh[0]+rmesh[1]);
msigm=0.5*(sgmesh[0]+sgmesh[1]);
}
else if(nmesh_x*nmesh_y==1)
{
msky=rmesh[0];
msigm=sgmesh[0];
}
else
{
msky=0;/* Error */
msigm=-1.0; /* Error */
}
printf("%g ",msky);
printf("%g\n",msigm);
if(fnamout[0]!='\0')
{
skypattern(g,npx,npy,rmesh,nmesh_x,nmesh_y,meshsiz_x,meshsiz_y);
makePostage(fnamout,g,npx,npy);
}
return 0;
}
int main(int argc,char *argv[])
{
struct imh imhin={""},imhout={""};
struct icom icomin={0},icomout={0};
char fnamin[100]="";
char fnamout[100]="";
char tmp[100]="";
FILE *fp,*fp2;
float dp[XMAX];
float data[OSMAX]; /* temporary */
int ix,iy;
int xmin=-1,xmax=-1,ymin=-1,ymax=-1;
int offst;
float bzero=0,bscale=1.0,bzero_new=FLT_MIN,bscale_new=FLT_MIN;
float blank_new=FLT_MIN;
float pixignr=INT_MIN;
int fitsdtype=-1;
int efpmin1,efprng1,efpmin2,efprng2;
int j=0;
char dtype[BUFSIZ]="";
int fit_param=-1;
float os[4096];
int notrim=0;
getargopt opts[20];
char *files[3]={NULL};
int n=0;
int helpflag;
files[0]=fnamin;
files[1]=fnamout;
setopts(&opts[n++],"-xmin=", OPTTYP_INT , &xmin,
"effective region (default:0)");
setopts(&opts[n++],"-xmax=", OPTTYP_INT , &xmax,
"effective region (default:npx-1)");
setopts(&opts[n++],"-ymin=", OPTTYP_INT , &ymin,
"effective region (default:0)");
setopts(&opts[n++],"-ymax=", OPTTYP_INT , &ymax,
"effective region (default:npy-1)");
setopts(&opts[n++],"-notrim", OPTTYP_FLAG , ¬rim,
"not trim off(default:trim)",1);
/* */
setopts(&opts[n++],"-bzero=", OPTTYP_FLOAT , &bzero_new,
"bzero");
setopts(&opts[n++],"-bscale=", OPTTYP_FLOAT , &bscale_new,
"bscale");
setopts(&opts[n++],"-dtype=", OPTTYP_STRING , dtype,
"datatyp(FITSFLOAT,FITSSHORT...)");
setopts(&opts[n++],"-pixignr=", OPTTYP_FLOAT , &blank_new,
"pixignr value");
/*
setopts(&opts[n++],"-fit", OPTTYP_FLAG , &fit_param,
"fitting (default:no)",1);
*/
setopts(&opts[n++],"",0,NULL,NULL);
helpflag=parsearg(argc,argv,opts,files,NULL);
if(fnamout[0]=='\0')
{
fprintf(stderr,"Error: No input file specified!!\n");
helpflag=1;
}
if(helpflag==1)
{
print_help("Usage: osmed4 <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
/*
* ... Open Input
*/
(void)printf("\n Input = %s\n",fnamin );
if( (fp = imropen ( fnamin, &imhin, &icomin )) == NULL )
{
print_help("Usage: %s <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
imget_fits_value(&icomin,"EFP-MIN1",tmp);
efpmin1=atoi(tmp);
imget_fits_value(&icomin,"EFP-MIN2",tmp);
efpmin2=atoi(tmp);
imget_fits_value(&icomin,"EFP-RNG1",tmp);
efprng1=atoi(tmp);
imget_fits_value(&icomin,"EFP-RNG2",tmp);
efprng2=atoi(tmp);
#if 0 /* included in imc_WCS 2002/05/07 */
/* 2000/09/26 */
imget_fits_value(&icomin,"CRPIX1",tmp);
crpix1=atof(tmp);
imget_fits_value(&icomin,"CRPIX2",tmp);
crpix2=atof(tmp);
#endif
if(xmin<0&&xmax<0&&ymin<0&&ymax<0)
{
xmin=efpmin1-1;
ymin=efpmin2-1;
xmax=xmin+efprng1-1;
ymax=ymin+efprng2-1;
}
/*
printf("xmin %d xmax %d ymin %d ymax %d\n",
xmin,xmax,ymin,ymax);
*/
if (xmin<0) xmin=0;
if (xmax>imhin.npx-1||xmax<xmin) xmax=imhin.npx-1;
if (ymin<0) ymin=0;
if (ymax>imhin.npy-1||ymax<ymin) ymax=imhin.npy-1;
printf("(%d,%d) - (%d,%d)\n",
xmin,ymin,xmax,ymax);
/* output */
imh_inherit(&imhin,&icomin,&imhout,&icomout,fnamout);
if(!notrim)
{
imhout.npx = (xmax - xmin + 1);
imhout.npy = (ymax - ymin + 1);
imhout.ndatx = imhout.npx;
imhout.ndaty = imhout.npy;
}
/* !! need 2000/07/02 or later version of IMC */
if(dtype[0]=='\0')
imc_fits_get_dtype( &imhout, &fitsdtype, &bzero, &bscale, &offst );
else
if ((fitsdtype=imc_fits_dtype_string(dtype))==-1)
{
printf("\nWarning: Unknown fits dtype %s. Inheriting original.\n",dtype);
imc_fits_get_dtype( &imhout, &fitsdtype, &bzero, &bscale, &offst );
}
if(bzero_new!=FLT_MIN)
{
bzero=bzero_new;
}
if(bscale_new!=FLT_MIN)
{
bscale=bscale_new;
}
(void)imc_fits_set_dtype( &imhout, fitsdtype, bzero, bscale );
if(blank_new!=FLT_MIN)
imset_pixignr(&imhout,&icomout,(int)blank_new);
else
{
pixignr=(float)imget_pixignr(&imhin);
imset_pixignr(&imhout,&icomout,(int)pixignr);
}
if (fit_param>0)
{
imaddhist(&icomout,"OSMED4: Overscan value is smoothed");
}
else
{
imaddhist(&icomout,"OSMED4: Overscan median is subtracted line by line.");
}
if (!notrim)
{
imaddhistf(&icomout,"OSMED4: And extracted [%d:%d,%d:%d] (0-origin)",
xmin,xmax,ymin,ymax);
}
(void)printf("\n Output = %s\n",fnamout );
/* 2000/09/26 EFP-MIN revise */
/* 2001/09/17 debug */
if(efpmin1-xmin<1)
{
efprng1-=(xmin+1-efpmin1);
efpmin1=xmin+1;
}
if(efpmin1-1+efprng1-1>=xmax)
{
efprng1=xmax-(efpmin1-1)+1;
}
if(efpmin2-ymin<1)
{
efprng2-=(ymin+1-efpmin2);
efpmin2=ymin+1;
}
if(efpmin2-2+efprng2-1>=ymax)
{
efprng2=ymax-(efpmin2-1)+1;
}
if(!notrim)
{
imupdate_fitsf(&icomout, "EFP-MIN1",IMC_FITS_INTFORM,
efpmin1-xmin,
"Start position of effective frame in axis-1");
imupdate_fitsf(&icomout, "EFP-MIN2",IMC_FITS_INTFORM,
efpmin2-ymin,
"Start position of effective frame in axis-2");
imupdate_fitsf(&icomout, "EFP-RNG1",IMC_FITS_INTFORM,
xmax-xmin+1,
"Range of effective frame in axis-1");
imupdate_fitsf(&icomout, "EFP-RNG2",IMC_FITS_INTFORM,
ymax-ymin+1,
"Range of effective frame in axis-2");
#if 0
/* 2000/09/26 CRPIX revise */
imupdate_fitsf(&icomout, "CRPIX1",
"%20.1f / %-47.47s",
crpix1-(float)xmin,
"Reference pixel coordinate system in axis1");
imupdate_fitsf(&icomout, "CRPIX2",
"%20.1f / %-47.47s",
crpix2-(float)ymin,
"Reference pixel coordinate system in axis2");
#else
imc_shift_WCS(&icomout,(float)xmin,(float)ymin);
#endif
}
for( iy=0; iy<imhin.npy; iy++ )
{
j=0;
(void) imrl_tor( &imhin, fp, dp, iy );
for( ix=0; ix<xmin; ix++ )
{
data[j++]=dp[ix];
}
for(ix=xmax+1;ix<imhin.npx;ix++)
{
data[j++]=dp[ix];
}
os[iy]=floatmedian(j,data);
}
/* fit, if needed, not implemented */
/**** OPEN output ****/
if( (fp2 = imwopen( fnamout, &imhout, &icomout )) == NULL )
{
(void) imclose(fp,&imhin,&icomin);
print_help("Usage: %s <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
if (notrim)
{
xmin=0;
xmax=imhin.npx-1;
}
for( iy=0; iy<imhin.npy; iy++ )
{
j=0;
(void) imrl_tor( &imhin, fp, dp, iy );
for(ix=xmin;ix<=xmax;ix++)
dp[ix]-=os[iy];
(void) imwl_rto( &imhout, fp2, dp+xmin, iy);
}
(void) imclose(fp,&imhin,&icomin);
(void) imclose(fp2,&imhout,&icomout);
return 0;
}
int main(int argc, char** argv)
{
struct imh imhin={""}; /* imh header structure */
struct icom icomin={0}; /* imh icominent structure */
char fname[BUFSIZ]=""; /* image file name */
char fnamcatout[BUFSIZ]=""; /* output catalog file name */
FILE *fp_pix; /* pointer to pix file */
FILE *fp;
float *pix; /* pixel array */
int pdim; /* pixel data size */
int npx, npy; /* pixel data size */
objrec_t *psfob=NULL, *q=NULL; /* object record used to make PSF */
int sobj; /* number of selected object */
int i,k; /* do loop */
float infcri=0,supcri=10000; /* selection criteria */
float DETECT_LEVEL = 3.0;
float DETECT_ISO = 0.0;
float DETECT_ISO_FACTOR = 1.0;
int MINIMUM_PIXEL = 10;
float REJECT_CRIT_1 = 0.0; /* Rejection criteria mean-(*)sigma
for star selection (Ipeak/Npix test) */
float REJECT_CRIT_2 = 0.5; /* Rejection criteria for star
selection.
((xmax-xmin)/(ymax-ymin) test) */
/* Needed */
int IM_RAD_MAX = 20; /* Initial PSF Radius and Max Value
when radius is undetermined */
float SKY_SIGMA=0.;
int nsky;
float sky_mean,sky=FLT_MAX;
float pixignr;
int niter=5;
int nstarmin=50,nstarmax=300;
int flag;
int ndiv=10;
/* 2000/10/21 */
float aprad=10.0;
getargopt opts[20];
int n=0;
char *files[3]={NULL};
int helpflag=0;
files[0]=fname;
n=0;
setopts(&opts[n++],"-nskysigma=", OPTTYP_FLOAT , &DETECT_LEVEL,
"detection threshold=%%f * skysigma (default:3.0)");
setopts(&opts[n++],"-iso=", OPTTYP_FLOAT, &DETECT_ISO,
"set detection threshold=%%f (default: not used)");
setopts(&opts[n++],"-niso=", OPTTYP_FLOAT, &DETECT_ISO_FACTOR,
"-iso=%%f is multiplied by factor %%f (default: 1.0)");
setopts(&opts[n++],"-npix=", OPTTYP_INT, &MINIMUM_PIXEL,
"minimum connected pixel (default:10)\n");
setopts(&opts[n++],"-ndiv=", OPTTYP_INT , &ndiv,
"number of division of image in detection (default:10)");
setopts(&opts[n++],"-sky=", OPTTYP_FLOAT , &sky,
"background sky (default:estimated from image)");
setopts(&opts[n++],"-rpsf=", OPTTYP_INT, &IM_RAD_MAX,
"maximun radius for PSF (default:20)");
setopts(&opts[n++],"-criteria1=", OPTTYP_FLOAT, &REJECT_CRIT_1,
"peak-npix criteria (default:0)");
setopts(&opts[n++],"-aratiomin=", OPTTYP_FLOAT, &REJECT_CRIT_2,
"axial ratio minimum limit(default:0.5)");
setopts(&opts[n++],"-peakmin=", OPTTYP_FLOAT , &infcri,
"minimum peak value (default:0)");
setopts(&opts[n++],"-peakmax=", OPTTYP_FLOAT , &supcri,
"maximum peak value (default:10000)");
setopts(&opts[n++],"-outmes=", OPTTYP_STRING , &fnamcatout,
"output catalog name (default: (infile).mes)");
setopts(&opts[n++],"-aprad=", OPTTYP_FLOAT, &aprad,
"aperture flux radius(default:10.0)");
setopts(&opts[n++],"-nmin=", OPTTYP_INT , &nstarmin,
"minimum number of output (default:50)");
setopts(&opts[n++],"-nmax=", OPTTYP_INT , &nstarmax,
"maximum number of output (default:300)");
setopts(&opts[n++],"-niter=", OPTTYP_INT , &niter,
"rejection iteration cycle (default:5)");
setopts(&opts[n++],"",0,NULL,NULL);
helpflag=parsearg(argc,argv,opts,files,NULL);
if(ndiv<=1) ndiv=1;
if(fname[0]=='\0')
{
printf("Error: No input file specified!!\n");
helpflag=1;
}
if(helpflag==1)
{
/* print usage */
print_help("Usage: starsel3 [options] (imagefile)",
opts,"");
exit(-1);
}
DETECT_ISO*=DETECT_ISO_FACTOR;
/* Image file open to read */
if ((fp_pix = imropen(fname, &imhin, &icomin)) == NULL)
{
fprintf(stderr,"Cannot read file %s\n",fname);
exit(1);
}
/* Pick up pixignr value */
pixignr = (float)imget_pixignr(&imhin);
/* Allocaton of pixel data memory */
npx = imhin.npx;
npy = imhin.npy;
pdim = npx * npy;
pix = (float*) malloc(pdim*sizeof(float));
/* Read pixel data */
if (imrall_tor(&imhin, fp_pix, pix, pdim) == 0)
{
fprintf(stderr,"Cannot read file %s\n",fname);
exit(1);
}
imclose(fp_pix,&imhin,&icomin);
/* Detection */
/* determine thres if -d is used */
skydet(pix, npx, npy, &nsky, &sky_mean, &SKY_SIGMA, pixignr);
if(sky==FLT_MAX)
sky=sky_mean;
if(DETECT_ISO<=0)
{
DETECT_ISO=SKY_SIGMA*DETECT_LEVEL;
}
/* skysb */
printf("sky=%f\n",sky);
for(i=0;i<npx*npy;i++)
if (pix[i]!=pixignr)
{
pix[i]-=sky;
}
/****************************************************************/
printf("adopted number of PSFs [%d, %d]\n",
nstarmin, nstarmax);
flag=0;
for(k=0;k<niter;k++)
{
printf("\niso=%f npix=%d\n",DETECT_ISO,MINIMUM_PIXEL);
sobj=detectpsf(pix,npx,npy,
DETECT_ISO,
MINIMUM_PIXEL,
IM_RAD_MAX,
ndiv,
infcri,supcri,
REJECT_CRIT_1,
REJECT_CRIT_2,
pixignr,
&psfob);
if(sobj<0)
{
/* no object detected */
}
else if (sobj==0)
{
/* all objects are rejected */
REJECT_CRIT_1-=1.0;
}
else if(sobj>nstarmax)
{
/* test. change iso */
printf(" too many. ");
if(flag==0)
DETECT_ISO*=2.0;
else
MINIMUM_PIXEL=(int)ceil((double)MINIMUM_PIXEL*1.5);
flag=(flag+1)%2;
}
else if(sobj<nstarmin)
{
/* test change iso */
printf(" too few. ");
if(flag==0)
MINIMUM_PIXEL=(int)ceil((double)MINIMUM_PIXEL*0.65);
else
DETECT_ISO*=0.5;
flag=(flag+1)%2;
}
else
{
printf("debug: thres=%f npix=%d crit1=%f\n",DETECT_ISO,MINIMUM_PIXEL,REJECT_CRIT_1);
break;
}
if (k<niter-1)
{
free_objrec_list(psfob);
psfob=NULL;
printf(" retrying ...\n");
}
else printf(" iterated %d times\n",niter);
}
/****************************************************************/
if (fnamcatout[0]=='\0')
sprintf(fnamcatout,"%s.mes",fname);
fp=fopen(fnamcatout,"wt");
if(fp==NULL)
{
fprintf(stderr,"Cannot write output catalog \"%s\"\n",
fnamcatout);
exit(-1);
}
for(q=psfob; q != NULL; q=q->next)
{
/* 2000/10/21 aperture added */
/* apphot */
q->fiso=aperturePhotometry(pix,npx,npy,q->xc,q->yc,aprad);
fprintf(fp, "%d %.3f %.3f %.0f %d %.0f %d %d %d %d %d %d\n",
q->entnum, q->xc, q->yc, q->fiso,
q->npix,q->peak,
q->xmin, q->xmax, q->ymin, q->ymax,
q->ipeak, q->jpeak);
}
fclose(fp);
free_objrec_list(psfob);
free(pix);
printf("\n");
return 0;
}
int main(int argc, char *argv[])
{
FILE *fp;
/* log(matrix) file */
/* 0->0 0->1, ... 0->n */
int i,j,n=0,m,k,dim,dimmat,dimdat,idx;
double *dx,*dy,*dm,*da; /* data */
double *ex,*ey,*em,*ea; /* error */
double dx0,dy0,da0; /* data */
double ex0,ey0,ea0; /* error */
double df0,ef0;
double x,y;
double eps_r=10.0,eps_f=0.5,eps_a=0.005,eps_m;
int ndat,ndat0=0;
double *ax,*ay,*am,*aa; /* ans */
double *ax0,*ay0,*am0,*aa0; /* ans */
double *mat_x,*mat_y,*mat_m,*mat_a;
double *dat_x,*dat_y,*dat_m,*dat_a;
double c,s;
char **line=NULL;
char **names=NULL;
char buffer[BUFSIZ];
char fnam1[BUFSIZ],fnam2[BUFSIZ],fnamcat[BUFSIZ]="";
int nline=100,l=0;
int *connect;
int nc=1,flag;
int ctmp;
double *res=NULL,r0;
double *resx,*resy;
double *chisq=NULL,chisqmin;
int *id=NULL;
int quietmode=1;
int ix1,ix2,id1,id2;
int idm1, idm2;
int niter=20;
int ret;
getargopt opts[10];
char *files[3]={NULL};
int helpflag;
files[0]=fnamcat;
setopts(&opts[n++],"-dr=",OPTTYP_DOUBLE,&eps_r,"error allowance of position.(default:10.0)");
setopts(&opts[n++],"-df=",OPTTYP_DOUBLE,&eps_f,"error allowance of flux ratio.(default:0.5)");
setopts(&opts[n++],"-da=",OPTTYP_DOUBLE,&eps_a,"error allowance of angle.(default:0.005)");
setopts(&opts[n++],"-niter=",OPTTYP_INT,&niter,"");
setopts(&opts[n++],"-quiet",OPTTYP_FLAG,&quietmode,"quiet mode(default)",1);
setopts(&opts[n++],"-verbose",OPTTYP_FLAG,&quietmode,"verbose mode",0);
setopts(&opts[n++],"",0,NULL,NULL);
helpflag=parsearg(argc,argv,opts,files,NULL);
if(helpflag==1||fnamcat[0]=='\0')
{
print_help("Usage: match_stack5b <options> (resultfile)",
opts,"");
exit(-1);
}
/***************************************************************/
/* read lines */
fp=fopen(fnamcat,"r");
if(fp==NULL)
{
fprintf(stderr,"Cannot open %s\n",fnamcat);
exit(-1);
}
eps_m=fabs(log(eps_f));
line=(char**)malloc(sizeof(char*)*nline);
l=0;
n=0;
while(1)
{
if(fgets(buffer,BUFSIZ,fp)==NULL) break;
if (sscanf(buffer,"%s %s",fnam1,fnam2)==2 &&
fnam1[0]!='#')
{
n=adddic(n,&names,fnam1);
n=adddic(n,&names,fnam2);
line[l]=(char*)malloc(sizeof(char)*(strlen(buffer)+1));
strcpy(line[l],buffer);
l++;
if(l>=nline)
{
nline*=2;
line=(char**)realloc(line,sizeof(char*)*nline);
}
}
}
fclose(fp);
nline=l;
line=(char**)realloc(line,sizeof(char*)*nline);
/***************************************************************/
/* parse line, set data */
dim=n*n;
dx=(double*)calloc(dim,sizeof(double));
dy=(double*)calloc(dim,sizeof(double));
da=(double*)calloc(dim,sizeof(double));
dm=(double*)calloc(dim,sizeof(double));
ex=(double*)calloc(dim,sizeof(double));
ey=(double*)calloc(dim,sizeof(double));
ea=(double*)calloc(dim,sizeof(double));
em=(double*)calloc(dim,sizeof(double));
connect=(int*)calloc(n,sizeof(int));
/* 2000/08/18 */
/* banpei */
for(i=0;i<dim;i++)
em[i]=10000.0;
for(l=0;l<nline;l++)
{
sscanf(line[l],"%s %s %lf %lf %lf %lf %lf %lf %lf %lf %d",
fnam1,fnam2,
&dx0, &dy0, &da0, &df0, &ex0, &ey0, &ea0, &ef0, &ndat);
if(ex0>=0&&ef0>=0&&ea0>=0&&ef0>=0)
{
i=name2no(n,names,fnam1);
j=name2no(n,names,fnam2);
/* 2001/05/22 */
/* ndat weight, how ??? */
idx=i+j*n;
dx[idx]=dx0;
ex[idx]=ex0;
dy[idx]=dy0;
ey[idx]=ey0;
da[idx]=da0;
ea[idx]=ea0;
if (fabs(ef0/df0)<1 && df0>0)
{
em[idx]=-log(1.0-fabs(ef0/df0));
dm[idx]=log(df0);
}
else
{
/* error */
em[idx]=10000.0;
dm[idx]=0.0;
}
free(line[l]);
}
}
free(line);
if(n<1)
{
fprintf(stderr,"Error: no valid pairs\n");
exit(-1);
}
/***************************************************************/
ax=(double*)malloc((n-1)*sizeof(double));
ay=(double*)malloc((n-1)*sizeof(double));
aa=(double*)malloc((n-1)*sizeof(double));
am=(double*)malloc((n-1)*sizeof(double));
ax0=(double*)malloc((n-1)*sizeof(double));
ay0=(double*)malloc((n-1)*sizeof(double));
aa0=(double*)malloc((n-1)*sizeof(double));
am0=(double*)malloc((n-1)*sizeof(double));
dimdat=(n*(n-1))/2;
dimmat=n*dimdat;
mat_x=(double*)calloc(dimmat,sizeof(double));
mat_y=(double*)calloc(dimmat,sizeof(double));
mat_a=(double*)calloc(dimmat,sizeof(double));
mat_m=(double*)calloc(dimmat,sizeof(double));
dat_x=(double*)calloc(dimdat,sizeof(double));
dat_y=(double*)calloc(dimdat,sizeof(double));
dat_a=(double*)calloc(dimdat,sizeof(double));
dat_m=(double*)calloc(dimdat,sizeof(double));
/******************************************************************/
/* check symmetry ?*/
/* 1st path , a */
m=0;
for(i=0;i<n-1;i++)
{
for(j=i+1;j<n;j++)
{
/* No xy symmetry check here */
/* 2001/03/13 */
id1=i+j*n;
id2=j+i*n;
ix1=i;
ix2=j;
if(em[id1]==10000.0 && em[id2]!=10000.0)
{
/* swap */
id1=j+i*n;
id2=i+j*n;
ix1=j;
ix2=i;
}
idm1=(ix1-1)+m*(n-1);
idm2=(ix2-1)+m*(n-1);
if(em[id1]>eps_m)
{
if(em[id1]!=10000.0) /* banpei */
{
if (!quietmode)
{
printf("%d %d %s - %s is not used\n",i,j,names[ix1],names[ix2]);
printf("%f(mag error) > %f(dm)\n",
em[id1],eps_m);
}
}
else
{
/* also not used */
}
}
else if(ex[id1]*ex[id1]+ey[id1]*ey[id1]>eps_r*eps_r)
{
if (!quietmode)
{
printf("%d %d %s - %s is not used\n",i,j,names[ix1],names[ix2]);
printf("%f(pos error^2) > %f(dr^2)\n",
ex[id1]*ex[id1]+ey[id1]*ey[id1],
eps_r*eps_r);
}
}
else if(ea[id1]>eps_a)
{
if (!quietmode)
{
printf("%d %d %s - %s is not used\n",i,j,names[ix1],names[ix2]);
printf("%f(angle error) > %f(da)\n",
ea[id1],eps_a);
}
}
else if(fabs(dm[id1]+dm[id2])>eps_m &&
em[id2]!=10000.0) /* banpei */
{
if (!quietmode)
{
printf("%d %d %s - %s is not used\n",i,j,names[ix1],names[ix2]);
printf("Flux information is not symmetric\n");
printf(" -> : %f (mag)\n",dm[id1]);
printf(" <- : %f (mag)\n",dm[id2]);
}
}
else if(fabs(da[id1]+da[id2])>eps_a && em[id2]!=10000.0)
{
if (!quietmode)
{
printf("%d %d %s - %s is not used\n",i,j,names[ix1],names[ix2]);
printf("Angle information is not symmetric\n");
printf(" -> : %f (angle)\n",da[id1]);
printf(" <- : %f (angle)\n",da[id2]);
}
}
else
{
/* valid value */
if(em[id2]!=10000.0)
{
da[id1]=0.5*(da[id1]-da[id2]);
ea[id1]=0.5*sqrt(ea[id1]*ea[id1]+
ea[id2]*ea[id2]);
}
if(ea[id1]<1.e-7) ea[id1]=1.e-7;
mat_a[idm2]=1.0/ea[id1];
if(ix1>0)
{
mat_a[idm1]=- mat_a[idm2];
}
dat_a[m]=da[id1]/ea[id1];
/* 2000/08/18 */
/* check connection */
if(connect[ix1]!=0)
{
if(connect[ix2]==0)
connect[ix2]=connect[ix1];
else
{
ctmp=connect[ix2];
for(k=0;k<n;k++)
if(connect[k]==ctmp)
connect[k]=connect[ix1];
}
}
else
{
if(connect[ix2]==0)
{
connect[ix2]=connect[ix1]=nc;
nc++;
}
else
connect[ix1]=connect[ix2];
}
m++;
}
}
}
/* here, ndat=m */
/**********************************************************************/
/* check connection */
flag=0;
for(k=0;k<n;k++)
{
if(connect[k]==0)
{
printf("Error: %s is not connected to any other frame\n",
names[k]);
flag=1;
/* 2000/08/18, as rejection or partition is not inplemented yet */
if(k==0) break;
}
else if(connect[k]!=connect[0])
{
printf("Error: %s is not connected to the reference frame %s\n",
names[k],names[0]);
flag=1;
}
}
if(flag==1)
{
/* rejection or partition is not inplemented yet (2000/08/18)*/
exit(-1);
}
if(!quietmode)
printf("calc angle.\n");
/* 1st. solve the angle eqn. */
/* mat_a * aa = dat_a */
/*******************************************************************/
/* 2000/07/18 */
if(m<n-1)
{
/* under determined */
printf("Error: theta cannot be determined! too few constraints!\n");
printf(" param=%d eqn=%d\n",n-1,m);
printf(" all theta are set to be 0\n");
for(i=0;i<n-1;i++)
aa[i]=0.0;
}
else
{
/* main iteration loop */
ndat=(m+n)/2;
ndat0=n;
chisq=(double*)malloc(niter*sizeof(double));
chisqmin=100000.0;
res=(double*)malloc(m*sizeof(double));
id=(int*)malloc(m*sizeof(int));
for (k=0;k<niter;k++)
{
if(!quietmode)
printf("aitrer:k=%d ndat=%d\n",k,ndat);
chisq[k]=100000.0;
ret=solve(n-1,aa,ndat,dat_a,mat_a);
if(ret==1)
{
ndat=(m+ndat+1)/2;
continue;
}
/* here we get angles aa[i] */
if(!quietmode)
{
printf("iter %d\n",k);
for(i=0;i<n-1;i++)
printf("%d a=%f\n",i+1,aa[i]);
printf("\n");
}
/* check chisq */
chisq[k]=0;
for(j=0;j<m;j++) /* not only used ndat, but also notused*/
{
id[j]=j;
r0=-dat_a[j];
for(i=0;i<n-1;i++)
r0+=aa[i]*mat_a[i+j*(n-1)];
res[j]=fabs(r0);
}
heapsort2id(m,res,id);
id_reorder(m,id,sizeof(double),res);
chisq[k]=res[ndat-1]/ndat;
if (k==0 || chisq[k]<chisq[k-1])
{
/* OK, good */
id_reorder(m,id,(n-1)*sizeof(double),mat_a);
id_reorder(m,id,sizeof(double),dat_a);
id_reorder(m,id,(n-1)*sizeof(double),mat_x);
id_reorder(m,id,sizeof(double),dat_x);
id_reorder(m,id,(n-1)*sizeof(double),mat_y);
id_reorder(m,id,sizeof(double),dat_y);
id_reorder(m,id,(n-1)*sizeof(double),mat_m);
id_reorder(m,id,sizeof(double),dat_m);
}
if (chisq[k]<chisqmin*1.1)
{
if (chisq[k]<chisqmin)
{
chisqmin=chisq[k];
memcpy(aa0,aa,(n-1)*sizeof(double));
ndat0=ndat;
}
if(k==0) /* initial */
ndat=(m+n)/2;
else
ndat=(m+ndat+1)/2;
}
else
{
/* no good. retry */
if(ndat0==ndat)
break;
else
ndat=(ndat0+ndat)/2;
}
}
}
if(!quietmode)
printf("recalc %d\n",ndat0);
memcpy(aa,aa0,(n-1)*sizeof(double));
/* MASK */
for(j=ndat0;j<m;j++)
{
k=-1;
for(i=0;i<n-1;i++)
if(mat_a[i+j*(n-1)]!=0)
{
if(k==-1) k=i+1;
else
{
em[k+(i+1)*n]=em[(i+1)+k*n]=10000.0;
if (!quietmode)
printf("Mask %s %s\n",names[k],names[i+1]);
break;
}
}
if(i==n && k!=-1)
{
if (!quietmode)
printf("Mask %s %s\n",names[k],names[0]);
em[k]=em[k*n]=10000.0;
}
}
/***************************************************************/
/* Second path */
/* rotate */
if(!quietmode)
printf("rotated.\n");
for(i=1;i<n;i++)
{
/* 2000/08/18 !! */
/* flag check needed ?? +aa or -aa ??? */
/* => OK */
c=cos(aa[i-1]);
s=sin(aa[i-1]);
for(j=0;j<n;j++)
{
id1=i+j*n;
/* rotate by aa[i]*/
x=dx[id1]*c-dy[id1]*s;
y=dx[id1]*s+dy[id1]*c;
dx[id1]=x;
dy[id1]=y;
if(!quietmode)
if (x!=0||y!=0)
printf("%d %d x=%f y=%f\n",i,j,x,y);
}
}
/***************************************************************/
/* clear up connection matrix */
memset(connect,0,n*sizeof(int));
m=0;
for(i=0;i<n-1;i++)
{
for(j=i+1;j<n;j++)
{
/* 2001/03/13 */
id1=i+j*n;
id2=j+i*n;
ix1=i;
ix2=j;
if(em[id1]==10000.0 && em[id2]!=10000.0)
{
/* swap */
id1=j+i*n;
id2=i+j*n;
ix1=j;
ix2=i;
}
idm1=(ix1-1)+m*(n-1);
idm2=(ix2-1)+m*(n-1);
if(em[id1]>eps_m)
{
if(em[id1]!=10000.0) /* banpei */
{
if (!quietmode)
{
printf("%s - %s is not used\n",names[i],names[j]);
printf("%f(mag error) > %f(dm)\n",
em[id1],eps_m);
}
}
}
else if(ex[id1]*ex[id1]+ey[id1]*ey[id1]>eps_r*eps_r)
{
if (!quietmode)
{
printf("%s - %s is not used\n",names[ix1],names[ix2]);
printf("%f(pos error^2) > %f(dr^2)\n",
ex[id1]*ex[id1]+ey[id1]*ey[id1],
eps_r*eps_r);
}
}
else if(ea[id1]>eps_a)
{
if (!quietmode)
{
printf("%s - %s is not used\n",names[ix1],names[ix2]);
printf("%f(angle error) > %f(da)\n",
ea[id1],eps_a);
}
}
else if(fabs(dm[id1]+dm[id2])>eps_m && em[id2]!=10000.0)
{
if (!quietmode)
{
printf("%s - %s is not used\n",names[ix1],names[ix2]);
printf("Flux information is not symmetric\n");
printf(" -> : %f (mag)\n",dm[id1]);
printf(" <- : %f (mag)\n",dm[id2]);
}
}
else if(fabs(da[id1]+da[id2])>eps_a && em[id2]!=10000.0)
{
if (!quietmode)
{
printf("%s - %s is not used\n",names[ix1],names[ix2]);
printf("Angle information is not symmetric\n");
printf(" -> : %f (angle)\n",da[id1]);
printf(" <- : %f (angle)\n",da[id2]);
}
}
else if(
((dx[id1]+dx[id2])*(dx[id1]+dx[id2])+
(dy[id1]+dy[id2])*(dy[id1]+dy[id2])>eps_r*eps_r)
&& em[id2]!=10000.0)
{
if (!quietmode)
{
printf("%s - %s is not used\n",names[ix1],names[ix2]);
printf("Position information is not symmetric\n");
}
}
else
{
/* valid value */
if(em[id2]!=10000.0)
{
dx[id1]=0.5*(dx[id1]-dx[id2]);
dy[id1]=0.5*(dy[id1]-dy[id2]);
dm[id1]=0.5*(dm[id1]-dm[id2]);
ex[id1]=0.5*sqrt(ex[id1]*ex[id1]+
ex[id2]*ex[id2]);
ey[id1]=0.5*sqrt(ey[id1]*ey[id1]+
ey[id2]*ey[id2]);
em[id1]=0.5*sqrt(em[id1]*em[id1]+
em[id2]*em[id2]);
}
if(ex[id1]<0.005) ex[id1]=0.005;
if(ey[id1]<0.005) ey[id1]=0.005;
if(em[id1]<0.005) em[id1]=0.005;
mat_x[idm2]=1.0/ex[id1];
mat_y[idm2]=1.0/ey[id1];
mat_m[idm2]=1.0/em[id1];
/* 2000/08/17 debug */
if(i>0)
{
mat_x[idm1]= -mat_x[idm2];
mat_y[idm1]= -mat_y[idm2];
mat_m[idm1]= -mat_m[idm2];
}
dat_x[m]=dx[id1]/ex[id1];
dat_y[m]=dy[id1]/ey[id1];
dat_m[m]=dm[id1]/em[id1];
/******************* check connection ****************/
if(connect[ix1]!=0)
{
if(connect[ix2]==0)
connect[ix2]=connect[ix1];
else
{
ctmp=connect[ix2];
for(k=0;k<n;k++)
if(connect[k]==ctmp)
connect[k]=connect[ix1];
}
}
else
{
if(connect[ix2]==0)
{
connect[ix2]=connect[ix1]=nc;
nc++;
}
else
connect[ix1]=connect[ix2];
}
m++;
}
}
}
/***********************************************************************/
/* check connection */
flag=0;
for(k=0;k<n;k++)
{
if(connect[k]==0)
{
printf("Error: %s is not connected to any other frame after 1st rejection\n",
names[k]);
flag=1;
/* 2000/08/18, as rejection or partition is not inplemented yet */
if(k==0) break;
}
else if(connect[k]!=connect[0])
{
printf("Error: %s is not connected to the reference frame %s after rejection\n",
names[k],names[0]);
flag=1;
}
}
if(flag==1)
{
/* rejection or partition is not inplemented yet (2000/08/18)*/
exit(-1);
}
/******************************/
/* 2000/07/18 */
/* 2001/05/22 */
if(m<n-1)
{
/* under determined */
printf("Error: x,y,flux cannot be determined! too few constraints!\n");
printf(" param=%d eqn=%d\n",n-1,m);
printf("Exit\n");
exit(-1);
}
else
{
/* main iteration loop */
niter=20;
ndat=(m+n)/2;
ndat0=n;
/* 2001/05/21 */
/* check and reject */
resx=(double*)malloc(m*sizeof(double));
resy=(double*)malloc(m*sizeof(double));
chisqmin=100000.0;
for (k=0;k<niter;k++)
{
chisq[k]=100000.0;
ret=0;
if (solve(n-1,ax,ndat,dat_x,mat_x)!=0 ||
solve(n-1,ay,ndat,dat_y,mat_y)!=0 ||
solve(n-1,am,ndat,dat_m,mat_m)!=0)
{
ret=1;
if(!quietmode)
{
printf("Error: not solved ndat=%d\n",ndat);
printf("X=%d %d %d\n",solve(n-1,ax,ndat,dat_x,mat_x),n-1,ndat);
printf("Y=%d %d %d\n",solve(n-1,ax,ndat,dat_x,mat_x),n-1,ndat);
printf("M=%d %d %d\n",solve(n-1,ax,ndat,dat_x,mat_x),n-1,ndat);
printf("Error: not solved. \n");
}
if(ndat>=m)
{
/* cannot solve */
ndat0=m;
break;
}
ndat=(m+ndat+1)/2;
if(!quietmode)
printf("Error: not solved. new ndat=%d\n",ndat);
continue;
}
else
{
/* calc residuals */
for(j=0;j<m;j++)
{
id[j]=j;
resx[j]=-dat_x[j];
resy[j]=-dat_y[j];
for(i=0;i<n-1;i++)
{
resx[j]+=ax[i]*mat_x[i+j*(n-1)];
resy[j]+=ay[i]*mat_y[i+j*(n-1)];
}
res[j]=fabs(resx[j])+fabs(resy[j]);
}
/* sort by residual */
heapsort2id(m,res,id);
id_reorder(m,id,sizeof(double),res);
chisq[k]=res[ndat-1]/ndat;
}
if (k==0 || chisq[k]<chisq[k-1])
{
/* OK, good */
id_reorder(m,id,(n-1)*sizeof(double),mat_x);
id_reorder(m,id,sizeof(double),dat_x);
id_reorder(m,id,(n-1)*sizeof(double),mat_y);
id_reorder(m,id,sizeof(double),dat_y);
id_reorder(m,id,(n-1)*sizeof(double),mat_m);
id_reorder(m,id,sizeof(double),dat_m);
}
if (chisq[k]<chisqmin*1.1)
{
if (chisq[k]<chisqmin)
{
chisqmin=chisq[k];
memcpy(ax0,ax,(n-1)*sizeof(double));
memcpy(ay0,ay,(n-1)*sizeof(double));
memcpy(am0,am,(n-1)*sizeof(double));
ndat0=ndat;
}
if(k==0) /* initial */
ndat=(m+n)/2;
else
ndat=(m+ndat+1)/2;
}
else
{
if(ndat0==ndat)
break;
else
ndat=(ndat0+ndat)/2;
}
}
}
if(!quietmode)
printf("recalc %d\n",ndat0);
/* recalc */
memcpy(ax,ax0,(n-1)*sizeof(double));
memcpy(ay,ay0,(n-1)*sizeof(double));
memcpy(am,am0,(n-1)*sizeof(double));
/*********************************************************************/
printf("%s %f %f %f %f\n",names[0],0.0,0.0,0.0,1.0);
for(i=0;i<n-1;i++)
{
printf("%s %f %f %f %f\n",names[i+1],ax[i],ay[i],aa[i],
exp(am[i]));
}
/* free */
for(i=0;i<n;i++)
free(names[i]);
free(names);
free(dx);
free(dy);
free(da);
free(dm);
free(ex);
free(ey);
free(ea);
free(em);
free(mat_x);
free(mat_y);
free(mat_a);
free(mat_m);
free(dat_x);
free(dat_y);
free(dat_a);
free(dat_m);
free(ax);
free(ay);
free(aa);
free(am);
free(connect);
return 0;
}
int main(int argc,char **argv)
{
float fact,fsigm;
float gmax,gmean,gmin,gsd;
int npx,npy,meshsiz_x,meshsiz_y;
int nmesh_x=0,nmesh_y=0,mesh=0;
int ncycle;
char fnamin[BUFSIZ]="";
char fnamout[BUFSIZ]="";
struct icom icomin={0},icomout={0},icomref={0};
struct imh imhin={""},imhout={""},imhref={""};
int i,j;
float *g,*g2;
float *rmesh;
float *sgmesh;
char fnamref[BUFSIZ]="";
char buffer[BUFSIZ];
char skymap[BUFSIZ]="";
float bzero=0.,bscale=1.;
float bzero_new=FLT_MIN,bscale_new=FLT_MIN;
int bzeroset=0;
int fitsdtype;
FILE *fpin,*fpout,*fpref;
FILE *fmap;
int mode;
char dtype[80]="";
float msky,msigm;
int dtypein;
int binflag;
float ignor=(float)INT_MIN;
float imax=(float)INT_MIN;
float imin=(float)INT_MAX;
int pixignr;
getargopt opts[20];
char *files[3]={NULL};
int n=0;
int helpflag;
/***************************************/
files[0]=fnamin;
files[1]=fnamout;
setopts(&opts[n++],"-mesh=", OPTTYP_INT , &mesh,
"mesh size (default:full image)");
setopts(&opts[n++],"-meshx=", OPTTYP_INT , &nmesh_x,
"mesh x-size (default:not used)");
setopts(&opts[n++],"-meshy=", OPTTYP_INT , &nmesh_y,
"mesh y-size (default:not used)");
setopts(&opts[n++],"-skyref=", OPTTYP_STRING , &fnamref,
"sky determination reference (default:use input image)");
setopts(&opts[n++],"-imax=", OPTTYP_FLOAT , &imax,
"flux upper limit to estimate sky(default:unlimited)");
setopts(&opts[n++],"-imin=", OPTTYP_FLOAT , &imin,
"flux lower limit to estimate sky(default:unlimited)");
/* */
setopts(&opts[n++],"-bzero=", OPTTYP_FLOAT , &bzero_new,
"bzero");
setopts(&opts[n++],"-bscale=", OPTTYP_FLOAT , &bscale_new,
"bscale");
setopts(&opts[n++],"-dtype=", OPTTYP_STRING , dtype,
"datatyp(FITSFLOAT,FITSSHORT...)");
setopts(&opts[n++],"-pixignr=", OPTTYP_FLOAT , &ignor,
"pixignr value");
/* To be implemented in next major version */
/*
setopts(&opts[n++],"-fit", OPTTYP_FLAG , &fit_param,
"fitting (default:no)",1);
*/
setopts(&opts[n++],"",0,NULL,NULL);
helpflag=parsearg(argc,argv,opts,files,NULL);
if(fnamout[0]=='\0')
{
fprintf(stderr,"Error: No input file specified!!\n");
helpflag=1;
}
if(helpflag==1)
{
print_help("Usage: skysb3b <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
if(nmesh_x==0) nmesh_x=mesh;
if(nmesh_y==0) nmesh_y=mesh;
if(bzero_new!=FLT_MIN)
{
bzero=bzero_new;
bzeroset=1;
}
if(bscale_new!=FLT_MIN)
{
bscale=bscale_new;
bzeroset=1;
}
/*
printf("debug:nmesh_x=%d nmesh_y=%d\n",nmesh_x,nmesh_y);
*/
mode=1; /* default */
fsigm=70.0; /* default */
/*
*** DATA INPUT ***
*/
/**** read image ****/
fprintf(stderr,"%s\n",fnamin);
if ((fpin= imropen(fnamin,&imhin,&icomin))==NULL)
{
printf("File %s not found !!\n",fnamin);
exit(-1);
}
pixignr=(int)imget_pixignr( &imhin );
printf("pixignr_in=%f\n",(float)pixignr);
if(imhin.dtype==DTYPFITS)
{
imc_fits_get_dtype( &imhin, &dtypein, NULL, NULL, NULL);
if(dtypein==FITSFLOAT)
binflag=0;
else
binflag=1;
}
else
{
if(imhin.dtype==DTYPR4 || imhin.dtype==DTYPR8)
binflag=0;
else
binflag=1;
}
npx=imhin.npx;
npy=imhin.npy;
if(nmesh_x<1) nmesh_x=npx;
if(nmesh_y<1) nmesh_y=npy;
g=(float*)malloc(sizeof(float)*npx*npy);
g2=(float*)malloc(sizeof(float)*npx*npy);
if (g==NULL||g2==NULL) { printf("Error cannot allocate image buffer"); exit(-1);}
if(imrall_tor(&imhin,fpin,g2,npx*npy))
printf("npx, npy =%d %d \n",npx,npy);
else {
printf("Error. cannot read data.\n");
exit(-1);
}
/* 2002/05/21 */
if(fnamref[0]=='\0')
{
memcpy(g,g2,sizeof(float)*npx*npy);
}
else
{
if ((fpref=imropen(fnamref,&imhref,&icomref))==NULL)
{
printf("Reference File %s not found !!\n",fnamref);
exit(-1);
}
if (npx!=imhref.npx||npy!=imhref.npy)
{
printf("Error: Ref. size (%dx%d) differ from input (%dx%d)\n",
imhref.npx,imhref.npy,npx,npy);
exit(-1);
}
if(! imrall_tor(&imhref,fpref,g,npx*npy))
{
printf("Error: cannot read ref data.\n");
exit(-1);
}
imclose(fpref,&imhref,&icomref);
}
/* 2001/07/19 preformat (masking) */
if(imax>(float)INT_MIN||imin<(float)INT_MAX)
for(i=0;i<npx*npy;i++)
if(g[i]>imax||g[i]<imin) g[i]=pixignr;
/*
*** SATAISTICS
*/
printf("Calculating statistics \n");
/* TODO */
/* to be tunable ?*/
fact=2.0;
ncycle=2;
statsk(g,npx,npy,fact,ncycle,&gmax,&gmin,&gmean,&gsd,pixignr);
printf("\n");
printf(" => GMAX GMIN GMEAN GSD= %f %f %f %f \n",gmax,gmin,gmean,gsd);
/*
*** SKY DETERMINATION AND SUBTRACTION ***
*/
printf("Sky subtraction under way\n");
meshsiz_x=(int)((npx*2.)/nmesh_x)-1; /* meshsiz_x > 0 */
if(meshsiz_x<1) meshsiz_x=1;
meshsiz_y=(int)((npy*2.)/nmesh_y)-1; /* meshsiz_y > 0 */
if(meshsiz_y<1) meshsiz_y=1;
rmesh=(float*)malloc(sizeof(float)*meshsiz_x*meshsiz_y);
sgmesh=(float*)malloc(sizeof(float)*meshsiz_x*meshsiz_y);
/* 97/09/12 Yagi */
skydet2b(g,npx,npy,rmesh,meshsiz_x,meshsiz_y,
nmesh_x,nmesh_y,gmean,gsd,fsigm,sgmesh,binflag,pixignr);
if(meshsiz_x*meshsiz_y>2)
{
/* 3X3 median filter */
/*
msky=skysigmadet(rmesh,meshsiz_x,meshsiz_y);
*/
msky=medfilter_skysb
(rmesh,meshsiz_x,meshsiz_y,1);
msigm=skysigmadet(sgmesh,meshsiz_x,meshsiz_y);
}
else if (meshsiz_x*meshsiz_y==2)
{
msky=0.5*(rmesh[0]+rmesh[1]);
msigm=0.5*(sgmesh[0]+sgmesh[1]);
}
else if(meshsiz_x*meshsiz_y==1)
{
msky=rmesh[0];
msigm=sgmesh[0];
}
else
{
msky=0;/* Error */
msigm=-1.0; /* Error */
}
printf("SSB-EST %g\n",msky);
printf("SSGM-EST %g\n",msigm);
/* Write skymap to file*/
if(skymap[0]!='\0')
{
if(skymap[0]=='-')
{
fmap=stdout;
printf("mapfile:stdout\n");
fprintf(stderr,"mapfile:stdout\n");
}
else
{
printf("mapfile:%s\n",skymap);
fprintf(stderr,"mapfile:%s\n",skymap);
fmap=fopen(skymap,"a");
}
if(fmap==NULL)
{
printf("Cannot write to \"%s\" -- writeing to stdout.\n",skymap);
fprintf(stderr,
"Cannot write to \"%s\" -- writeing to stdout.\n",skymap);
fmap=stdout;
}
fprintf(fmap,"# %s\n",fnamin);
fprintf(fmap,"# %d %d # (mesh size)\n",nmesh_x,nmesh_y);
fprintf(fmap,"# %d %d # meshsiz_x meshsiz_y\n",meshsiz_x,meshsiz_y);
fprintf(fmap,"# %g %g # msky msigma\n",msky,msigm);
for(j=0;j<meshsiz_y;j++)
{
for(i=0;i<meshsiz_x;i++)
{
fprintf(fmap,"%d %d %6.2f\n",i,j,rmesh[i+meshsiz_x*j]);
}
}
if(fmap!=stdout) fclose(fmap);
}
/*
*** prepare for output ***
*/
/* Now sky subtract */
skysub(g2,npx,npy,rmesh,meshsiz_x,meshsiz_y,
nmesh_x,nmesh_y,mode,pixignr);
free(rmesh);
free(sgmesh);
statsk(g2,npx,npy,fact,ncycle,&gmax,&gmin,&gmean,&gsd,pixignr);
/***** set output format *******/
fprintf(stderr,"%s\n",fnamout);
imh_inherit(&imhin,&icomin,&imhout,&icomout,fnamout);
imclose(fpin,&imhin,&icomin);
if (imhout.dtype==DTYPFITS)
{
if(dtype[0]=='\0'||(fitsdtype=imc_fits_dtype_string(dtype))==-1)
(void)imc_fits_get_dtype( &imhout, &fitsdtype, NULL, NULL, NULL);
/* 2000/07/02 */
if(bzeroset!=1)
(void)imc_fits_get_dtype( &imhout, NULL, &bzero, &bscale, NULL);
/* re-set bzero & bscale */
if(imc_fits_set_dtype(&imhout,fitsdtype,bzero,bscale)==0)
{
printf("Error\nCannot set FITS %s\n",fnamout);
printf("Type %d BZERO %f BSCALE %f\n",fitsdtype,bzero,bscale);
exit(-1);
}
}
else
{
if (strstr(dtype,"I2"))
{
imhout.dtype=DTYPI2;
}
else if (strstr(dtype,"INT"))
{
imhout.dtype=DTYPINT;
}
else if (strstr(dtype,"I4"))
{
imhout.dtype=DTYPI4;
}
else if (strstr(dtype,"R4"))
{
imhout.dtype=DTYPR4;
}
else if (strstr(dtype,"R8"))
{
imhout.dtype=DTYPR8;
}
else
{
imhout.dtype=DTYPU2;
imset_u2off(&imhout,&icomout,500);
}
}
if(ignor!=(float)INT_MIN)
{
imset_pixignr(&imhout, &icomout, (int)ignor);
/* replace pixignr */
for(i=0;i<imhout.npx*imhout.npy;i++)
if(g2[i]==(float)pixignr) g2[i]=(float)ignor;
pixignr=ignor;
}
else
{
imset_pixignr(&imhout, &icomout, pixignr);
}
/**** output image ****/
imaddhistf(&icomout,
"Sky subtracted by skysb3b, mesh %3dx%3d sky%7.2f+%7.2f",
nmesh_x,nmesh_y,msky,msigm);
if (imget_fits_value(&icomout, "SSBMSH-I", buffer )==0)
{
imupdate_fitsf(&icomout, "SSBMSH-I", "%20d / %-46.46s",
nmesh_x , "SKY MESH X PIXEL" );
imupdate_fitsf(&icomout, "SSBMSH-J", "%20d / %-46.46s",
nmesh_y , "SKY MESH Y PIXEL" );
imupdate_fitsf(&icomout, "SSB-EST", "%20.4f / %-46.46s",
msky, "TYPICAL SKY ADC ESTIMATED" );
imupdate_fitsf(&icomout, "SSGM-EST", "%20.4f / %-46.46s",
msigm, "TYPICAL SKY SIGMA ADC ESTIMATED" );
}
if ((fpout= imwopen(fnamout,&imhout,&icomout))==NULL)
{
printf("Cannot open file %s !!\n",fnamout);
exit(-1);
}
imwall_rto( &imhout, fpout, g2 );
free(g);
imclose(fpout,&imhout,&icomout);
/*
printf("\n");
printf(" --- skysb3b PROGRAM ENDED ---\n");
*/
return 0;
}
int main(int argc,char *argv[])
{
struct imh imhin={""},imhout={""};
struct icom icomin={0},icomout={0};
char fnamin[100]="";
char fnamout[100]="";
char tmp[100]="";
FILE *fp,*fp2;
float *f,*g,*h;
int i;
int xmin=-1,xmax=-1,ymin=-1,ymax=-1;
int ymin2,ymax2;
int offst;
float bzero=0,bscale=1.0,bzero_new=FLT_MIN,bscale_new=FLT_MIN;
float blank_new=FLT_MIN;
float pixignr=INT_MIN;
int fitsdtype=-1;
int npx,npy,npx2,npy2,npxos,npyos,npxef[NREGION],npyef[NREGION];
int npxef0=0;
int xflip,yflip;
int region;
char regid[2],key[10],comment[80];
int efminx[NREGION],efmaxx[NREGION],efminy[NREGION],efmaxy[NREGION];
int osminx[NREGION],osmaxx[NREGION],osminy[NREGION],osmaxy[NREGION];
int j=0;
char dtype[BUFSIZ]="";
int notrim=0;
int no_y=0;
/* test */
int flag_norm=0;
float gain[NREGION]={0};
int fit_param=-1;
getargopt opts[20];
char *files[3]={NULL};
int nopt=0;
int helpflag;
files[0]=fnamin;
files[1]=fnamout;
/* only trim version is supported now */
setopts(&opts[nopt++],"-notrim", OPTTYP_FLAG , ¬rim,
"not trim off(default:trim)",1);
setopts(&opts[nopt++],"-no-y", OPTTYP_FLAG , &no_y,
"not subtract y-overscan(default:subtract)",1);
setopts(&opts[nopt++],"-bzero=", OPTTYP_FLOAT , &bzero_new,
"bzero");
setopts(&opts[nopt++],"-bscale=", OPTTYP_FLOAT , &bscale_new,
"bscale");
setopts(&opts[nopt++],"-dtype=", OPTTYP_STRING , dtype,
"datatyp(FITSFLOAT,FITSSHORT...)");
setopts(&opts[nopt++],"-pixignr=", OPTTYP_FLOAT , &blank_new,
"pixignr value");
setopts(&opts[nopt++],"",0,NULL,NULL);
helpflag=parsearg(argc,argv,opts,files,NULL);
if(fnamout[0]=='\0')
{
fprintf(stderr,"Error: No input file specified!!\n");
helpflag=1;
}
if(helpflag==1)
{
print_help("Usage: osmed4 <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
/*
* ... Open Input
*/
(void)printf("\n Input = %s\n",fnamin );
if( (fp = imropen ( fnamin, &imhin, &icomin )) == NULL )
{
print_help("Usage: %s <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
npx=imhin.npx;
npy=imhin.npy;
/* get information here */
npx2=0;
npy2=0;
npxos=0;
npyos=0;
imget_fits_value(&icomin,"S_XFLIP",tmp);
printf("debug: xflip [%s]\n",tmp);
if (tmp[0]=='T') xflip=1; else xflip=0;
imget_fits_value(&icomin,"S_YFLIP",tmp);
if (tmp[0]=='T') yflip=1; else yflip=0;
xmin=npx;
xmax=-1;
ymin=npy;
ymax=-1;
ymin2=npy;
ymax2=-1;
for(region=0;region<NREGION;region++)
{
if (xflip==0)
sprintf(regid,"%1d",region+1);
else
sprintf(regid,"%1d",NREGION-region);
sprintf(key,"S_EFMN%c1",regid[0]);
imget_fits_int_value(&icomin,key,&(efminx[region]));
sprintf(key,"S_EFMX%c1",regid[0]);
imget_fits_int_value(&icomin,key,&(efmaxx[region]));
sprintf(key,"S_EFMN%c2",regid[0]);
imget_fits_int_value(&icomin,key,&(efminy[region]));
sprintf(key,"S_EFMX%c2",regid[0]);
imget_fits_int_value(&icomin,key,&(efmaxy[region]));
efminx[region]--;
efmaxx[region]--;
efminy[region]--;
efmaxy[region]--;
printf("debug:EF: %d %d %d %d\n",
efminx[region],efmaxx[region],efminy[region],efmaxy[region]);
if(efmaxx[region]<efminx[region]) exit(-1);
if(efmaxy[region]<efminy[region]) exit(-1);
npxef[region]=efmaxx[region]-efminx[region]+1;
npyef[region]=efmaxy[region]-efminy[region]+1;
if(xmin>efminx[region]) xmin=efminx[region];
if(xmax<efmaxx[region]) xmax=efmaxx[region];
if(ymin>efminy[region]) ymin=efminy[region];
if(ymax<efmaxy[region]) ymax=efmaxy[region];
if(ymin2>efminy[region]) ymin2=efminy[region];
if(ymax2<efmaxy[region]) ymax2=efmaxy[region];
printf("debug: npx2=%d\n",npx2);
npx2+=npxef[region];
printf("debug: region %d: %d x %d \n",
region,npxef[region],npyef[region]);
sprintf(key,"S_OSMN%c1",regid[0]);
imget_fits_int_value(&icomin,key,&(osminx[region]));
sprintf(key,"S_OSMX%c1",regid[0]);
imget_fits_int_value(&icomin,key,&(osmaxx[region]));
sprintf(key,"S_OSMN%c2",regid[0]);
imget_fits_int_value(&icomin,key,&(osminy[region]));
sprintf(key,"S_OSMX%c2",regid[0]);
imget_fits_int_value(&icomin,key,&(osmaxy[region]));
osminx[region]--;
osmaxx[region]--;
osminy[region]--;
osmaxy[region]--;
printf("debug:OS: %d %d %d %d\n",
osminx[region],osmaxx[region],osminy[region],osmaxy[region]);
if(ymin2>osminy[region]) ymin2=osminy[region];
if(ymax2<osmaxy[region]) ymax2=osmaxy[region];
if (npxos<osmaxx[region]-osminx[region]+1)
npxos=osmaxx[region]-osminx[region]+1;
if (flag_norm==1)
{
sprintf(key,"S_GAIN%c",regid[0]);
imget_fits_float_value(&icomin,key,&(gain[region]));
}
if (npyos<osmaxy[region]-osminy[region]+1)
npyos=osmaxy[region]-osminy[region]+1;
}
npy2=ymax-ymin+1;
printf("debug: y %d-%d\n",ymin,ymax);
printf("debug: effective size: %dx%d\n",npx2,npy2);
/* output */
imh_inherit(&imhin,&icomin,&imhout,&icomout,fnamout);
if(!notrim)
{
imhout.npx = npx2;
imhout.npy = npy2;
imhout.ndatx = imhout.npx;
imhout.ndaty = imhout.npy;
}
else
{
imhout.npx = npx;
imhout.npy = npy;
imhout.ndatx = imhout.npx;
imhout.ndaty = imhout.npy;
}
if(dtype[0]=='\0')
{
imc_fits_get_dtype( &imhout, &fitsdtype, &bzero, &bscale, &offst );
/** force FLOAT **/
fitsdtype=FITSFLOAT;
}
else
if ((fitsdtype=imc_fits_dtype_string(dtype))==-1)
{
printf("\nWarning: Unknown fits dtype %s. Inheriting original.\n",dtype);
imc_fits_get_dtype( &imhout, &fitsdtype, &bzero, &bscale, &offst );
}
if(bzero_new!=FLT_MIN)
{
bzero=bzero_new;
}
else
bzero=0;
if(bscale_new!=FLT_MIN)
{
bscale=bscale_new;
}
else
bscale=1.0;
(void)imc_fits_set_dtype( &imhout, fitsdtype, bzero, bscale );
if(blank_new!=FLT_MIN)
imset_pixignr(&imhout,&icomout,(int)blank_new);
else
{
pixignr=(float)imget_pixignr(&imhin);
imset_pixignr(&imhout,&icomout,(int)pixignr);
}
if (fit_param>0)
{
imaddhist(&icomout,"OSMED5: Overscan value is smoothed");
}
else
{
imaddhist(&icomout,"OSMED5: X-Overscan median is subtracted line by line.");
if(no_y==0)
imaddhist(&icomout,"OSMED5: Y-Overscan median is subtracted row by row.");
}
if (!notrim)
{
imaddhistf(&icomout,"OSMED5: And trimmed");
}
(void)printf("\n Output = %s\n",fnamout );
if(!notrim)
{
imupdate_fitsf(&icomout, "EFP-MIN1",IMC_FITS_INTFORM,
1,
"Start position of effective frame in axis-1");
imupdate_fitsf(&icomout, "EFP-MIN2",IMC_FITS_INTFORM,
1,
"Start position of effective frame in axis-2");
imupdate_fitsf(&icomout, "EFP-RNG1",IMC_FITS_INTFORM,
npx2,
"Range of effective frame in axis-1");
imupdate_fitsf(&icomout, "EFP-RNG2",IMC_FITS_INTFORM,
npy2,
"Range of effective frame in axis-2");
imc_shift_WCS(&icomout,(float)xmin,(float)ymin);
/* 2008/08/28 header revision more */
/* tenuki kimeuchi */
/* ch1->ch4 ? ch4->ch1?? */
/* tenuki again */
npxef0=0;
for (i=0;i<NREGION;i++)
{
if (xflip==0)
j=i+1;
else
j=NREGION-i;
sprintf(key,"S_EFMN%d1",j);
sprintf(comment,"MIN pixel of x-effective range for ch%d",j);
imupdate_fitsf(&icomout,key,IMC_FITS_INTFORM,
npxef0+1,comment);
sprintf(key,"S_EFMX%d1",j);
sprintf(comment,"MAX pixel of x-effective range for ch%d",j);
imupdate_fitsf(&icomout,key,IMC_FITS_INTFORM,
npxef0+npxef[i],comment);
npxef0+=npxef[i];
sprintf(key,"S_EFMN%d2",j);
sprintf(comment,"MIN pixel of y-effective range for ch%d",j);
imupdate_fitsf(&icomout,key,IMC_FITS_INTFORM,
1,comment);
sprintf(key,"S_EFMX%d2",j);
sprintf(comment,"MAX pixel of y-effective range for ch%d",j);
imupdate_fitsf(&icomout,key,IMC_FITS_INTFORM,
npy2,comment);
}
}
f=(float*)malloc(npx*npy*sizeof(float));
imrall_tor(&imhin, fp, f, npx*npy );
imclose(fp,&imhin,&icomin);
g=(float*)calloc(npx*npy,sizeof(float));
/* overscan estimation and subtract */
for(region=0;region<NREGION;region++)
{
overscansub_x(npx,npy,f,g,
efminx[region],efmaxx[region],
osminx[region],osmaxx[region],
ymin2,ymax2);
if(no_y==0)
{
/* 2008/07/26 Overscan Y added*/
overscansub_y(npx,npy,g,f,
efminy[region],efmaxy[region],
osminy[region],osmaxy[region],
efminx[region],efmaxx[region]);
}
}
if(no_y!=0)
memcpy(f,g,npx*npy*sizeof(float));
if( (fp2 = imwopen( fnamout, &imhout, &icomout )) == NULL )
{
print_help("Usage: %s <options> [filein] [fileout]",
opts,
"");
exit(-1);
}
if(notrim)
{
imwall_rto( &imhout, fp2, h);
}
else
{
/* copy effective regions to g */
i=0;
for(region=0;region<NREGION;region++)
{
for(j=ymin;j<=ymax;j++)
{
memcpy(g+i+(j-ymin)*npx2,f+efminx[region]+j*npx,
(efmaxx[region]-efminx[region]+1)*sizeof(float));
}
i+=(efmaxx[region]-efminx[region]+1);
}
imwall_rto( &imhout, fp2, g);
}
(void) imclose(fp2,&imhout,&icomout);
return 0;
}
