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/*** File saoimage/wcslib/platepos.c
 *** February 29, 2000
 *** By Jessica Mink, jmink@cfa.harvard.edu
 *** Harvard-Smithsonian Center for Astrophysics
 *** Copyright (C) 1998-2002
 *** Smithsonian Astrophysical Observatory, Cambridge, MA, USA

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Lesser General Public
    License as published by the Free Software Foundation; either
    version 2 of the License, or (at your option) any later version.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Lesser General Public License for more details.
    
    You should have received a copy of the GNU Lesser General Public
    License along with this library; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

    Correspondence concerning WCSTools should be addressed as follows:
           Internet email: jmink@cfa.harvard.edu
           Postal address: Jessica Mink
                           Smithsonian Astrophysical Observatory
                           60 Garden St.
                           Cambridge, MA 02138 USA

 * Module:	platepos.c (Plate solution WCS conversion
 * Purpose:	Compute WCS from plate fit
 * Subroutine:	platepos() converts from pixel location to RA,Dec 
 * Subroutine:	platepix() converts from RA,Dec to pixel location   

    These functions are based on the astrmcal.c portion of GETIMAGE by
    J. Doggett and the documentation distributed with the Digital Sky Survey.

*/

#include <math.h>
#include <string.h>
#include <stdio.h>
#include "wcs.h"

int
platepos (xpix, ypix, wcs, xpos, ypos)

/* Routine to determine accurate position for pixel coordinates */
/* returns 0 if successful otherwise 1 = angle too large for projection; */
/* based on amdpos() from getimage */

/* Input: */
double	xpix;		/* x pixel number  (RA or long without rotation) */
double	ypix;		/* y pixel number  (dec or lat without rotation) */
struct WorldCoor *wcs;	/* WCS parameter structure */

/* Output: */
double	*xpos;		/* Right ascension or longitude in degrees */
double	*ypos;		/* Declination or latitude in degrees */

{
    double x, y, x2, y2, x3, y3, r2;
    double xi, xir, eta, etar, raoff, ra, dec, ra0, dec0;
    double twopi = 6.28318530717959;
    double ctan, ccos;
    int ncoeff1 = wcs->ncoeff1;
    int ncoeff2 = wcs->ncoeff2;

    /*  Ignore magnitude and color terms 
    double mag = 0.0;
    double color = 0.0; */

    /* Convert from pixels to millimeters */
    x = xpix - wcs->crpix[0];
    y = ypix - wcs->crpix[1];
    x2 = x * x;
    y2 = y * y;
    x3 = x * x2;
    y3 = y * y2;
    r2 = x2 + y2;

    /*  Compute xi,eta coordinates in degrees from x,y and plate model */
    xi =  wcs->x_coeff[ 0]		+ wcs->x_coeff[ 1]*x +
	  wcs->x_coeff[ 2]*y	+ wcs->x_coeff[ 3]*x2 +
	  wcs->x_coeff[ 4]*y2	+ wcs->x_coeff[ 5]*x*y;

    if (ncoeff1 > 6)
	  xi = xi + wcs->x_coeff[ 6]*x3	+ wcs->x_coeff[ 7]*y3;

    if (ncoeff1 > 8) {
	xi = xi + wcs->x_coeff[ 8]*x2*y	+ wcs->x_coeff[ 9]*x*y2 +
		  wcs->x_coeff[10]*(r2)	+ wcs->x_coeff[11]*x*r2 +
		  wcs->x_coeff[12]*y*r2;
	}

    eta = wcs->y_coeff[ 0]		+ wcs->y_coeff[ 1]*x +
	  wcs->y_coeff[ 2]*y	+ wcs->y_coeff[ 3]*x2 +
	  wcs->y_coeff[ 4]*y2	+ wcs->y_coeff[ 5]*x*y;

    if (ncoeff2 > 6)
	eta = eta + wcs->y_coeff[ 6]*x3	+ wcs->y_coeff[ 7]*y3;

    if (ncoeff2 > 8) {
	eta = eta + wcs->y_coeff[ 8]*x2*y + wcs->y_coeff[ 9]*y2*x +
		    wcs->y_coeff[10]*r2   + wcs->y_coeff[11]*x*r2 +
		    wcs->y_coeff[12]*y*r2;
	}

    /* Convert to radians */
    xir = degrad (xi);
    etar = degrad (eta);

    /* Convert to RA and Dec */
    ra0 = degrad (wcs->crval[0]);
    dec0 = degrad (wcs->crval[1]);
    ctan = tan (dec0);
    ccos = cos (dec0);
    raoff = atan2 (xir / ccos, 1.0 - etar * ctan);
    ra = raoff + ra0;
    if (ra < 0.0) ra = ra + twopi;
    *xpos = raddeg (ra);

    dec = atan (cos (raoff) / ((1.0 - (etar * ctan)) / (etar + ctan)));
    *ypos = raddeg (dec);
    return 0;
}


int
platepix (xpos, ypos, wcs, xpix, ypix)

/* Routine to determine pixel coordinates for sky position */
/* returns 0 if successful otherwise 1 = angle too large for projection; */
/* based on amdinv() from getimage */

/* Input: */
double	xpos;		/* Right ascension or longitude in degrees */
double	ypos;		/* Declination or latitude in degrees */
struct WorldCoor *wcs;	/* WCS parameter structure */

/* Output: */
double	*xpix;		/* x pixel number  (RA or long without rotation) */
double	*ypix;		/* y pixel number  (dec or lat without rotation) */

{
    double xi,eta,x,y,xy,x2,y2,x2y,y2x,x3,y3,r2,dx,dy;
    double tdec,ctan,ccos,traoff, craoff, etar, xir;
    double f,fx,fy,g,gx,gy;
    double ra0, dec0, ra, dec;
    double tolerance = 0.0000005;
    int    max_iterations = 50;
    int    i;
    int	ncoeff1 = wcs->ncoeff1;
    int	ncoeff2 = wcs->ncoeff2;

    /* Convert RA and Dec in radians to standard coordinates on a plate */
    ra = degrad (xpos);
    dec = degrad (ypos);
    tdec = tan (dec);
    ra0 = degrad (wcs->crval[0]);
    dec0 = degrad (wcs->crval[1]);
    ctan = tan (dec0);
    ccos = cos (dec0);
    traoff = tan (ra - ra0);
    craoff = cos (ra - ra0);
    etar = (1.0 - ctan * craoff / tdec) / (ctan + (craoff / tdec));
    xir = traoff * ccos * (1.0 - (etar * ctan));
    xi = raddeg (xir);
    eta = raddeg (etar);

    /* Set initial value for x,y */
    x = xi * wcs->dc[0] + eta * wcs->dc[1];
    y = xi * wcs->dc[2] + eta * wcs->dc[3];

    /* if (wcs->x_coeff[1] == 0.0)
	x = xi - wcs->x_coeff[0];
    else
	x = (xi - wcs->x_coeff[0]) / wcs->x_coeff[1];
    if (wcs->y_coeff[2] == 0.0)
	y = eta - wcs->y_coeff[0];
    else
	y = (eta - wcs->y_coeff[0]) / wcs->y_coeff[2]; */

    /* Iterate by Newton's method */
    for (i = 0; i < max_iterations; i++) {

	/* X plate model */
	xy = x * y;
	x2 = x * x;
	y2 = y * y;
	x3 = x2 * x;
	y3 = y2 * y;
	x2y = x2 * y;
	y2x = y2 * x;
	r2 = x2 + y2;

	f = wcs->x_coeff[0]	+ wcs->x_coeff[1]*x +
	    wcs->x_coeff[2]*y	+ wcs->x_coeff[3]*x2 +
	    wcs->x_coeff[4]*y2	+ wcs->x_coeff[5]*xy;

	/*  Derivative of X model wrt x */
	fx = wcs->x_coeff[1]	+ wcs->x_coeff[3]*2.0*x +
	     wcs->x_coeff[5]*y;

	/* Derivative of X model wrt y */
	fy = wcs->x_coeff[2]	+ wcs->x_coeff[4]*2.0*y +
	     wcs->x_coeff[5]*x;

	if (ncoeff1 > 6) {
	    f = f + wcs->x_coeff[6]*x3	+ wcs->x_coeff[7]*y3;
	    fx = fx + wcs->x_coeff[6]*3.0*x2;
	    fy = fy + wcs->x_coeff[7]*3.0*y2;
	    }

	if (ncoeff1 > 8) {
	    f = f +
		wcs->x_coeff[8]*x2y	+ wcs->x_coeff[9]*y2x +
		wcs->x_coeff[10]*r2 + wcs->x_coeff[11]*x*r2 +
		wcs->x_coeff[12]*y*r2;

	    fx = fx +	wcs->x_coeff[8]*2.0*xy + 
			wcs->x_coeff[9]*y2 +
	 		wcs->x_coeff[10]*2.0*x +
			wcs->x_coeff[11]*(3.0*x2+y2) +
			wcs->x_coeff[12]*2.0*xy;

	    fy = fy +	wcs->x_coeff[8]*x2 +
			wcs->x_coeff[9]*2.0*xy +
			wcs->x_coeff[10]*2.0*y +
			wcs->x_coeff[11]*2.0*xy +
			wcs->x_coeff[12]*(3.0*y2+x2);
	    }

	/* Y plate model */
	g = wcs->y_coeff[0]	+ wcs->y_coeff[1]*x +
	    wcs->y_coeff[2]*y	+ wcs->y_coeff[3]*x2 +
	    wcs->y_coeff[4]*y2	+ wcs->y_coeff[5]*xy;

	/* Derivative of Y model wrt x */
	gx = wcs->y_coeff[1]	+ wcs->y_coeff[3]*2.0*x +
	     wcs->y_coeff[5]*y;

	/* Derivative of Y model wrt y */
	gy = wcs->y_coeff[2]	+ wcs->y_coeff[4]*2.0*y +
	     wcs->y_coeff[5]*x;

	if (ncoeff2 > 6) {
	    g = g + wcs->y_coeff[6]*x3	+ wcs->y_coeff[7]*y3;
	    gx = gx + wcs->y_coeff[6]*3.0*x2;
	    gy = gy + wcs->y_coeff[7]*3.0*y2;
	    }

	if (ncoeff2 > 8) {
	    g = g +
		wcs->y_coeff[8]*x2y	+ wcs->y_coeff[9]*y2x +
		wcs->y_coeff[10]*r2	+ wcs->y_coeff[11]*x*r2 +
		wcs->y_coeff[12]*y*r2;

	    gx = gx +	wcs->y_coeff[8]*2.0*xy + 
			wcs->y_coeff[9]*y2 +
	 		wcs->y_coeff[10]*2.0*x +
			wcs->y_coeff[11]*(3.0*x2+y2) +
			wcs->y_coeff[12]*2.0*xy;

	    gy = gy +	wcs->y_coeff[8]*x2 +
			wcs->y_coeff[9]*2.0*xy +
			wcs->y_coeff[10]*2.0*y +
			wcs->y_coeff[11]*2.0*xy +
			wcs->y_coeff[12]*(3.0*y2+x2);
	    }

	f = f - xi;
	g = g - eta;
	dx = ((-f * gy) + (g * fy)) / ((fx * gy) - (fy * gx));
	dy = ((-g * fx) + (f * gx)) / ((fx * gy) - (fy * gx));
	x = x + dx;
	y = y + dy;
	if ((fabs(dx) < tolerance) && (fabs(dy) < tolerance)) break;
	}

    /* Convert from plate pixels to image pixels */
    *xpix = x + wcs->crpix[0];
    *ypix = y + wcs->crpix[1];

    /* If position is off of the image, return offscale code */
    if (*xpix < 0.5 || *xpix > wcs->nxpix+0.5)
	return -1;
    if (*ypix < 0.5 || *ypix > wcs->nypix+0.5)
	return -1;

    return 0;
}


/* Set plate fit coefficients in structure from arguments */
int
SetPlate (wcs, ncoeff1, ncoeff2, coeff)

struct WorldCoor *wcs;  /* World coordinate system structure */
int	ncoeff1;		/* Number of coefficients for x */
int	ncoeff2;		/* Number of coefficients for y */
double	*coeff;		/* Plate fit coefficients */

{
    int i;

    if (nowcs (wcs) || (ncoeff1 < 1 && ncoeff2 < 1))
	return 1;

    wcs->ncoeff1 = ncoeff1;
    wcs->ncoeff2 = ncoeff2;
    wcs->prjcode = WCS_PLT;

    for (i = 0; i < 20; i++) {
	if (i < ncoeff1)
	    wcs->x_coeff[i] = coeff[i];
	else
	    wcs->x_coeff[i] = 0.0;
	}

    for (i = 0; i < 20; i++) {
	if (i < ncoeff2)
	    wcs->y_coeff[i] = coeff[ncoeff1+i];
	else
	    wcs->y_coeff[i] = 0.0;
	}
    return 0;
}


/* Return plate fit coefficients from structure in arguments */
int
GetPlate (wcs, ncoeff1, ncoeff2, coeff)

struct WorldCoor *wcs;  /* World coordinate system structure */
int	*ncoeff1;	/* Number of coefficients for x */
int	*ncoeff2;	/* Number of coefficients for y) */
double	*coeff;		/* Plate fit coefficients */

{
    int i;

    if (nowcs (wcs))
	return 1;

    *ncoeff1 = wcs->ncoeff1;
    *ncoeff2 = wcs->ncoeff2;

    for (i = 0; i < *ncoeff1; i++)
	coeff[i] = wcs->x_coeff[i];

    for (i = 0; i < *ncoeff2; i++)
	coeff[*ncoeff1+i] = wcs->y_coeff[i];

    return 0;
}


/* Set FITS header plate fit coefficients from structure */
void
SetFITSPlate (header, wcs)

char    *header;        /* Image FITS header */
struct WorldCoor *wcs;  /* WCS structure */

{
    char keyword[16];
    int i;

    for (i = 0; i < wcs->ncoeff1; i++) {
	sprintf (keyword,"CO1_%d",i+1);
	hputnr8 (header, keyword, -15, wcs->x_coeff[i]);
	}
    for (i = 0; i < wcs->ncoeff2; i++) {
	sprintf (keyword,"CO2_%d",i+1);
	hputnr8 (header, keyword, -15, wcs->y_coeff[i]);
	}
    return;
}

/* Mar 27 1998	New subroutines for direct image pixel <-> sky polynomials
 * Apr 10 1998	Make terms identical for both x and y polynomials
 * Apr 10 1998	Allow different numbers of coefficients for x and y
 * Apr 16 1998	Drom NCOEFF header parameter
 * Apr 28 1998  Change projection flags to WCS_*
 * Sep 10 1998	Check for xc1 and yc2 divide by zero after Allen Harris, SAO
 *
 * Oct 21 1999	Drop unused variables after lint
 *
 * Feb 29 2000	Use inverse CD matrix to get initial X,Y in platepix()
 *		as suggested by Paolo Montegriffo from Bologna Ast. Obs.
 */