rpms/sextractor/FC-5 sextractor-pointer-alias.patch, NONE, 1.1 sextractor.spec, 1.4, 1.5
Sergio Pascual (sergiopr)
fedora-extras-commits at redhat.com
Wed Jul 26 16:19:35 UTC 2006
Author: sergiopr
Update of /cvs/extras/rpms/sextractor/FC-5
In directory cvs-int.fedora.redhat.com:/tmp/cvs-serv23747
Modified Files:
sextractor.spec
Added Files:
sextractor-pointer-alias.patch
Log Message:
* Wed Jul 26 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.5.0-4
- Patch to resolve pointer aliasing problems (bug #199700)
- Removed -DXSL_URL flag, as the file sextractor.xsl does not exist yet
* Mon Jul 24 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.5.0-3
- Reverting optimization to -O2, it breaks debug infos
* Fri Jul 21 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.5.0-2
- fitsconv.c has correct permissions
- changed optimization from -O2 to -O1 (bug #199700)
- additional define allows VOTable output
* Wed Jul 19 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.5.0-1
- New upstream version 2.5.0
* Tue Jun 20 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.4.4-2
- Fixed executable permission in src/fits/fitsconv.c
- default.sex and default.param moved to docs
* Mon Jun 19 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.4.4-1
- Initial spec file.
sextractor-pointer-alias.patch:
--- NEW FILE sextractor-pointer-alias.patch ---
diff -ur sextractor-2.5.0.old/src/analyse.c sextractor-2.5.0/src/analyse.c
--- sextractor-2.5.0.old/src/analyse.c 2006-06-29 19:58:03.000000000 +0200
+++ sextractor-2.5.0/src/analyse.c 2006-07-25 23:26:51.000000000 +0200
@@ -41,7 +41,7 @@
#include "som.h"
#include "winpos.h"
-static obj2struct *obj2 = &outobj2;
+/* static obj2struct *obj2 = &outobj2; */
/********************************* analyse ***********************************/
void analyse(picstruct *field, picstruct *dfield, int objnb,
@@ -403,11 +403,11 @@
obj = &objlist->obj[n];
/* Current FITS extension */
- obj2->ext_number = thecat.currext;
+ outobj2.ext_number = thecat.currext;
/* Source position */
- obj2->sposx = (float)(obj2->posx = obj->mx+1.0); /* That's standard FITS */
- obj2->sposy = (float)(obj2->posy = obj->my+1.0);
+ outobj2.sposx = (float)(outobj2.posx = obj->mx+1.0); /* That's standard FITS */
+ outobj2.sposy = (float)(outobj2.posy = obj->my+1.0);
/* Integer coordinates */
ix=(int)(obj->mx+0.49999);
@@ -415,11 +415,11 @@
/* Association */
if (prefs.assoc_flag)
- obj2->assoc_number = do_assoc(field, obj2->sposx, obj2->sposy);
+ outobj2.assoc_number = do_assoc(field, outobj2.sposx, outobj2.sposy);
if (prefs.assoc_flag && prefs.assocselec_type!=ASSOCSELEC_ALL)
selecflag = (prefs.assocselec_type==ASSOCSELEC_MATCHED)?
- obj2->assoc_number:!obj2->assoc_number;
+ outobj2.assoc_number:!outobj2.assoc_number;
else
selecflag = 1;
@@ -450,9 +450,9 @@
pmx2+=temp;
pmy2-=temp;
- obj2->poserr_a = (float)sqrt(pmx2);
- obj2->poserr_b = (float)sqrt(pmy2);
- obj2->poserr_theta = theta*180.0/PI;
+ outobj2.poserr_a = (float)sqrt(pmx2);
+ outobj2.poserr_b = (float)sqrt(pmy2);
+ outobj2.poserr_theta = theta*180.0/PI;
}
if (FLAG(obj2.poserr_cxx))
@@ -462,32 +462,32 @@
xm2 = obj->poserr_mx2;
ym2 = obj->poserr_my2;
xym = obj->poserr_mxy;
- obj2->poserr_cxx = (float)(ym2/(temp=xm2*ym2-xym*xym));
- obj2->poserr_cyy = (float)(xm2/temp);
- obj2->poserr_cxy = (float)(-2*xym/temp);
+ outobj2.poserr_cxx = (float)(ym2/(temp=xm2*ym2-xym*xym));
+ outobj2.poserr_cyy = (float)(xm2/temp);
+ outobj2.poserr_cxy = (float)(-2*xym/temp);
}
/* ---- Aspect ratio */
if (FLAG(obj2.elong))
- obj2->elong = obj->a/obj->b;
+ outobj2.elong = obj->a/obj->b;
if (FLAG(obj2.ellip))
- obj2->ellip = 1-obj->b/obj->a;
+ outobj2.ellip = 1-obj->b/obj->a;
if (FLAG(obj2.polar))
- obj2->polar = (obj->a*obj->a - obj->b*obj->b)
+ outobj2.polar = (obj->a*obj->a - obj->b*obj->b)
/ (obj->a*obj->a + obj->b*obj->b);
/*------------------------------- Photometry -------------------------------*/
/*-- Convert the father of photom. error estimates from variance to RMS */
- obj2->flux_iso = obj->flux;
- obj2->fluxerr_iso = sqrt(obj->fluxerr);
+ outobj2.flux_iso = obj->flux;
+ outobj2.fluxerr_iso = sqrt(obj->fluxerr);
if (FLAG(obj.flux_prof))
{
- obj2->flux_prof = obj->flux_prof;
- obj2->fluxerr_prof = sqrt(obj->fluxerr_prof);
+ outobj2.flux_prof = obj->flux_prof;
+ outobj2.fluxerr_prof = sqrt(obj->fluxerr_prof);
}
if (FLAG(obj2.flux_isocor))
@@ -526,14 +526,14 @@
if (FLAG(obj2.flux_auto))
sexellips(check->pix, check->width, check->height,
- obj->mx, obj->my, obj->a*obj2->kronfactor,
- obj->b*obj2->kronfactor, obj->theta,
+ obj->mx, obj->my, obj->a*outobj2.kronfactor,
+ obj->b*outobj2.kronfactor, obj->theta,
check->overlay, obj->flag&OBJ_CROWDED);
if (FLAG(obj2.flux_petro))
sexellips(check->pix, check->width, check->height,
- obj->mx, obj->my, obj->a*obj2->petrofactor,
- obj->b*obj2->petrofactor, obj->theta,
+ obj->mx, obj->my, obj->a*outobj2.petrofactor,
+ obj->b*outobj2.petrofactor, obj->theta,
check->overlay, obj->flag&OBJ_CROWDED);
}
@@ -555,7 +555,7 @@
input[++j] = log10(obj->iso[i]? obj->iso[i]/fac2: 0.01);
input[++j] = log10(fwhm);
neurresp(input, &output);
- obj2->sprob = (float)output;
+ outobj2.sprob = (float)output;
}
/*&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&*/
@@ -604,8 +604,8 @@
som_phot(thesom, obj->bkg, field->backsig,
(float)prefs.gain, obj->mx-ix, obj->my-iy,
FLAG(obj2.vector_somfit)?outobj2.vector_somfit:NULL, -1.0);
- obj2->stderr_somfit = thesom->stderror;
- obj2->flux_somfit = thesom->amp;
+ outobj2.stderr_somfit = thesom->stderror;
+ outobj2.flux_somfit = thesom->amp;
outobj2.fluxerr_somfit = thesom->sigamp;
}
@@ -628,7 +628,7 @@
double_psf_fit(ppsf, field, wfield, obj, thepsf, dfield, dwfield);
else
psf_fit(thepsf, field, wfield, obj);
- obj2->npsf = thepsfit->npsf;
+ outobj2.npsf = thepsfit->npsf;
if (prefs.psfdisplay_type == PSFDISPLAY_SPLIT)
{
nsub = thepsfit->npsf;
@@ -639,18 +639,18 @@
for (j=0; j<thepsfit->npsf; j++)
{
if (FLAG(obj2.x_psf) && j<prefs.psf_xsize)
- obj2->x_psf[j] = thepsfit->x[j];
+ outobj2.x_psf[j] = thepsfit->x[j];
if (FLAG(obj2.y_psf) && j<prefs.psf_ysize)
- obj2->y_psf[j] = thepsfit->y[j];
+ outobj2.y_psf[j] = thepsfit->y[j];
if (FLAG(obj2.flux_psf) && j<prefs.psf_fluxsize)
- obj2->flux_psf[j] = thepsfit->flux[j];
+ outobj2.flux_psf[j] = thepsfit->flux[j];
if (FLAG(obj2.magerr_psf) && j<prefs.psf_magerrsize)
- obj2->magerr_psf[j] = obj2->fluxerr_psf[j]>0.0?
- 1.086*obj2->fluxerr_psf[j]/thepsfit->flux[j] : 99.0;
+ outobj2.magerr_psf[j] = outobj2.fluxerr_psf[j]>0.0?
+ 1.086*outobj2.fluxerr_psf[j]/thepsfit->flux[j] : 99.0;
if (FLAG(obj2.fluxerr_psf) && j<prefs.psf_fluxerrsize)
- obj2->fluxerr_psf[j] = obj2->fluxerr_psf[j];
+ outobj2.fluxerr_psf[j] = outobj2.fluxerr_psf[j];
if (FLAG(obj2.mag_psf) && j<prefs.psf_magsize)
- obj2->mag_psf[j] = thepsfit->flux[j]>0.0?
+ outobj2.mag_psf[j] = thepsfit->flux[j]>0.0?
prefs.mag_zeropoint -2.5*log10(thepsfit->flux[j]) : 99.0;
}
}
@@ -670,20 +670,20 @@
if (prefs.psf_flag && prefs.psfdisplay_type == PSFDISPLAY_SPLIT)
{
if (FLAG(obj2.x_psf))
- obj2->x_psf[0] = thepsfit->x[j];
+ outobj2.x_psf[0] = thepsfit->x[j];
if (FLAG(obj2.y_psf))
- obj2->y_psf[0] = thepsfit->y[j];
+ outobj2.y_psf[0] = thepsfit->y[j];
if (FLAG(obj2.flux_psf))
- obj2->flux_psf[0] = thepsfit->flux[j]>0.0? thepsfit->flux[j]:0.0; /*?*/
+ outobj2.flux_psf[0] = thepsfit->flux[j]>0.0? thepsfit->flux[j]:0.0; /*?*/
if (FLAG(obj2.mag_psf))
- obj2->mag_psf[0] = thepsfit->flux[j]>0.0?
+ outobj2.mag_psf[0] = thepsfit->flux[j]>0.0?
prefs.mag_zeropoint -2.5*log10(thepsfit->flux[j]) : 99.0;
if (FLAG(obj2.magerr_psf))
- obj2->magerr_psf[0]=
- (thepsfit->flux[j]>0.0 && obj2->fluxerr_psf[j]>0.0) ? /*?*/
- 1.086*obj2->fluxerr_psf[j]/thepsfit->flux[j] : 99.0;
+ outobj2.magerr_psf[0]=
+ (thepsfit->flux[j]>0.0 && outobj2.fluxerr_psf[j]>0.0) ? /*?*/
+ 1.086*outobj2.fluxerr_psf[j]/thepsfit->flux[j] : 99.0;
if (FLAG(obj2.fluxerr_psf))
- obj2->fluxerr_psf[0]= obj2->fluxerr_psf[j];
+ outobj2.fluxerr_psf[0]= outobj2.fluxerr_psf[j];
if (j)
obj->number = ++thecat.ntotal;
}
@@ -714,7 +714,7 @@
{
if (prefs.somfit_flag && (check=prefs.check[CHECK_MAPSOM]))
blankcheck(check, obj->blank, obj->subw, obj->subh,
- obj->subx, obj->suby, (PIXTYPE)*(obj2->vector_somfit));
+ obj->subx, obj->suby, (PIXTYPE)*(outobj2.vector_somfit));
}
blankimage(field, obj->blank, obj->subw, obj->subh,
diff -ur sextractor-2.5.0.old/src/astrom.c sextractor-2.5.0/src/astrom.c
--- sextractor-2.5.0.old/src/astrom.c 2006-07-13 19:13:09.000000000 +0200
+++ sextractor-2.5.0/src/astrom.c 2006-07-25 23:27:21.000000000 +0200
@@ -29,7 +29,7 @@
#include "astrom.h"
#include "wcs/tnx.h"
-static obj2struct *obj2 = &outobj2;
+/* static obj2struct *obj2 = &outobj2; */
/****************************** initastrom **********************************/
/*
@@ -169,32 +169,32 @@
{
if (as->wcs_flag)
{
- wcspos = compute_wcs(field, obj2->posx, obj2->posy);
- obj2->alphas = obj2->mxw = wcspos[0];
- obj2->deltas = obj2->myw = wcspos[1];
+ wcspos = compute_wcs(field, outobj2.posx, outobj2.posy);
+ outobj2.alphas = outobj2.mxw = wcspos[0];
+ outobj2.deltas = outobj2.myw = wcspos[1];
if (FLAG(obj2.alpha2000))
{
if (fabs(as->equinox-2000.0)>0.003)
precess(as->equinox, wcspos[0], wcspos[1],
- 2000.0, &obj2->alpha2000, &obj2->delta2000);
+ 2000.0, &outobj2.alpha2000, &outobj2.delta2000);
else
{
- obj2->alpha2000 = obj2->mxw;
- obj2->delta2000 = obj2->myw;
+ outobj2.alpha2000 = outobj2.mxw;
+ outobj2.delta2000 = outobj2.myw;
}
if (FLAG(obj2.alpha1950))
- j2b(as->equinox, obj2->alpha2000, obj2->delta2000,
- &obj2->alpha1950, &obj2->delta1950);
+ j2b(as->equinox, outobj2.alpha2000, outobj2.delta2000,
+ &outobj2.alpha1950, &outobj2.delta1950);
}
}
else
{
double dx,dy;
- dx = obj2->posx - as->crpix[0];
- dy = obj2->posy - as->crpix[1];
- obj2->mxw = as->crval[0]+ lm[0]*dx + lm[1]*dy; /* CDELT included! */
- obj2->myw = as->crval[1]+ lm[2]*dx + lm[3]*dy; /* CDELT included! */
+ dx = outobj2.posx - as->crpix[0];
+ dy = outobj2.posy - as->crpix[1];
+ outobj2.mxw = as->crval[0]+ lm[0]*dx + lm[1]*dy; /* CDELT included! */
+ outobj2.myw = as->crval[1]+ lm[2]*dx + lm[3]*dy; /* CDELT included! */
}
}
@@ -204,21 +204,21 @@
if (as->wcs_flag)
{
wcspos = compute_wcs(field, (double)obj->peakx, (double)obj->peaky);
- obj2->peakalphas = obj2->peakxw = wcspos[0];
- obj2->peakdeltas = obj2->peakyw = wcspos[1];
+ outobj2.peakalphas = outobj2.peakxw = wcspos[0];
+ outobj2.peakdeltas = outobj2.peakyw = wcspos[1];
if (FLAG(obj2.peakalpha2000))
{
if (fabs(as->equinox-2000.0)>0.003)
precess(as->equinox, wcspos[0], wcspos[1],
- 2000.0, &obj2->peakalpha2000, &obj2->peakdelta2000);
+ 2000.0, &outobj2.peakalpha2000, &outobj2.peakdelta2000);
else
{
- obj2->peakalpha2000 = obj2->peakxw;
- obj2->peakdelta2000 = obj2->peakyw;
+ outobj2.peakalpha2000 = outobj2.peakxw;
+ outobj2.peakdelta2000 = outobj2.peakyw;
}
if (FLAG(obj2.peakalpha1950))
- j2b(as->equinox, obj2->peakalpha2000, obj2->peakdelta2000,
- &obj2->peakalpha1950, &obj2->peakdelta1950);
+ j2b(as->equinox, outobj2.peakalpha2000, outobj2.peakdelta2000,
+ &outobj2.peakalpha1950, &outobj2.peakdelta1950);
}
}
else
@@ -227,8 +227,8 @@
dx = obj->peakx - as->crpix[0];
dy = obj->peaky - as->crpix[1];
- obj2->peakxw = as->crval[0]+ lm[0]*dx + lm[1]*dy; /* CDELT included! */
- obj2->peakyw = as->crval[1]+ lm[2]*dx + lm[3]*dy; /* CDELT included! */
+ outobj2.peakxw = as->crval[0]+ lm[0]*dx + lm[1]*dy; /* CDELT included! */
+ outobj2.peakyw = as->crval[1]+ lm[2]*dx + lm[3]*dy; /* CDELT included! */
}
}
@@ -237,32 +237,32 @@
{
if (as->wcs_flag)
{
- wcspos = compute_wcs(field, obj2->winpos_x, obj2->winpos_y);
- obj2->winpos_alphas = obj2->winpos_xw = wcspos[0];
- obj2->winpos_deltas = obj2->winpos_yw = wcspos[1];
+ wcspos = compute_wcs(field, outobj2.winpos_x, outobj2.winpos_y);
+ outobj2.winpos_alphas = outobj2.winpos_xw = wcspos[0];
+ outobj2.winpos_deltas = outobj2.winpos_yw = wcspos[1];
if (FLAG(obj2.winpos_alpha2000))
{
if (fabs(as->equinox-2000.0)>0.003)
precess(as->equinox, wcspos[0], wcspos[1],
- 2000.0, &obj2->winpos_alpha2000, &obj2->winpos_delta2000);
+ 2000.0, &outobj2.winpos_alpha2000, &outobj2.winpos_delta2000);
else
{
- obj2->winpos_alpha2000 = obj2->winpos_xw;
- obj2->winpos_delta2000 = obj2->winpos_yw;
+ outobj2.winpos_alpha2000 = outobj2.winpos_xw;
+ outobj2.winpos_delta2000 = outobj2.winpos_yw;
}
if (FLAG(obj2.winpos_alpha1950))
- j2b(as->equinox, obj2->winpos_alpha2000, obj2->winpos_delta2000,
- &obj2->winpos_alpha1950, &obj2->winpos_delta1950);
+ j2b(as->equinox, outobj2.winpos_alpha2000, outobj2.winpos_delta2000,
+ &outobj2.winpos_alpha1950, &outobj2.winpos_delta1950);
}
}
else
{
double dx,dy;
- dx = obj2->winpos_x - as->crpix[0];
- dy = obj2->winpos_y - as->crpix[1];
- obj2->winpos_xw = as->crval[0]+ lm[0]*dx + lm[1]*dy;/* CDELT included! */
- obj2->winpos_yw = as->crval[1]+ lm[2]*dx + lm[3]*dy;/* CDELT included! */
+ dx = outobj2.winpos_x - as->crpix[0];
+ dy = outobj2.winpos_y - as->crpix[1];
+ outobj2.winpos_xw = as->crval[0]+ lm[0]*dx + lm[1]*dy;/* CDELT included! */
+ outobj2.winpos_yw = as->crval[1]+ lm[2]*dx + lm[3]*dy;/* CDELT included! */
}
}
@@ -271,11 +271,11 @@
{
double dx,dy;
- dx = obj2->posx - 0.5;
- dy = obj2->posy - 0.5;
- obj2->mamaposx = (as->crval[1]+lm[2]*dx+lm[3]*dy)
+ dx = outobj2.posx - 0.5;
+ dy = outobj2.posy - 0.5;
+ outobj2.mamaposx = (as->crval[1]+lm[2]*dx+lm[3]*dy)
*(MAMA_CORFLEX+1.0); /* CDELT included! */
- obj2->mamaposy = (as->crval[0]+lm[0]*dx+lm[1]*dy); /* CDELT included! */
+ outobj2.mamaposy = (as->crval[0]+lm[0]*dx+lm[1]*dy); /* CDELT included! */
}
/* Express shape parameters in WORLD frame */
@@ -291,12 +291,12 @@
astrom_winerrparam(field, obj);
if (FLAG(obj2.npixw))
- obj2->npixw = obj->npix*as->pixscale*as->pixscale;
+ outobj2.npixw = obj->npix*as->pixscale*as->pixscale;
if (FLAG(obj2.fdnpixw))
- obj2->fdnpixw = obj->fdnpix*as->pixscale*as->pixscale;
+ outobj2.fdnpixw = obj->fdnpix*as->pixscale*as->pixscale;
if (FLAG(obj2.fwhmw))
- obj2->fwhmw = obj->fwhm*as->pixscale;
+ outobj2.fwhmw = obj->fwhm*as->pixscale;
return;
}
@@ -417,15 +417,15 @@
dx2 = obj->mx2;
dy2 = obj->my2;
dxy = obj->mxy;
- obj2->mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
- obj2->my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
- obj2->mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
+ outobj2.mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
+ outobj2.my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
+ outobj2.mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
temp=xm2-ym2;
if (FLAG(obj2.thetaw))
{
- obj2->thetaw = (temp == 0.0)? (45.0) : (0.5*atan2(2.0 * xym,temp)/DEG);
+ outobj2.thetaw = (temp == 0.0)? (45.0) : (0.5*atan2(2.0 * xym,temp)/DEG);
if (as->wcs_flag && FLAG(obj2.thetas))
- obj2->thetas = obj2->thetaw + (obj2->thetaw>0.0?-90:90.0);
+ outobj2.thetas = outobj2.thetaw + (outobj2.thetaw>0.0?-90:90.0);
/*-- Compute position angles in J2000 or B1950 reference frame */
if (as->wcs_flag)
@@ -434,23 +434,23 @@
if (FLAG(obj2.theta2000))
{
- da = as->ap2000 - obj2->alpha2000;
+ da = as->ap2000 - outobj2.alpha2000;
dd = (sin(as->dp2000*DEG)
- -sin(obj2->delta2000*DEG)*sin(obj2->deltas*DEG))
- /(cos(obj2->delta2000*DEG)*cos(obj2->deltas*DEG));
+ -sin(outobj2.delta2000*DEG)*sin(outobj2.deltas*DEG))
+ /(cos(outobj2.delta2000*DEG)*cos(outobj2.deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->theta2000 = obj2->thetas
+ outobj2.theta2000 = outobj2.thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
if (FLAG(obj2.theta1950))
{
- da = as->ap1950 - obj2->alpha1950;
+ da = as->ap1950 - outobj2.alpha1950;
dd = (sin(as->dp1950*DEG)
- -sin(obj2->delta1950*DEG)*sin(obj2->deltas*DEG))
- /(cos(obj2->delta1950*DEG)*cos(obj2->deltas*DEG));
+ -sin(outobj2.delta1950*DEG)*sin(outobj2.deltas*DEG))
+ /(cos(outobj2.delta1950*DEG)*cos(outobj2.deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->theta1950 = obj2->thetas
+ outobj2.theta1950 = outobj2.thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
}
@@ -460,9 +460,9 @@
{
temp = sqrt(0.25*temp*temp+xym*xym);
pm2 = 0.5*(xm2+ym2);
- obj2->aw = (float)sqrt(pm2+temp);
- obj2->bw = (float)sqrt(pm2-temp);
- obj2->polarw = temp / pm2;
+ outobj2.aw = (float)sqrt(pm2+temp);
+ outobj2.bw = (float)sqrt(pm2-temp);
+ outobj2.polarw = temp / pm2;
}
if (FLAG(obj2.cxxw))
@@ -473,9 +473,9 @@
temp = 1e-6;
xym *= 0.99999;
}
- obj2->cxxw = (float)(ym2/temp);
- obj2->cyyw = (float)(xm2/temp);
- obj2->cxyw = (float)(-2*xym/temp);
+ outobj2.cxxw = (float)(ym2/temp);
+ outobj2.cyyw = (float)(xm2/temp);
+ outobj2.cxyw = (float)(-2*xym/temp);
}
return;
@@ -510,19 +510,19 @@
lm3 = lm[lat+naxis*lat];
/* All WORLD params based on 2nd order moments have to pass through here */
- dx2 = obj2->win_mx2;
- dy2 = obj2->win_my2;
- dxy = obj2->win_mxy;
- obj2->win_mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
- obj2->win_my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
- obj2->win_mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
+ dx2 = outobj2.win_mx2;
+ dy2 = outobj2.win_my2;
+ dxy = outobj2.win_mxy;
+ outobj2.win_mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
+ outobj2.win_my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
+ outobj2.win_mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
temp=xm2-ym2;
if (FLAG(obj2.win_thetaw))
{
- obj2->win_thetaw = (temp == 0.0)? (45.0) : (0.5*atan2(2.0*xym,temp)/DEG);
+ outobj2.win_thetaw = (temp == 0.0)? (45.0) : (0.5*atan2(2.0*xym,temp)/DEG);
if (as->wcs_flag && FLAG(obj2.win_thetas))
- obj2->win_thetas = obj2->win_thetaw +
- (obj2->win_thetaw>0.0?-90:90.0);
+ outobj2.win_thetas = outobj2.win_thetaw +
+ (outobj2.win_thetaw>0.0?-90:90.0);
/*-- Compute position angles in J2000 or B1950 reference frame */
if (as->wcs_flag)
@@ -531,23 +531,23 @@
if (FLAG(obj2.win_theta2000))
{
- da = as->ap2000 - obj2->winpos_alpha2000;
+ da = as->ap2000 - outobj2.winpos_alpha2000;
dd = (sin(as->dp2000*DEG)
- -sin(obj2->winpos_delta2000*DEG)*sin(obj2->winpos_deltas*DEG))
- /(cos(obj2->winpos_delta2000*DEG)*cos(obj2->winpos_deltas*DEG));
+ -sin(outobj2.winpos_delta2000*DEG)*sin(outobj2.winpos_deltas*DEG))
+ /(cos(outobj2.winpos_delta2000*DEG)*cos(outobj2.winpos_deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->win_theta2000 = obj2->win_thetas
+ outobj2.win_theta2000 = outobj2.win_thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
if (FLAG(obj2.win_theta1950))
{
- da = as->ap1950 - obj2->winpos_alpha1950;
+ da = as->ap1950 - outobj2.winpos_alpha1950;
dd = (sin(as->dp1950*DEG)
- -sin(obj2->winpos_delta1950*DEG)*sin(obj2->winpos_deltas*DEG))
- /(cos(obj2->winpos_delta1950*DEG)*cos(obj2->winpos_deltas*DEG));
+ -sin(outobj2.winpos_delta1950*DEG)*sin(outobj2.winpos_deltas*DEG))
+ /(cos(outobj2.winpos_delta1950*DEG)*cos(outobj2.winpos_deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->win_theta1950 = obj2->win_thetas
+ outobj2.win_theta1950 = outobj2.win_thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
}
@@ -557,9 +557,9 @@
{
temp = sqrt(0.25*temp*temp+xym*xym);
pm2 = 0.5*(xm2+ym2);
- obj2->win_aw = (float)sqrt(pm2+temp);
- obj2->win_bw = (float)sqrt(pm2-temp);
- obj2->win_polarw = temp / pm2;
+ outobj2.win_aw = (float)sqrt(pm2+temp);
+ outobj2.win_bw = (float)sqrt(pm2-temp);
+ outobj2.win_polarw = temp / pm2;
}
if (FLAG(obj2.win_cxxw))
@@ -570,9 +570,9 @@
temp = 1e-6;
xym *= 0.99999;
}
- obj2->win_cxxw = (float)(ym2/temp);
- obj2->win_cyyw = (float)(xm2/temp);
- obj2->win_cxyw = (float)(-2*xym/temp);
+ outobj2.win_cxxw = (float)(ym2/temp);
+ outobj2.win_cyyw = (float)(xm2/temp);
+ outobj2.win_cxyw = (float)(-2*xym/temp);
}
return;
@@ -610,16 +610,16 @@
dx2 = obj->poserr_mx2;
dy2 = obj->poserr_my2;
dxy = obj->poserr_mxy;
- obj2->poserr_mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
- obj2->poserr_my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
- obj2->poserr_mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
+ outobj2.poserr_mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
+ outobj2.poserr_my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
+ outobj2.poserr_mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
temp=xm2-ym2;
if (FLAG(obj2.poserr_thetaw))
{
- obj2->poserr_thetaw = (temp==0.0)? (45.0):(0.5*atan2(2.0*xym,temp)/DEG);
+ outobj2.poserr_thetaw = (temp==0.0)? (45.0):(0.5*atan2(2.0*xym,temp)/DEG);
if (as->wcs_flag && FLAG(obj2.poserr_thetas))
- obj2->poserr_thetas = obj2->poserr_thetaw
- + (obj2->poserr_thetaw>0.0? -90:90.0);
+ outobj2.poserr_thetas = outobj2.poserr_thetaw
+ + (outobj2.poserr_thetaw>0.0? -90:90.0);
/*-- Compute position angles in J2000 or B1950 reference frame */
if (as->wcs_flag)
@@ -628,23 +628,23 @@
if (FLAG(obj2.poserr_theta2000))
{
- da = as->ap2000 - obj2->alpha2000;
+ da = as->ap2000 - outobj2.alpha2000;
dd = (sin(as->dp2000*DEG)
- -sin(obj2->delta2000*DEG)*sin(obj2->deltas*DEG))
- /(cos(obj2->delta2000*DEG)*cos(obj2->deltas*DEG));
+ -sin(outobj2.delta2000*DEG)*sin(outobj2.deltas*DEG))
+ /(cos(outobj2.delta2000*DEG)*cos(outobj2.deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->poserr_theta2000 = obj2->poserr_thetas
+ outobj2.poserr_theta2000 = outobj2.poserr_thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
if (FLAG(obj2.poserr_theta1950))
{
- da = as->ap1950 - obj2->alpha1950;
+ da = as->ap1950 - outobj2.alpha1950;
dd = (sin(as->dp1950*DEG)
- -sin(obj2->delta1950*DEG)*sin(obj2->deltas*DEG))
- /(cos(obj2->delta1950*DEG)*cos(obj2->deltas*DEG));
+ -sin(outobj2.delta1950*DEG)*sin(outobj2.deltas*DEG))
+ /(cos(outobj2.delta1950*DEG)*cos(outobj2.deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->poserr_theta1950 = obj2->poserr_thetas
+ outobj2.poserr_theta1950 = outobj2.poserr_thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
}
@@ -654,8 +654,8 @@
{
temp = sqrt(0.25*temp*temp+xym*xym);
pm2 = 0.5*(xm2+ym2);
- obj2->poserr_aw = (float)sqrt(pm2+temp);
- obj2->poserr_bw = (float)sqrt(pm2-temp);
+ outobj2.poserr_aw = (float)sqrt(pm2+temp);
+ outobj2.poserr_bw = (float)sqrt(pm2-temp);
}
if (FLAG(obj2.poserr_cxxw))
@@ -666,9 +666,9 @@
temp = 1e-6;
xym *= 0.99999;
}
- obj2->poserr_cxxw = (float)(ym2/temp);
- obj2->poserr_cyyw = (float)(xm2/temp);
- obj2->poserr_cxyw = (float)(-2*xym/temp);
+ outobj2.poserr_cxxw = (float)(ym2/temp);
+ outobj2.poserr_cyyw = (float)(xm2/temp);
+ outobj2.poserr_cxyw = (float)(-2*xym/temp);
}
return;
@@ -703,19 +703,19 @@
lm3 = lm[lat+naxis*lat];
/* All WORLD params based on 2nd order moments have to pass through here */
- dx2 = obj2->winposerr_mx2;
- dy2 = obj2->winposerr_my2;
- dxy = obj2->winposerr_mxy;
- obj2->winposerr_mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
- obj2->winposerr_my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
- obj2->winposerr_mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
+ dx2 = outobj2.winposerr_mx2;
+ dy2 = outobj2.winposerr_my2;
+ dxy = outobj2.winposerr_mxy;
+ outobj2.winposerr_mx2w = xm2 = lm0*lm0*dx2 + lm1*lm1*dy2 + lm0*lm1*dxy;
+ outobj2.winposerr_my2w = ym2 = lm2*lm2*dx2 + lm3*lm3*dy2 + lm2*lm3*dxy;
+ outobj2.winposerr_mxyw = xym = lm0*lm2*dx2 + lm1*lm3*dy2 + (lm0*lm3+lm1*lm2)*dxy;
temp=xm2-ym2;
if (FLAG(obj2.winposerr_thetaw))
{
- obj2->winposerr_thetaw = (temp==0.0)? (45.0):(0.5*atan2(2.0*xym,temp)/DEG);
+ outobj2.winposerr_thetaw = (temp==0.0)? (45.0):(0.5*atan2(2.0*xym,temp)/DEG);
if (as->wcs_flag && FLAG(obj2.winposerr_thetas))
- obj2->winposerr_thetas = obj2->winposerr_thetaw
- + (obj2->winposerr_thetaw>0.0? -90:90.0);
+ outobj2.winposerr_thetas = outobj2.winposerr_thetaw
+ + (outobj2.winposerr_thetaw>0.0? -90:90.0);
/*-- Compute position angles in J2000 or B1950 reference frame */
if (as->wcs_flag)
@@ -724,23 +724,23 @@
if (FLAG(obj2.winposerr_theta2000))
{
- da = as->ap2000 - obj2->winpos_alpha2000;
+ da = as->ap2000 - outobj2.winpos_alpha2000;
dd = (sin(as->dp2000*DEG)
- -sin(obj2->winpos_delta2000*DEG)*sin(obj2->winpos_deltas*DEG))
- /(cos(obj2->winpos_delta2000*DEG)*cos(obj2->winpos_deltas*DEG));
+ -sin(outobj2.winpos_delta2000*DEG)*sin(outobj2.winpos_deltas*DEG))
+ /(cos(outobj2.winpos_delta2000*DEG)*cos(outobj2.winpos_deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->winposerr_theta2000 = obj2->winposerr_thetas
+ outobj2.winposerr_theta2000 = outobj2.winposerr_thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
if (FLAG(obj2.winposerr_theta1950))
{
- da = as->ap1950 - obj2->winpos_alpha1950;
+ da = as->ap1950 - outobj2.winpos_alpha1950;
dd = (sin(as->dp1950*DEG)
- -sin(obj2->winpos_delta1950*DEG)*sin(obj2->winpos_deltas*DEG))
- /(cos(obj2->winpos_delta1950*DEG)*cos(obj2->winpos_deltas*DEG));
+ -sin(outobj2.winpos_delta1950*DEG)*sin(outobj2.winpos_deltas*DEG))
+ /(cos(outobj2.winpos_delta1950*DEG)*cos(outobj2.winpos_deltas*DEG));
dd = dd<1.0? (dd>-1.0?acos(dd)/DEG:180.0) : 0.0;
- obj2->winposerr_theta1950 = obj2->winposerr_thetas
+ outobj2.winposerr_theta1950 = outobj2.winposerr_thetas
+ (((da>0.0 && da<180.0) || da<-180.0)?-dd:dd);
}
}
@@ -750,8 +750,8 @@
{
temp = sqrt(0.25*temp*temp+xym*xym);
pm2 = 0.5*(xm2+ym2);
- obj2->winposerr_aw = (float)sqrt(pm2+temp);
- obj2->winposerr_bw = (float)sqrt(pm2-temp);
+ outobj2.winposerr_aw = (float)sqrt(pm2+temp);
+ outobj2.winposerr_bw = (float)sqrt(pm2-temp);
}
if (FLAG(obj2.winposerr_cxxw))
@@ -762,9 +762,9 @@
temp = 1e-6;
xym *= 0.99999;
}
- obj2->winposerr_cxxw = (float)(ym2/temp);
- obj2->winposerr_cyyw = (float)(xm2/temp);
- obj2->winposerr_cxyw = (float)(-2*xym/temp);
+ outobj2.winposerr_cxxw = (float)(ym2/temp);
+ outobj2.winposerr_cyyw = (float)(xm2/temp);
+ outobj2.winposerr_cxyw = (float)(-2*xym/temp);
}
return;
diff -ur sextractor-2.5.0.old/src/fits/fitsmisc.c sextractor-2.5.0/src/fits/fitsmisc.c
--- sextractor-2.5.0.old/src/fits/fitsmisc.c 2006-07-14 19:21:00.000000000 +0200
+++ sextractor-2.5.0/src/fits/fitsmisc.c 2006-07-25 23:32:17.000000000 +0200
@@ -114,48 +114,63 @@
void swapbytes(void *ptr, int nb, int n)
{
char *cp;
+ char t;
int j;
- cp = (char *)ptr;
+ cp = (char *)ptr;
- if (nb&4)
- {
- for (j=n; j--; cp+=4)
- {
- cp[0] ^= (cp[3]^=(cp[0]^=cp[3]));
- cp[1] ^= (cp[2]^=(cp[1]^=cp[2]));
- }
- return;
- }
-
- if (nb&2)
- {
- for (j=n; j--; cp+=2)
- cp[0] ^= (cp[1]^=(cp[0]^=cp[1]));
- return;
- }
+ if (nb == 4)
+ {
+ for (j=n; j--; cp+=4)
+ {
+ t = cp[0];
+ cp[0] = cp[3];
+ cp[3] = t;
+ t = cp[1];
+ cp[1] = cp[2];
+ cp[2] = t;
+ }
+ }
+ else if (nb == 2)
+ {
+ for (j=n; j--; cp+=2)
+ {
+ t = cp[0];
+ cp[0] = cp[1];
+ cp[1] = t;
+ }
+ }
+ else if (nb == 8)
+ {
+ for (j=n; j--; cp+=8)
+ {
+ t = cp[0];
+ cp[0] = cp[7];
+ cp[7] = t;
+ t = cp[1];
+ cp[1] = cp[6];
+ cp[6] = t;
+ t = cp[2];
+ cp[2] = cp[5];
+ cp[5] = t;
+ t = cp[3];
+ cp[3] = cp[4];
+ cp[4] = t;
+ }
+ }
+ else if (nb == 1)
+ {
+ /* noop */
+ }
- if (nb&1)
- return;
-
- if (nb&8)
- {
- for (j=n; j--; cp+=8)
- {
- cp[0] ^= (cp[7]^=(cp[0]^=cp[7]));
- cp[1] ^= (cp[6]^=(cp[1]^=cp[6]));
- cp[2] ^= (cp[5]^=(cp[2]^=cp[5]));
- cp[3] ^= (cp[4]^=(cp[3]^=cp[4]));
- }
- return;
- }
-
- error(EXIT_FAILURE, "*Internal Error*: Unknown size in ", "swapbytes()");
+ else
+ error(EXIT_FAILURE, "*Internal Error*: Unknown size in ", "swapbytes()");
return;
}
+
/****** wstrncmp ***************************************************************
PROTO int wstrncmp(char *cs, char *ct, int n)
PURPOSE simple wildcard strcmp.
diff -ur sextractor-2.5.0.old/src/growth.c sextractor-2.5.0/src/growth.c
--- sextractor-2.5.0.old/src/growth.c 2005-10-24 13:48:52.000000000 +0200
+++ sextractor-2.5.0/src/growth.c 2006-07-25 23:27:35.000000000 +0200
@@ -32,7 +32,7 @@
static double *growth;
static int ngrowth;
-static obj2struct *obj2 = &outobj2;
+/* static obj2struct *obj2 = &outobj2; */
/******************************** initgrowth *********************************/
/*
@@ -45,7 +45,7 @@
/* Quick (and dirty) fix to allow FLUX_RADIUS support */
if (FLAG(obj2.flux_radius) && !prefs.flux_radiussize)
{
- QCALLOC(obj2->flux_radius, float, 1);
+ QCALLOC(outobj2.flux_radius, float, 1);
}
return;
@@ -60,7 +60,7 @@
{
free(growth);
if (FLAG(obj2.flux_radius) && !prefs.flux_radiussize)
- free(obj2->flux_radius);
+ free(outobj2.flux_radius);
return;
}
@@ -284,8 +284,8 @@
{
n = prefs.flux_growthsize;
if (FLAG(obj2.flux_growthstep))
- obj2->flux_growthstep = rlim/n;
- fgrowth = obj2->flux_growth;
+ outobj2.flux_growthstep = rlim/n;
+ fgrowth = outobj2.flux_growth;
step2 = (double)GROWTH_NSTEP/n;
j = 1;
for (i=n; i--; j++)
@@ -305,8 +305,8 @@
{
n = prefs.mag_growthsize;
if (FLAG(obj2.mag_growthstep))
- obj2->mag_growthstep = rlim/n;
- fgrowth = obj2->mag_growth;
+ outobj2.mag_growthstep = rlim/n;
+ fgrowth = outobj2.mag_growth;
step2 = (double)GROWTH_NSTEP/n;
j = 1;
for (i=n; i--; j++)
@@ -328,10 +328,10 @@
n = ngrowth-1;
for (j=0; j<prefs.nflux_frac; j++)
{
- tv = prefs.flux_frac[j]*obj2->flux_auto;
+ tv = prefs.flux_frac[j]*outobj2.flux_auto;
growtht = growth-1;
for (i=0; i<n && *(++growtht)<tv; i++);
- obj2->flux_radius[j] = step
+ outobj2.flux_radius[j] = step
*(i? ((dg=*growtht - *(growtht-1)) != 0.0 ?
i + (tv - *(growtht-1))/dg
: i)
@@ -343,10 +343,10 @@
if (FLAG(obj2.hl_radius))
{
n = ngrowth-1;
- tv = 0.5*obj2->flux_auto;
+ tv = 0.5*outobj2.flux_auto;
growtht = growth-1;
for (i=0; i<n && *(++growtht)<tv; i++);
- obj2->hl_radius = step*(i? ((dg=*growtht - *(growtht-1)) != 0.0 ?
+ outobj2.hl_radius = step*(i? ((dg=*growtht - *(growtht-1)) != 0.0 ?
i + (tv - *(growtht-1))/dg
: i)
: (*growth !=0.0 ?tv/(*growth) : 0.0));
diff -ur sextractor-2.5.0.old/src/pc.c sextractor-2.5.0/src/pc.c
--- sextractor-2.5.0.old/src/pc.c 2005-10-24 13:48:52.000000000 +0200
+++ sextractor-2.5.0/src/pc.c 2006-07-25 23:27:45.000000000 +0200
@@ -32,7 +32,7 @@
#include "poly.h"
#include "psf.h"
-static obj2struct *obj2 = &outobj2;
+/* static obj2struct *obj2 = &outobj2; */
/****** pc_end ***************************************************************
PROTO void pc_end(pcstruct *pc)
@@ -361,22 +361,22 @@
/*-- Copy the derived physical quantities to output parameters */
/*-- (subject to changes) */
- obj2->flux_galfit = fscale;
- obj2->gdposang = fparam[1];
- if (obj2->gdposang>90.0)
- obj2->gdposang -= 180.0;
- else if (obj2->gdposang<-90.0)
- obj2->gdposang += 180.0;
- obj2->gdscale = fparam[2];
- obj2->gdaspect = fparam[3];
- ellip = (1.0 - obj2->gdaspect)/(1.0 + obj2->gdaspect);
- obj2->gde1 = (float)(ellip*cos(2*obj2->gdposang*PI/180.0));
- obj2->gde2 = (float)(ellip*sin(2*obj2->gdposang*PI/180.0));
+ outobj2.flux_galfit = fscale;
+ outobj2.gdposang = fparam[1];
+ if (outobj2.gdposang>90.0)
+ outobj2.gdposang -= 180.0;
+ else if (outobj2.gdposang<-90.0)
+ outobj2.gdposang += 180.0;
+ outobj2.gdscale = fparam[2];
+ outobj2.gdaspect = fparam[3];
+ ellip = (1.0 - outobj2.gdaspect)/(1.0 + outobj2.gdaspect);
+ outobj2.gde1 = (float)(ellip*cos(2*outobj2.gdposang*PI/180.0));
+ outobj2.gde2 = (float)(ellip*sin(2*outobj2.gdposang*PI/180.0));
/*---- Copy the best-fitting PCs to the VECTOR_PC output vector */
if (FLAG(obj2.vector_pc))
{
solt = sol;
- ppix = obj2->vector_pc;
+ ppix = outobj2.vector_pc;
for (c=prefs.pc_vectorsize>npc?npc:prefs.pc_vectorsize; c--;)
*(ppix++) = *(solt++);
}
@@ -397,9 +397,9 @@
xym += val**(mxyt++);
}
- obj2->mx2_pc = xm2;
- obj2->my2_pc = ym2;
- obj2->mxy_pc = xym;
+ outobj2.mx2_pc = xm2;
+ outobj2.my2_pc = ym2;
+ outobj2.mxy_pc = xym;
if (FLAG(obj2.a_pc))
{
@@ -421,9 +421,9 @@
pmx2 += temp;
pmy2 -= temp;
- obj2->a_pc = (float)sqrt(pmx2);
- obj2->b_pc = (float)sqrt(pmy2);
- obj2->theta_pc = (float)(theta*180.0/PI);
+ outobj2.a_pc = (float)sqrt(pmx2);
+ outobj2.b_pc = (float)sqrt(pmy2);
+ outobj2.theta_pc = (float)(theta*180.0/PI);
}
/* CHECK-Images */
diff -ur sextractor-2.5.0.old/src/photom.c sextractor-2.5.0/src/photom.c
--- sextractor-2.5.0.old/src/photom.c 2005-10-24 13:48:52.000000000 +0200
+++ sextractor-2.5.0/src/photom.c 2006-07-25 23:27:55.000000000 +0200
@@ -27,7 +27,7 @@
#include "photom.h"
#include "plist.h"
-static obj2struct *obj2 = &outobj2;
+/* static obj2struct *obj2 = &outobj2; */
/***************************** computeaperflux********************************/
/*
@@ -184,13 +184,13 @@
}
if (i<prefs.flux_apersize)
- obj2->flux_aper[i] = tv;
+ outobj2.flux_aper[i] = tv;
if (i<prefs.fluxerr_apersize)
- obj2->fluxerr_aper[i] = sqrt(sigtv);
+ outobj2.fluxerr_aper[i] = sqrt(sigtv);
if (i<prefs.mag_apersize)
- obj2->mag_aper[i] = tv>0.0? -2.5*log10(tv) + prefs.mag_zeropoint : 99.0;
+ outobj2.mag_aper[i] = tv>0.0? -2.5*log10(tv) + prefs.mag_zeropoint : 99.0;
if (i<prefs.magerr_apersize)
- obj2->magerr_aper[i] = tv>0.0? 1.086*sqrt(sigtv)/tv:99.0;
+ outobj2.magerr_aper[i] = tv>0.0? 1.086*sqrt(sigtv)/tv:99.0;
return;
}
@@ -346,12 +346,12 @@
/*-- Go further only if some pixels are available !! */
if (areanum && areaden && munum && muden)
{
- obj2->petrofactor = prefs.petroparam[0]*kmea;
- if (obj2->petrofactor < prefs.petroparam[1])
- obj2->petrofactor = prefs.petroparam[1];
+ outobj2.petrofactor = prefs.petroparam[0]*kmea;
+ if (outobj2.petrofactor < prefs.petroparam[1])
+ outobj2.petrofactor = prefs.petroparam[1];
}
else
- obj2->petrofactor = prefs.petroparam[1];
+ outobj2.petrofactor = prefs.petroparam[1];
/*-- Flag if the Petrosian photometry can be strongly affected by neighhours */
if ((float)areab/area > CROWD_THRESHOLD)
@@ -360,16 +360,16 @@
/*-- Second step: integrate within the ellipse */
/*-- Clip boundaries in x and y (bis) */
/*-- We first check that the derived ellipse is large enough... */
- if (obj2->petrofactor*sqrt(obj->a*obj->b)>prefs.autoaper[1]/2.0)
+ if (outobj2.petrofactor*sqrt(obj->a*obj->b)>prefs.autoaper[1]/2.0)
{
cx2 = obj->cxx;
cy2 = obj->cyy;
cxy = obj->cxy;
dxlim = cx2 - cxy*cxy/(4.0*cy2);
- dxlim = dxlim>0.0 ? obj2->petrofactor/sqrt(dxlim) : 0.0;
+ dxlim = dxlim>0.0 ? outobj2.petrofactor/sqrt(dxlim) : 0.0;
dylim = cy2 - cxy*cxy/(4.0*cx2);
- dylim = dylim > 0.0 ? obj2->petrofactor/sqrt(dylim) : 0.0;
- klim2 = obj2->petrofactor*obj2->petrofactor;
+ dylim = dylim > 0.0 ? outobj2.petrofactor/sqrt(dylim) : 0.0;
+ klim2 = outobj2.petrofactor*outobj2.petrofactor;
}
else
/*---- ...if not, use the circular aperture provided by the user */
@@ -378,7 +378,7 @@
cxy = 0.0;
dxlim = dylim = prefs.autoaper[1]/2.0;
klim2 = dxlim*dxlim;
- obj2->petrofactor = 0.0;
+ outobj2.petrofactor = 0.0;
}
if ((xmin = RINT(mx-dxlim)) < 0)
@@ -479,19 +479,19 @@
tv = sigtv = 0.0;
- obj2->flux_petro = tv;
- obj2->fluxerr_petro = sqrt(sigtv);
+ outobj2.flux_petro = tv;
+ outobj2.fluxerr_petro = sqrt(sigtv);
if (FLAG(obj2.mag_petro))
- obj2->mag_petro = obj2->flux_petro>0.0?
- -2.5*log10(obj2->flux_petro) + prefs.mag_zeropoint
+ outobj2.mag_petro = outobj2.flux_petro>0.0?
+ -2.5*log10(outobj2.flux_petro) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_petro))
- obj2->magerr_petro = obj2->flux_petro>0.0?
- 1.086*obj2->fluxerr_petro/obj2->flux_petro
+ outobj2.magerr_petro = outobj2.flux_petro>0.0?
+ 1.086*outobj2.fluxerr_petro/outobj2.flux_petro
:99.0;
if (tv<=0.0)
- obj2->petrofactor = 0.0;
+ outobj2.petrofactor = 0.0;
return;
}
@@ -617,12 +617,12 @@
/*-- Go further only if some pixels are available !! */
if (r1>0.0 && v1>0.0)
{
- obj2->kronfactor = prefs.autoparam[0]*r1/v1;
- if (obj2->kronfactor < prefs.autoparam[1])
- obj2->kronfactor = prefs.autoparam[1];
+ outobj2.kronfactor = prefs.autoparam[0]*r1/v1;
+ if (outobj2.kronfactor < prefs.autoparam[1])
+ outobj2.kronfactor = prefs.autoparam[1];
}
else
- obj2->kronfactor = prefs.autoparam[1];
+ outobj2.kronfactor = prefs.autoparam[1];
/*-- Flag if the Kron photometry can be strongly affected by neighhours */
if ((float)areab/area > CROWD_THRESHOLD)
@@ -631,16 +631,16 @@
/*-- Second step: integrate within the ellipse */
/*-- Clip boundaries in x and y (bis) */
/*-- We first check that the derived ellipse is large enough... */
- if (obj2->kronfactor*sqrt(obj->a*obj->b)>prefs.autoaper[1]/2.0)
+ if (outobj2.kronfactor*sqrt(obj->a*obj->b)>prefs.autoaper[1]/2.0)
{
cx2 = obj->cxx;
cy2 = obj->cyy;
cxy = obj->cxy;
dxlim = cx2 - cxy*cxy/(4.0*cy2);
- dxlim = dxlim>0.0 ? obj2->kronfactor/sqrt(dxlim) : 0.0;
+ dxlim = dxlim>0.0 ? outobj2.kronfactor/sqrt(dxlim) : 0.0;
dylim = cy2 - cxy*cxy/(4.0*cx2);
- dylim = dylim > 0.0 ? obj2->kronfactor/sqrt(dylim) : 0.0;
- klim2 = obj2->kronfactor*obj2->kronfactor;
+ dylim = dylim > 0.0 ? outobj2.kronfactor/sqrt(dylim) : 0.0;
+ klim2 = outobj2.kronfactor*outobj2.kronfactor;
}
else
/*---- ...if not, use the circular aperture provided by the user */
@@ -649,7 +649,7 @@
cxy = 0.0;
dxlim = dylim = prefs.autoaper[1]/2.0;
klim2 = dxlim*dxlim;
- obj2->kronfactor = 0.0;
+ outobj2.kronfactor = 0.0;
}
if ((xmin = RINT(mx-dxlim)) < 0)
@@ -750,19 +750,19 @@
tv = sigtv = 0.0;
- obj2->flux_auto = tv;
- obj2->fluxerr_auto = sqrt(sigtv);
+ outobj2.flux_auto = tv;
+ outobj2.fluxerr_auto = sqrt(sigtv);
if (FLAG(obj2.mag_auto))
- obj2->mag_auto = obj2->flux_auto>0.0?
- -2.5*log10(obj2->flux_auto) + prefs.mag_zeropoint
+ outobj2.mag_auto = outobj2.flux_auto>0.0?
+ -2.5*log10(outobj2.flux_auto) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_auto))
- obj2->magerr_auto = obj2->flux_auto>0.0?
- 1.086*obj2->fluxerr_auto/obj2->flux_auto
+ outobj2.magerr_auto = outobj2.flux_auto>0.0?
+ 1.086*outobj2.fluxerr_auto/outobj2.flux_auto
:99.0;
if (tv<=0.0)
- obj2->kronfactor = 0.0;
+ outobj2.kronfactor = 0.0;
return;
}
@@ -782,7 +782,7 @@
ati = 1.0;
else if (ati<0.0)
ati = 0.0;
- obj2->flux_isocor = obj->flux/(1.0-0.196099*ati-0.751208*ati*ati);
+ outobj2.flux_isocor = obj->flux/(1.0-0.196099*ati-0.751208*ati*ati);
if (FLAG(obj2.fluxerr_isocor))
{
if (obj->flux>0.0)
@@ -792,10 +792,10 @@
sigtv = obj->fluxerr/(obj->flux*obj->flux);
dati = obj->fdnpix?ati*sqrt(sigtv+1.0/obj->fdnpix): 0.0;
dati = 0.196099*dati + 0.751208*2*ati*dati;
- obj2->fluxerr_isocor = sqrt(sigtv+dati*dati)*obj->flux;
+ outobj2.fluxerr_isocor = sqrt(sigtv+dati*dati)*obj->flux;
}
else
- obj2->fluxerr_isocor = sqrt(obj->fluxerr);
+ outobj2.fluxerr_isocor = sqrt(obj->fluxerr);
}
return;
@@ -811,22 +811,22 @@
{
/* Mag. isophotal */
if (FLAG(obj2.mag_iso))
- obj2->mag_iso = obj2->flux_iso>0.0?
- -2.5*log10(obj2->flux_iso) + prefs.mag_zeropoint
+ outobj2.mag_iso = outobj2.flux_iso>0.0?
+ -2.5*log10(outobj2.flux_iso) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_iso))
- obj2->magerr_iso = obj2->flux_iso>0.0?
- 1.086*obj2->fluxerr_iso/obj2->flux_iso
+ outobj2.magerr_iso = outobj2.flux_iso>0.0?
+ 1.086*outobj2.fluxerr_iso/outobj2.flux_iso
:99.0;
/* Mag. isophotal corrected */
if (FLAG(obj2.mag_isocor))
- obj2->mag_isocor = obj2->flux_isocor>0.0?
- -2.5*log10(obj2->flux_isocor) + prefs.mag_zeropoint
+ outobj2.mag_isocor = outobj2.flux_isocor>0.0?
+ -2.5*log10(outobj2.flux_isocor) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_isocor))
- obj2->magerr_isocor = obj2->flux_isocor>0.0?
- 1.086*obj2->fluxerr_isocor/obj2->flux_isocor
+ outobj2.magerr_isocor = outobj2.flux_isocor>0.0?
+ 1.086*outobj2.fluxerr_isocor/outobj2.flux_isocor
:99.0;
/* Choose the ``best'' flux according to the local crowding */
@@ -835,63 +835,63 @@
{
if (obj->flag&OBJ_CROWDED)
{
- obj2->flux_best = obj2->flux_isocor;
- obj2->fluxerr_best = obj2->fluxerr_isocor;
+ outobj2.flux_best = outobj2.flux_isocor;
+ outobj2.fluxerr_best = outobj2.fluxerr_isocor;
}
else
{
- obj2->flux_best = obj2->flux_auto;
- obj2->fluxerr_best = obj2->fluxerr_auto;
+ outobj2.flux_best = outobj2.flux_auto;
+ outobj2.fluxerr_best = outobj2.fluxerr_auto;
}
}
/* Mag. Best */
if (FLAG(obj2.mag_best))
- obj2->mag_best = obj2->flux_best>0.0?
- -2.5*log10(obj2->flux_best) + prefs.mag_zeropoint
+ outobj2.mag_best = outobj2.flux_best>0.0?
+ -2.5*log10(outobj2.flux_best) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_best))
- obj2->magerr_best = obj2->flux_best>0.0?
- 1.086*obj2->fluxerr_best/obj2->flux_best
+ outobj2.magerr_best = outobj2.flux_best>0.0?
+ 1.086*outobj2.fluxerr_best/outobj2.flux_best
:99.0;
/* Mag. SOM-fit */
if (FLAG(obj2.mag_somfit))
- obj2->mag_somfit = obj2->flux_somfit>0.0?
- -2.5*log10(obj2->flux_somfit) + prefs.mag_zeropoint
+ outobj2.mag_somfit = outobj2.flux_somfit>0.0?
+ -2.5*log10(outobj2.flux_somfit) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_somfit))
- obj2->magerr_somfit = obj2->flux_somfit>0.0?
- 1.086*obj2->fluxerr_somfit/obj2->flux_somfit
+ outobj2.magerr_somfit = outobj2.flux_somfit>0.0?
+ 1.086*outobj2.fluxerr_somfit/outobj2.flux_somfit
:99.0;
/* Mag. PROFILE */
if (FLAG(obj2.mag_prof))
- obj2->mag_prof = obj2->flux_prof>0.0?
- -2.5*log10(obj2->flux_prof) + prefs.mag_zeropoint
+ outobj2.mag_prof = outobj2.flux_prof>0.0?
+ -2.5*log10(outobj2.flux_prof) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_prof))
- obj2->magerr_prof = obj2->flux_prof>0.0?
- 1.086*obj2->fluxerr_prof/obj2->flux_prof
+ outobj2.magerr_prof = outobj2.flux_prof>0.0?
+ 1.086*outobj2.fluxerr_prof/outobj2.flux_prof
:99.0;
/* Mag. WINdowed */
if (FLAG(obj2.mag_win))
- obj2->mag_win = obj2->flux_win>0.0?
- -2.5*log10(obj2->flux_win) + prefs.mag_zeropoint
+ outobj2.mag_win = outobj2.flux_win>0.0?
+ -2.5*log10(outobj2.flux_win) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_win))
- obj2->magerr_win = obj2->flux_win>0.0?
- 1.086*obj2->fluxerr_win/obj2->flux_win
+ outobj2.magerr_win = outobj2.flux_win>0.0?
+ 1.086*outobj2.fluxerr_win/outobj2.flux_win
:99.0;
/* Mag. GALFIT */
if (FLAG(obj2.mag_galfit))
- obj2->mag_galfit = obj2->flux_galfit>0.0?
- -2.5*log10(obj2->flux_galfit) + prefs.mag_zeropoint
+ outobj2.mag_galfit = outobj2.flux_galfit>0.0?
+ -2.5*log10(outobj2.flux_galfit) + prefs.mag_zeropoint
:99.0;
if (FLAG(obj2.magerr_galfit))
- obj2->magerr_galfit = obj2->flux_galfit>0.0?
- 1.086*obj2->fluxerr_galfit/obj2->flux_galfit
+ outobj2.magerr_galfit = outobj2.flux_galfit>0.0?
+ 1.086*outobj2.fluxerr_galfit/outobj2.flux_galfit
:99.0;
/* SB units */
@@ -902,7 +902,7 @@
: 99.0;
if (FLAG(obj2.threshmu))
- obj2->threshmu = obj->thresh > 0.0 ?
+ outobj2.threshmu = obj->thresh > 0.0 ?
-2.5*log10((obj->thresh)
/ (field->pixscale * field->pixscale)) + prefs.mag_zeropoint
: 99.0;
diff -ur sextractor-2.5.0.old/src/psf.c sextractor-2.5.0/src/psf.c
--- sextractor-2.5.0.old/src/psf.c 2006-07-14 20:22:44.000000000 +0200
+++ sextractor-2.5.0/src/psf.c 2006-07-25 23:36:58.000000000 +0200
@@ -309,7 +309,7 @@
objstruct *obj)
{
checkstruct *check;
- static obj2struct *obj2 = &outobj2;
+ /* static obj2struct *obj2 = &outobj2; */
static double x2[PSF_NPSFMAX],y2[PSF_NPSFMAX],xy[PSF_NPSFMAX],
deltax[PSF_NPSFMAX],
deltay[PSF_NPSFMAX],flux[PSF_NPSFMAX],
@@ -349,8 +349,8 @@
thepsfit->npsf = 0;
for (j=0; j<npsfmax; j++)
{
- thepsfit->x[j] = obj2->posx;
- thepsfit->y[j] = obj2->posy;
+ thepsfit->x[j] = outobj2.posx;
+ thepsfit->y[j] = outobj2.posy;
thepsfit->flux[j] = 0.0;
}
@@ -377,7 +377,7 @@
if (prefs.psf_flag==1)
if (prefs.dpsf_flag!=1)
if(!FLAG(obj2.fluxerr_psf))
- QMALLOC(obj2->fluxerr_psf, float, prefs.psf_npsfmax);
+ QMALLOC(outobj2.fluxerr_psf, float, prefs.psf_npsfmax);
QMALLOC(weighth, PIXTYPE, npix);
QMALLOC(weight, double, npix);
@@ -556,7 +556,7 @@
deltaxb[j] = deltax[j];
deltayb[j] = deltay[j];
fluxb[j] = flux[j];
- obj2->fluxerr_psf[j]=fluxerr;
+ outobj2.fluxerr_psf[j]=fluxerr;
}
}
}
@@ -579,7 +579,7 @@
if (FLAG(obj2.poserrmx2_psf))
{
- compute_poserr(j,var,sol,obj2,x2,y2,xy);
+ compute_poserr(j,var,sol,&outobj2,x2,y2,xy);
}
else
var += 3*PSF_NA+3;
@@ -604,7 +604,7 @@
chi2 += pix*pix;
if (chi2>1E29) chi2=1E28;
}
- obj2->chi2_psf = obj->sigbkg>0.?
+ outobj2.chi2_psf = obj->sigbkg>0.?
chi2/((npix - 3*npsf)*obj->sigbkg*obj->sigbkg):999999;
}
@@ -623,7 +623,7 @@
chi2 += pix*pix;
if (chi2>1E29) chi2=1E28;
}
- obj2->chi2_psf = flux[j]>0?
+ outobj2.chi2_psf = flux[j]>0?
chi2/((npix - 3*npsf)*obj->sigbkg*obj->sigbkg):999999;
}
@@ -755,7 +755,7 @@
ival,npsfmax;
double *pvar;
- static obj2struct *obj2 = &outobj2;
+ /* static obj2struct *obj2 = &outobj2; */
checkdata = NULL; /* To avoid gcc -Wall warnings */
pdx = pdy =dx = dy = 0.0;
ppixstep = 1.0/ppsf->pixstep;
@@ -773,13 +773,13 @@
ppsfit->niter = 0;
ppsfit->npsf = 0;
if(!FLAG(obj2.fluxerr_psf))
- QMALLOC(obj2->fluxerr_psf, float, npsfmax);
+ QMALLOC(outobj2.fluxerr_psf, float, npsfmax);
for (j=0; j<npsfmax; j++)
{
ppsfit->x[j] = 999999.0;
ppsfit->y[j] = 999999.0;
ppsfit->flux[j] = 0.0;
- obj2->fluxerr_psf[j] = 0.0;
+ outobj2.fluxerr_psf[j] = 0.0;
pdeltax[j]= pdeltay[j]=psol[j]= pwmat[j]=pflux[j]=0.0;
}
@@ -923,7 +923,7 @@
{
svdvar(pvmat, pwmat, j, pcovmat);
pvar = pcovmat;
- obj2->fluxerr_psf[k]= sqrt(*pvar)>0.0 && sqrt(*pvar)<99?
+ outobj2.fluxerr_psf[k]= sqrt(*pvar)>0.0 && sqrt(*pvar)<99?
sqrt(*pvar):99;
}
}
@@ -940,7 +940,7 @@
chi2 += ppix*ppix;
if (chi2>1E29) chi2=1E28;
}
- obj2->chi2_psf = obj->sigbkg>0.?
+ outobj2.chi2_psf = obj->sigbkg>0.?
chi2/((npix - 3*npsf)*obj->sigbkg*obj->sigbkg):999999;
}
@@ -960,7 +960,7 @@
chi2 += ppix*ppix;
if (chi2>1E29) chi2=1E28;
}
- obj2->chi2_psf = pflux[j]>0?
+ outobj2.chi2_psf = pflux[j]>0?
chi2/((npix - 3*npsf)*obj->sigbkg*obj->sigbkg):999999;
}
@@ -1192,11 +1192,11 @@
covab = *(++var);
varb = *(var += PSF_NA);
var += PSF_NA+1;
- obj2->poserrmx2_psf = (vara*x2[j]*x2[j]+varb*xy[j]*xy[j]
+ outobj2.poserrmx2_psf = (vara*x2[j]*x2[j]+varb*xy[j]*xy[j]
+2*covab*x2[j]*xy[j])/(sol[0]*sol[0]);
- obj2->poserrmy2_psf = (varb*y2[j]*y2[j]+vara*xy[j]*xy[j]
+ outobj2.poserrmy2_psf = (varb*y2[j]*y2[j]+vara*xy[j]*xy[j]
+2*covab*y2[j]*xy[j])/(sol[0]*sol[0]);
- obj2->poserrmxy_psf = (vara*x2[j]*xy[j]+varb*y2[j]*xy[j]
+ outobj2.poserrmxy_psf = (vara*x2[j]*xy[j]+varb*y2[j]*xy[j]
+covab*(x2[j]*y2[j]+xy[j]*xy[j]))
/(sol[0]*sol[0]);
@@ -1205,19 +1205,19 @@
{
double pmx2,pmy2,temp,theta;
- if (fabs(temp=obj2->poserrmx2_psf-obj2->poserrmy2_psf) > 0.0)
- theta = atan2(2.0 * obj2->poserrmxy_psf,temp) / 2.0;
+ if (fabs(temp=outobj2.poserrmx2_psf-outobj2.poserrmy2_psf) > 0.0)
+ theta = atan2(2.0 * outobj2.poserrmxy_psf,temp) / 2.0;
else
theta = PI/4.0;
- temp = sqrt(0.25*temp*temp+obj2->poserrmxy_psf*obj2->poserrmxy_psf);
- pmy2 = pmx2 = 0.5*(obj2->poserrmx2_psf+obj2->poserrmy2_psf);
+ temp = sqrt(0.25*temp*temp+outobj2.poserrmxy_psf*outobj2.poserrmxy_psf);
+ pmy2 = pmx2 = 0.5*(outobj2.poserrmx2_psf+outobj2.poserrmy2_psf);
pmx2+=temp;
pmy2-=temp;
- obj2->poserra_psf = (float)sqrt(pmx2);
- obj2->poserrb_psf = (float)sqrt(pmy2);
- obj2->poserrtheta_psf = theta*180.0/PI;
+ outobj2.poserra_psf = (float)sqrt(pmx2);
+ outobj2.poserrb_psf = (float)sqrt(pmy2);
+ outobj2.poserrtheta_psf = theta*180.0/PI;
}
/*------ ...Or ellipse parameters */
@@ -1225,12 +1225,12 @@
{
double xm2,ym2, xym, temp;
- xm2 = obj2->poserrmx2_psf;
- ym2 = obj2->poserrmy2_psf;
- xym = obj2->poserrmxy_psf;
- obj2->poserrcxx_psf = (float)(ym2/(temp=xm2*ym2-xym*xym));
- obj2->poserrcyy_psf = (float)(xm2/temp);
- obj2->poserrcxy_psf = (float)(-2*xym/temp);
+ xm2 = outobj2.poserrmx2_psf;
+ ym2 = outobj2.poserrmy2_psf;
+ xym = outobj2.poserrmxy_psf;
+ outobj2.poserrcxx_psf = (float)(ym2/(temp=xm2*ym2-xym*xym));
+ outobj2.poserrcyy_psf = (float)(xm2/temp);
+ outobj2.poserrcxy_psf = (float)(-2*xym/temp);
}
return;
}
Index: sextractor.spec
===================================================================
RCS file: /cvs/extras/rpms/sextractor/FC-5/sextractor.spec,v
retrieving revision 1.4
retrieving revision 1.5
diff -u -r1.4 -r1.5
--- sextractor.spec 24 Jul 2006 11:39:25 -0000 1.4
+++ sextractor.spec 26 Jul 2006 16:19:34 -0000 1.5
@@ -1,12 +1,13 @@
Name: sextractor
Version: 2.5.0
-Release: 3%{?dist}
+Release: 4%{?dist}
Summary: Extract catalogs of sources from astronomical images
Group: Applications/Engineering
License: GPL
URL: http://terapix.iap.fr/soft/%{name}
Source0: ftp://ftp.iap.fr/pub/from_users/bertin/sextractor/%{name}-%{version}.tar.gz
+Patch0: sextractor-pointer-alias.patch
Buildroot: %{_tmppath}/%{name}-%{version}-%{release}-root-%(%{__id_u} -n)
%description
@@ -17,9 +18,10 @@
%prep
%setup -q
+%patch0 -p1
%build
-%configure CPPFLAGS="-DXSL_URL=\\\"file://%{_datadir}/%{name}/%{name}.xsl\\\""
+%configure
%{__make} %{?_smp_mflags}
@@ -42,6 +44,9 @@
%{_datadir}/%{name}/*
%changelog
+* Wed Jul 26 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.5.0-4
+- Patch to resolve pointer aliasing problems (bug #199700)
+- Removed -DXSL_URL flag, as the file sextractor.xsl does not exist yet
* Mon Jul 24 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.5.0-3
- Reverting optimization to -O2, it breaks debug infos
* Fri Jul 21 2006 Sergio Pascual <spr at astrax.fis.ucm.es> 2.5.0-2
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