profit.c 87.4 KB
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/****** profit_compresi ******************************************************
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PROTO	float *prof_compresi(profitstruct *profit, float dynparam,
			float *resi)
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PURPOSE	Compute the vector of residuals between the data and the galaxy
	profile model.
INPUT	Profile-fitting structure,
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	dynamic-compression parameter (0=no compression),
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	vector of residuals (output).
OUTPUT	Vector of residuals.
NOTES	-.
AUTHOR	E. Bertin (IAP)
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VERSION	07/09/2009
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 ***/
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float	*profit_compresi(profitstruct *profit, float dynparam, float *resi)
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  {
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   double	error;
   float	*resit;
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   PIXTYPE	*objpix, *objweight, *lmodpix,
		val,val2,wval, invsig;
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   int		npix, i;
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/* Compute vector of residuals */
  resit = resi;
  objpix = profit->objpix;
  objweight = profit->objweight;
  lmodpix = profit->lmodpix;
  error = 0.0;
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  npix = profit->objnaxisn[0]*profit->objnaxisn[1];
  if (dynparam > 0.0)
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    {
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    invsig = (PIXTYPE)(1.0/dynparam);
    for (i=npix; i--; lmodpix++)
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      {
      val = *(objpix++);
      if ((wval=*(objweight++))>0.0)
        {
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        val2 = (val - *lmodpix)*wval*invsig;
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        val2 = val2>0.0? logf(1.0+val2) : -logf(1.0-val2);
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        *(resit++) = val2*dynparam;
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        error += val2*val2;
        }
      }
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    profit->chi2 = dynparam*dynparam*error;
    }
  else
    {
    for (i=npix; i--; lmodpix++)
      {
      val = *(objpix++);
      if ((wval=*(objweight++))>0.0)
        {
        val2 = (val - *lmodpix)*wval;
        *(resit++) = val2;
        error += val2*val2;
        }
      }
    profit->chi2 = error;
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    }

  return resi;
  }


/****** profit_resample ******************************************************
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PROTO	void	prof_resample(profitstruct *profit, float *inpix,
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		PIXTYPE *outpix)
PURPOSE	Resample the current full resolution model to image resolution.
INPUT	Profile-fitting structure.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
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VERSION	07/09/2009
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 ***/
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void	profit_resample(profitstruct *profit, float *inpix, PIXTYPE *outpix,
	float factor)
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  {
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   double	flux;
   float	posin[2], posout[2], dnaxisn[2],
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		*dx,*dy,
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		xcout,ycout, xcin,ycin, invpixstep;
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   int		d,i;

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  xcout = (float)(profit->objnaxisn[0]/2) + 1.0;	/* FITS convention */
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  if ((dx=(profit->paramlist[PARAM_X])))
    xcout += *dx;
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  ycout = (float)(profit->objnaxisn[1]/2) + 1.0;	/* FITS convention */
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  if ((dy=(profit->paramlist[PARAM_Y])))
    ycout += *dy;
  xcin = (profit->modnaxisn[0]/2) + 1.0;		/* FITS convention */
  ycin = (profit->modnaxisn[1]/2) + 1.0;		/* FITS convention */
  invpixstep = 1.0/profit->pixstep;

/* Initialize multi-dimensional counters */
  for (d=0; d<2; d++)
    {
    posout[d] = 1.0;					/* FITS convention */
    dnaxisn[d] = profit->objnaxisn[d]+0.5;
    }

/* Remap each pixel */
  flux = 0.0;
  for (i=profit->objnaxisn[0]*profit->objnaxisn[1]; i--;)
    {
    posin[0] = (posout[0] - xcout)*invpixstep + xcin;
    posin[1] = (posout[1] - ycout)*invpixstep + ycin;
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    flux += ((*(outpix++) = (PIXTYPE)(factor*interpolate_pix(posin, inpix,
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		profit->modnaxisn, INTERP_LANCZOS3))));
    for (d=0; d<2; d++)
      if ((posout[d]+=1.0) < dnaxisn[d])
        break;
      else
        posout[d] = 1.0;
    }

  return;
  }


/****** profit_convolve *******************************************************
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PROTO	void profit_convolve(profitstruct *profit, float *modpix)
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PURPOSE	Convolve a model image with the local PSF.
INPUT	Pointer to the profit structure,
	Pointer to the image raster.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
VERSION	15/09/2008
 ***/
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void	profit_convolve(profitstruct *profit, float *modpix)
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  {
  if (!profit->psfdft)
    profit_makedft(profit);

  fft_conv(modpix, profit->psfdft, profit->modnaxisn);

  return;
  }


/****** profit_makedft *******************************************************
PROTO	void profit_makedft(profitstruct *profit)
PURPOSE	Create the Fourier transform of the descrambled PSF component.
INPUT	Pointer to the profit structure.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
VERSION	22/04/2008
 ***/
void	profit_makedft(profitstruct *profit)
  {
   psfstruct	*psf;
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   float      *mask,*maskt, *ppix;
   float       dx,dy, r,r2,rmin,rmin2,rmax,rmax2,rsig,invrsig2;
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   int          width,height,npix,offset, psfwidth,psfheight,psfnpix,
                cpwidth, cpheight,hcpwidth,hcpheight, i,j,x,y;

  if (!(psf=profit->psf))
    return;

  psfwidth = profit->modnaxisn[0];
  psfheight = profit->modnaxisn[1];
  psfnpix = psfwidth*psfheight;
  width = profit->modnaxisn[0];
  height = profit->modnaxisn[1];
  npix = width*height;
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  QCALLOC(mask, float, npix);
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  cpwidth = (width>psfwidth)?psfwidth:width;
  hcpwidth = cpwidth>>1;
  cpwidth = hcpwidth<<1;
  offset = width - cpwidth;
  cpheight = (height>psfheight)?psfheight:height;
  hcpheight = cpheight>>1;
  cpheight = hcpheight<<1;

/* Frame and descramble the PSF data */
  ppix = profit->psfpix + (psfheight/2)*psfwidth + psfwidth/2;
  maskt = mask;
  for (j=hcpheight; j--; ppix+=psfwidth)
    {
    for (i=hcpwidth; i--;)
      *(maskt++) = *(ppix++);      
    ppix -= cpwidth;
    maskt += offset;
    for (i=hcpwidth; i--;)
      *(maskt++) = *(ppix++);      
    }

  ppix = profit->psfpix + ((psfheight/2)-hcpheight)*psfwidth + psfwidth/2;
  maskt += width*(height-cpheight);
  for (j=hcpheight; j--; ppix+=psfwidth)
    {
    for (i=hcpwidth; i--;)
      *(maskt++) = *(ppix++);      
    ppix -= cpwidth;
    maskt += offset;
    for (i=hcpwidth; i--;)
      *(maskt++) = *(ppix++);      
    }

/* Truncate to a disk that has diameter = (box width) */
  rmax = cpwidth - 1.0 - hcpwidth;
  if (rmax > (r=hcpwidth))
    rmax = r;
  if (rmax > (r=cpheight-1.0-hcpheight))
    rmax = r;
  if (rmax > (r=hcpheight))
    rmax = r;
  if (rmax<1.0)
    rmax = 1.0;
  rmax2 = rmax*rmax;
  rsig = psf->fwhm/profit->pixstep;
  invrsig2 = 1/(2*rsig*rsig);
  rmin = rmax - (3*rsig);     /* 3 sigma annulus (almost no aliasing) */
  rmin2 = rmin*rmin;

  maskt = mask;
  dy = 0.0;
  for (y=hcpheight; y--; dy+=1.0)
    {
    dx = 0.0;
    for (x=hcpwidth; x--; dx+=1.0, maskt++)
      if ((r2=dx*dx+dy*dy)>rmin2)
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        *maskt *= (r2>rmax2)?0.0:expf((2*rmin*sqrtf(r2)-r2-rmin2)*invrsig2);
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    dx = -hcpwidth;
    maskt += offset;
    for (x=hcpwidth; x--; dx+=1.0, maskt++)
      if ((r2=dx*dx+dy*dy)>rmin2)
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        *maskt *= (r2>rmax2)?0.0:expf((2*rmin*sqrtf(r2)-r2-rmin2)*invrsig2);
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    }
  dy = -hcpheight;
  maskt += width*(height-cpheight);
  for (y=hcpheight; y--; dy+=1.0)
    {
    dx = 0.0;
    for (x=hcpwidth; x--; dx+=1.0, maskt++)
      if ((r2=dx*dx+dy*dy)>rmin2)
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        *maskt *= (r2>rmax2)?0.0:expf((2*rmin*sqrtf(r2)-r2-rmin2)*invrsig2);
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    dx = -hcpwidth;
    maskt += offset;
    for (x=hcpwidth; x--; dx+=1.0, maskt++)
      if ((r2=dx*dx+dy*dy)>rmin2)
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        *maskt *= (r2>rmax2)?0.0:expf((2*rmin*sqrtf(r2)-r2-rmin2)*invrsig2);
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    }

/* Finally move to Fourier space */
  profit->psfdft = fft_rtf(mask, profit->modnaxisn);

  free(mask);

  return;
  }


/****** profit_copyobjpix *****************************************************
PROTO	int profit_copyobjpix(profitstruct *profit, picstruct *field,
			picstruct *wfield)
PURPOSE	Copy a piece of the input field image to a profit structure.
INPUT	Pointer to the profit structure,
	Pointer to the field structure,
	Pointer to the field weight structure.
OUTPUT	The number of valid pixels copied.
NOTES	Global preferences are used.
AUTHOR	E. Bertin (IAP)
VERSION	18/09/2008
 ***/
int	profit_copyobjpix(profitstruct *profit, picstruct *field,
			picstruct *wfield)
  {
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   float	dx2, dy2, dr2, rad2;
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   PIXTYPE	*pixin,*pixout, *wpixin,*wpixout,
		backnoise2, invgain, satlevel, wthresh, pix, wpix;
   int		i,x,y, xmin,xmax,ymin,ymax, w,h,w2,dw, npix, off, gainflag,
		ix,iy;

/* First put the image background to -BIG */
  pixout = profit->objpix;
  wpixout = profit->objweight;
  w = profit->objnaxisn[0];
  h = profit->objnaxisn[1];
  for (i=w*h; i--;)
    {
    *(pixout++) = -BIG;
    *(wpixout++) = 0.0;
    }

/* Don't go further if out of frame!! */
  ix = profit->ix;
  iy = profit->iy;
  if (ix<0 || ix>=field->width || iy<field->ymin || iy>=field->ymax)
    return 0;

  backnoise2 = field->backsig*field->backsig;
  invgain = (field->gain > 0.0) ? 1.0/field->gain : 0.0;
  satlevel = field->satur_level - profit->obj->bkg;
  rad2 = h/2.0;
  if (rad2 > w/2.0)
    rad2 = w/2.0;
  rad2 *= rad2;


/* Set the image boundaries */
  pixout = profit->objpix;
  wpixout = profit->objweight;
  ymin = iy-h/2;
  ymax = ymin + h;
  if (ymin<field->ymin)
    {
    off = (field->ymin-ymin)*w;
    pixout += off;
    wpixout += off;
    ymin = field->ymin;
    }
  if (ymax>field->ymax)
    ymax = field->ymax;

  xmin = ix-w/2;
  xmax = xmin + w;
  w2 = w;
  if (xmax>field->width)
    {
    w2 -= xmax-field->width;
    xmax = field->width;
    }
  if (xmin<0)
    {
    pixout -= xmin;
    wpixout -= xmin;
    w2 += xmin;
    xmin = 0;
    }

/* Copy the right pixels to the destination */
  dw = w - w2;
  npix = 0;
  if (wfield)
    {
    wthresh = wfield->weight_thresh;
    gainflag = prefs.weightgain_flag;
/*-- Do the same for the weights */
    npix = 0;

    for (y=ymin; y<ymax; y++, pixout+=dw,wpixout+=dw)
      {
      dy2 = y-iy;
      dy2 *= dy2;
      pixin = &PIX(field, xmin, y);
      wpixin = &PIX(wfield, xmin, y);
      for (x=xmin; x<xmax; x++)
        {
        dx2 = (x-ix);
        dr2 = dy2 + dx2*dx2;
        pix = *(pixout++) = *(pixin++);
        if (dr2<rad2 && pix>-BIG && pix<satlevel && (wpix=*(wpixin++))<wthresh)
          {
          *(wpixout++) = 1.0 / sqrt(wpix+(pix>0.0?
		(gainflag? pix*wpix/backnoise2:pix)*invgain : 0.0));
          npix++;
          }
        else
          *(wpixout++) = 0.0;
        }
      }
    }
  else
    for (y=ymin; y<ymax; y++, pixout+=dw,wpixout+=dw)
      {
      dy2 = y-iy;
      dy2 *= dy2;
      pixin = &PIX(field, xmin, y);
      for (x=xmin; x<xmax; x++)
        {
        dx2 = (x-ix);
        dr2 = dy2 + dx2*dx2;
        pix = *(pixout++) = *(pixin++);
        if (dr2<rad2 && pix>-BIG)
          {
          *(wpixout++) = 1.0 / sqrt(backnoise2 + (pix>0.0?pix*invgain : 0.0));
          npix++;
          }
        else
          *(wpixout++) = 0.0;
        }
      }
 
  return npix;
  }


/****** profit_spiralindex ****************************************************
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PROTO	float profit_spiralindex(profitstruct *profit)
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PURPOSE	Compute the spiral index of a galaxy image (positive for arms
	extending counter-clockwise and negative for arms extending CW, 0 for
	no spiral pattern).
INPUT	Profile-fitting structure.
OUTPUT	Vector of residuals.
NOTES	-.
AUTHOR	E. Bertin (IAP)
VERSION	18/09/2008
 ***/
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float profit_spiralindex(profitstruct *profit)
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  {
   objstruct	*obj;
   obj2struct	*obj2;
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   float	*dx,*dy, *fdx,*fdy, *gdx,*gdy, *gdxt,*gdyt, *pix,
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		fwhm, invtwosigma2, hw,hh, ohw,ohh, x,y,xstart, tx,ty,txstart,
		gx,gy, r2, spirindex, invsig, val, sep;
   PIXTYPE	*fpix;
   int		i,j, npix;

  npix = profit->objnaxisn[0]*profit->objnaxisn[1];

  obj = profit->obj;
  obj2 = profit->obj2;
/* Compute simple derivative vectors at a fraction of the object scale */
  fwhm = obj2->hl_radius * 2.0 / 4.0;
  if (fwhm < 2.0)
    fwhm = 2.0;
  sep = 2.0;

  invtwosigma2 = -(2.35*2.35/(2.0*fwhm*fwhm));
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  hw = (float)(profit->objnaxisn[0]/2);
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  ohw = profit->objnaxisn[0] - hw;
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  hh = (float)(profit->objnaxisn[1]/2);
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  ohh = profit->objnaxisn[1] - hh;
  txstart = -hw;
  ty = -hh;
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  QMALLOC(dx, float, npix);
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  pix = dx;
  for (j=profit->objnaxisn[1]; j--; ty+=1.0)
    {
    tx = txstart;
    y = ty < -0.5? ty + hh : ty - ohh;
    for (i=profit->objnaxisn[0]; i--; tx+=1.0)
      {
      x = tx < -0.5? tx + hw : tx - ohw;
      *(pix++) = exp(invtwosigma2*((x+sep)*(x+sep)+y*y))
		- exp(invtwosigma2*((x-sep)*(x-sep)+y*y));
      }
    }
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  QMALLOC(dy, float, npix);
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  pix = dy;
  ty = -hh;
  for (j=profit->objnaxisn[1]; j--; ty+=1.0)
    {
    tx = txstart;
    y = ty < -0.5? ty + hh : ty - ohh;
    for (i=profit->objnaxisn[0]; i--; tx+=1.0)
      {
      x = tx < -0.5? tx + hw : tx - ohw;
      *(pix++) = exp(invtwosigma2*(x*x+(y+sep)*(y+sep)))
		- exp(invtwosigma2*(x*x+(y-sep)*(y-sep)));
      }
    }

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  QMALLOC(gdx, float, npix);
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  gdxt = gdx;
  fpix = profit->objpix;
  invsig = npix/profit->sigma;
  for (i=npix; i--; fpix++)
    {
    val = *fpix > -1e29? *fpix*invsig : 0.0;
    *(gdxt++) = (val>0.0? log(1.0+val) : -log(1.0-val));
    }
  gdy = NULL;			/* to avoid gcc -Wall warnings */
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  QMEMCPY(gdx, gdy, float, npix);
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  fdx = fft_rtf(dx, profit->objnaxisn);
  fft_conv(gdx, fdx, profit->objnaxisn);
  fdy = fft_rtf(dy, profit->objnaxisn);
  fft_conv(gdy, fdy, profit->objnaxisn);

/* Compute estimator */
  invtwosigma2 = -1.18*1.18 / (2.0*obj2->hl_radius*obj2->hl_radius);
  xstart = -hw - obj->mx + (int)(obj->mx+0.49999);
  y = -hh -  obj->my + (int)(obj->my+0.49999);;
  spirindex = 0.0;
  gdxt = gdx;
  gdyt = gdy;
  for (j=profit->objnaxisn[1]; j--; y+=1.0)
    {
    x = xstart;
    for (i=profit->objnaxisn[0]; i--; x+=1.0)
      {
      gx = *(gdxt++);
      gy = *(gdyt++);
      if ((r2=x*x+y*y)>0.0)
        spirindex += (x*y*(gx*gx-gy*gy)+gx*gy*(y*y-x*x))/r2
			* exp(invtwosigma2*r2);
      }
    }

  free(dx);
  free(dy);
  free(fdx);
  free(fdy);
  free(gdx);
  free(gdy);

  return spirindex;
  }


/****** profit_moments ****************************************************
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PROTO	void profit_moments(profitstruct *profit, obj2struct *obj2)
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PURPOSE	Compute the 2nd order moments from the unconvolved object model.
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INPUT	Profile-fitting structure,
	Pointer to obj2 structure.
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OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
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VERSION	17/09/2009
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 ***/
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void	 profit_moments(profitstruct *profit, obj2struct *obj2)
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  {
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   double	mx,my, sum, mx2,my2,mxy, den, temp,temp2,pmx2,theta;
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   float	*pix,
		hw,hh, x,y, xstart, val, r2max;
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   int		ix,iy;

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  hw = (float)(profit->modnaxisn[0]/2);
  hh = (float)(profit->modnaxisn[1]/2);
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  r2max = hw<hh? hw*hw : hh*hh;
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  xstart = -hw;
  y = -hh;
  pix = profit->modpix;
  mx2 = my2 = mxy = mx = my = sum = 0.0;
  for (iy=profit->modnaxisn[1]; iy--; y+=1.0)
    {
    x = xstart;
    for (ix=profit->modnaxisn[0]; ix--; x+=1.0)
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      if (y*y+x*x <= r2max)
        {
        val = *(pix++);
        sum += val;
        mx  += val*x;
        my  += val*y;
        mx2 += val*x*x;
        mxy += val*x*y;
        my2 += val*y*y;
        }
      else
        pix++;
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    }

  if (sum <= 1.0/BIG)
    sum = 1.0;
  mx /= sum;
  my /= sum;
  obj2->prof_mx2 = mx2 = mx2/sum - mx*mx;
  obj2->prof_my2 = my2 = my2/sum - my*my;
  obj2->prof_mxy = mxy = mxy/sum - mx*my;
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/* Handle fully correlated profiles (which cause a singularity...) */
  if ((temp2=mx2*my2-mxy*mxy)<0.00694)
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    {
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    mx2 += 0.0833333;
    my2 += 0.0833333;
    temp2 = mx2*my2-mxy*mxy;
    }

  if (FLAG(obj2.prof_e1))
    {
    if (mx2+my2 > 1.0/BIG)
      {
      obj2->prof_pol1 = (mx2 - my2) / (mx2+my2);
      obj2->prof_pol2 = 2.0*mxy / (mx2 + my2);
      if (temp2>=0.0)
        den = mx2+my2+2.0*sqrt(temp2);
      else
        den = mx2+my2;
      obj2->prof_e1 = (mx2 - my2) / den;
      obj2->prof_e2 = 2.0*mxy / den;
      }
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    else
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      obj2->prof_pol1 = obj2->prof_pol2 = obj2->prof_e1 = obj2->prof_e2 = 0.0;
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    }
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  if (FLAG(obj2.prof_cxx))
    {
    obj2->prof_cxx = (float)(my2/temp2);
    obj2->prof_cyy = (float)(mx2/temp2);
    obj2->prof_cxy = (float)(-2*mxy/temp2);
    }

  if (FLAG(obj2.prof_a))
    {
    if ((fabs(temp=mx2-my2)) > 0.0)
      theta = atan2(2.0 * mxy,temp) / 2.0;
    else
      theta = PI/4.0;

    temp = sqrt(0.25*temp*temp+mxy*mxy);
    pmx2 = 0.5*(mx2+my2);
    obj2->prof_a = (float)sqrt(pmx2 + temp);
    obj2->prof_b = (float)sqrt(pmx2 - temp);
    obj2->prof_theta = theta*180.0/PI;
    }

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  return;
  }


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/****** profit_surface ****************************************************
PROTO	void profit_surface(profitstruct *profit, obj2struct *obj2,
			double lostfluxfrac)
PURPOSE	Compute surface brightnesses from the unconvolved object model.
INPUT	Pointer to the profile-fitting structure,
	Pointer to obj2 structure,
	Fraction of total flux lost in model.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
VERSION	21/09/2009
 ***/
void	 profit_surface(profitstruct *profit, obj2struct *obj2,
			double lostfluxfrac)
  {
   double	dsum,dhsum,dsumoff, dhval, frac, seff;
   float	*spix, *spixt;
   int		i, npix, neff;

  npix = profit->modnaxisn[0]*profit->modnaxisn[1];
/* Sort model pixel values */
  spix = NULL;				/* to avoid gcc -Wall warnings */
  QMEMCPY(profit->modpix, spix, float, npix);
  hmedian(spix, npix);
  obj2->peak_prof = spix[npix-1];

  if (FLAG(obj2.fluxeff_prof))
    {
/*-- Build a cumulative distribution */
    dsum = 0.0;
    spixt = spix;
    for (i=npix; i--;)
      dsum += (double)*(spixt++);
/*-- Find matching surface brightness */
    if (lostfluxfrac > 1.0)
      lostfluxfrac = 0.0;
    dhsum = 0.5 * dsum / (1.0-lostfluxfrac);
    dsum = lostfluxfrac * dsum / (1.0-lostfluxfrac);
    neff = 0;
    spixt = spix;
    for (i=npix; i--;)
      if ((dsum += (double)*(spixt++)) >= dhsum)
        {
        neff = i;
        break;
        }
    dhval = (double)*(spixt-1);
    seff = neff;
    dsumoff = 0.0;
    if (spixt>=spix+2)
      if (dhval > 0.0 && (frac = (dsum - dhsum) / dhval) < 1.0)
        {
        seff += frac;
        dsumoff = frac*dhval;
        dhval = dsumoff + (1.0 - frac)*(double)*(spixt-2);
        }
    obj2->fluxeff_prof = dhval;
    if (FLAG(obj2.fluxmean_prof))
      {
      dsum = dsumoff;
      for (i=neff; i--;)
        dsum += (double)*(spixt++);
      obj2->fluxmean_prof = seff > 0.0? dsum / seff : 0.0;
      }
    }

  free(spix);

  return;
  }


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/****** profit_addparam *******************************************************
PROTO	void profit_addparam(profitstruct *profit, paramenum paramindex,
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PURPOSE	Add a profile parameter to the list of fitted items.
INPUT	Pointer to the profit structure,
	Parameter index,
	Pointer to the parameter pointer.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
VERSION	29/03/2007
 ***/
void	profit_addparam(profitstruct *profit, paramenum paramindex,
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		float **param)
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  {
/* Check whether the parameter has already be registered */
  if (profit->paramlist[paramindex])
/*-- Yes */
    *param = profit->paramlist[paramindex];
  else
/*-- No */
    {
    *param = profit->paramlist[paramindex] = &profit->param[profit->nparam];
    profit->paramindex[paramindex] = profit->nparam++;
    }

  return;
  }


/****** profit_resetparam ****************************************************
PROTO	void profit_resetparam(profitstruct *profit, paramenum paramtype)
PURPOSE	Set the initial, lower and upper boundary values of a profile parameter.
INPUT	Pointer to the profit structure,
	Parameter index.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
VERSION	25/09/2008
 ***/
void	profit_resetparam(profitstruct *profit, paramenum paramtype)
  {
   objstruct	*obj;
   obj2struct	*obj2;
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   float	param, parammin,parammax;
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  obj = profit->obj;
  obj2 = profit->obj2;
  param = parammin = parammax = 0.0;	/* Avoid gcc -Wall warnings*/
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  switch(paramtype)
    {
    case PARAM_BACK:
      param = 0.0;
      parammin = -6.0*obj->sigbkg;
      parammax =  6.0*obj->sigbkg;
      break;
    case PARAM_X:
      param = obj->mx - (int)(obj->mx+0.49999);
      parammin = -obj2->hl_radius*4;
      parammax =  obj2->hl_radius*4;
      break;
    case PARAM_Y:
      param = obj->my - (int)(obj->my+0.49999);
      parammin = -obj2->hl_radius*4;
      parammax =  obj2->hl_radius*4;
      break;
    case PARAM_SPHEROID_FLUX:
      param = obj2->flux_auto/2.0;
      parammin = -obj2->flux_auto/1000.0;
      parammax = 2*obj2->flux_auto;
      break;
    case PARAM_SPHEROID_REFF:
      param = obj2->hl_radius;
      parammin = 0.1;
      parammax = param * 4.0;
      break;
    case PARAM_SPHEROID_ASPECT:
      param = FLAG(obj2.prof_disk_flux)? 1.0 : obj->b/obj->a;
      parammin = FLAG(obj2.prof_disk_flux)? 0.5 : 0.01;
      parammax = 1.0;
      break;
    case PARAM_SPHEROID_POSANG:
      param = obj->theta;
      parammin = 0.0;
      parammax =  0.0;
      break;
    case PARAM_SPHEROID_SERSICN:
      param = 4.0;
      parammin = 1.0;
      parammax = 10.0;
      break;
    case PARAM_DISK_FLUX:
      param = obj2->flux_auto/2.0;
      parammin = -obj2->flux_auto/1000.0;
      parammax = 2*obj2->flux_auto;
      break;
    case PARAM_DISK_SCALE:	/* From scalelength to Re */
      param = obj2->hl_radius/1.67835*sqrt(obj->a/obj->b);
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      parammin = 0.1;
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      parammax = param * 4.0;
      break;
    case PARAM_DISK_ASPECT:
      param = obj->b/obj->a;
      parammin = 0.01;
      parammax = 1.0;
      break;
    case PARAM_DISK_POSANG:
      param = obj->theta;
      parammin = 0.0;
      parammax =  0.0;
      break;
    case PARAM_ARMS_FLUX:
      param = obj2->flux_auto/2.0;
      parammin = 0.0;
      parammax = obj2->flux_auto*2.0;
      break;
    case PARAM_ARMS_QUADFRAC:
      param = 0.5;
      parammin = 0.0;
      parammax = 1.0;
      break;
    case PARAM_ARMS_SCALE:
      param = 1.0;
      parammin = 0.5;
      parammax = 10.0;
      break;
    case PARAM_ARMS_START:
      param = 0.5;
      parammin = 0.0;
      parammax = 3.0;
      break;
    case PARAM_ARMS_PITCH:
      param = 20.0;
      parammin = 5.0;
      parammax = 50.0;
      break;
    case PARAM_ARMS_PITCHVAR:
      param = 0.0;
      parammin = -1.0;
      parammax = 1.0;
      break;
//      if ((profit->spirindex=profit_spiralindex(profit, obj, obj2)) > 0.0)
//        {
//        param = -param;
//        parammin = -parammax;
//        parammax = -parammin;
//        }
//      printf("spiral index: %g  \n", profit->spirindex);
//      break;
    case PARAM_ARMS_POSANG:
      param = 0.0;
      parammin = 0.0;
      parammax = 0.0;
      break;
    case PARAM_ARMS_WIDTH:
      param = 3.0;
      parammin = 1.5;
      parammax = 11.0;
      break;
    case PARAM_BAR_FLUX:
      param = obj2->flux_auto/10.0;
      parammin = 0.0;
      parammax = 2.0*obj2->flux_auto;
      break;
    case PARAM_BAR_ASPECT:
      param = 0.3;
      parammin = 0.2;
      parammax = 0.5;
      break;
    case PARAM_BAR_POSANG:
      param = 0.0;
      parammin = 0.0;
      parammax = 0.0;
      break;
    case PARAM_INRING_FLUX:
      param = obj2->flux_auto/10.0;
      parammin = 0.0;
      parammax = 2.0*obj2->flux_auto;
      break;
    case PARAM_INRING_WIDTH:
      param = 0.3;
      parammin = 0.0;
      parammax = 0.5;
      break;
    case PARAM_INRING_ASPECT:
      param = 0.8;
      parammin = 0.4;
      parammax = 1.0;
      break;
    case PARAM_OUTRING_FLUX:
      param = obj2->flux_auto/10.0;
      parammin = 0.0;
      parammax = 2.0*obj2->flux_auto;
      break;
    case PARAM_OUTRING_START:
      param = 4.0;
      parammin = 3.5;
      parammax = 6.0;
      break;
    case PARAM_OUTRING_WIDTH:
      param = 0.3;
      parammin = 0.0;
      parammax = 0.5;
      break;
    default:
      error(EXIT_FAILURE, "*Internal Error*: Unknown profile parameter in ",
		"profit_resetparam()");
      break;
   }

  if (parammin!=parammax && (param<=parammin || param>=parammax))
    param = (parammin+parammax)/2.0;
  profit_setparam(profit, paramtype, param, parammin, parammax);

  return;
  }


/****** profit_resetparams ****************************************************
PROTO	void profit_resetparams(profitstruct *profit)
PURPOSE	Set the initial, lower and upper boundary values of profile parameters.
INPUT	Pointer to the profit structure.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
VERSION	18/09/2008
 ***/
void	profit_resetparams(profitstruct *profit)
  {
   int		p;


  for (p=0; p<PARAM_NPARAM; p++)
    profit_resetparam(profit, (paramenum)p);

  return;
  }


/****** profit_setparam ****************************************************
PROTO	void profit_setparam(profitstruct *profit, paramenum paramtype,
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PURPOSE	Set the actual, lower and upper boundary values of a profile parameter.
INPUT	Pointer to the profit structure,
	Parameter index,
	Actual value,
	Lower boundary to the parameter,
	Upper boundary to the parameter.
OUTPUT	RETURN_OK if the parameter is registered, RETURN_ERROR otherwise.
AUTHOR	E. Bertin (IAP)
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 ***/
int	profit_setparam(profitstruct *profit, paramenum paramtype,
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  {
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   float	*paramptr;
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   int		index;

/* Check whether the parameter has already be registered */
  if ((paramptr=profit->paramlist[(int)paramtype]))
    {
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    index = profit->paramindex[(int)paramtype];
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    profit->paraminit[index] = param;
    profit->parammin[index] = parammin;
    profit->parammax[index] = parammax;
    return RETURN_OK;
    }
  else
    return RETURN_ERROR;
  }

  
/****** profit_boundtounbound *************************************************
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PROTO	void profit_boundtounbound(profitstruct *profit, float *param)
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PURPOSE	Convert parameters from bounded to unbounded space.
INPUT	Pointer to the profit structure.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
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VERSION	07/09/2009
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 ***/
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void	profit_boundtounbound(profitstruct *profit, float *param)
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  {
   double	num,den;
   int		p;

  for (p=0; p<profit->nparam; p++)
    if (profit->parammin[p]!=profit->parammax[p])
      {
      num = param[p] - profit->parammin[p];
      den = profit->parammax[p] - param[p];
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      param[p] = num>1e-50? (den>1e-50? log(num/den): 50.0) : -50.0;
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      }

  return;

  }


/****** profit_unboundtobound *************************************************
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PROTO	void profit_unboundtobound(profitstruct *profit, float *param)
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PURPOSE	Convert parameters from unbounded to bounded space.
INPUT	Pointer to the profit structure.
OUTPUT	-.
NOTES	-.
AUTHOR	E. Bertin (IAP)
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VERSION	18/05/2009
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 ***/
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void	profit_unboundtobound(profitstruct *profit, float *param)
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  {
   int		p;

  for (p=0; p<profit->nparam; p++)
    if (profit->parammin[p]!=profit->parammax[p])
      param[p] = (profit->parammax[p] - profit->parammin[p])
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		/ (1.0 + exp(-(param[p]>50.0? 50.0 : param[p])))
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		+ profit->parammin[p];

  return;
  }


/****** profit_covarunboundtobound ********************************************
PROTO	void profit_covarunboundtobound(profitstruct *profit)
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