simgear/Scenery/moon.c

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/**************************************************************************
* moon.c
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program 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
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
* $Id$
* (Log is kept at end of this file)
**************************************************************************/
#include <math.h>
#include <GL/glut.h>
#include "orbits.h"
#include "moon.h"
#include "../Time/fg_time.h"
#include "../GLUT/views.h"
/* #include "../Aircraft/aircraft.h"*/
#include "../general.h"
static GLint moon;
struct CelestialCoord fgCalculateMoon(struct OrbElements params,
struct OrbElements sunParams,
struct fgTIME t)
{
struct CelestialCoord
result;
double
eccAnom, ecl, lonecl, latecl, actTime,
xv, yv, v, r, xh, yh, zh, xg, yg, zg, xe, ye, ze,
Ls, Lm, D, F;
/* calculate the angle between ecliptic and equatorial coordinate system */
actTime = fgCalcActTime(t);
ecl = fgDegToRad(23.4393 - 3.563E-7 * actTime); // in radians of course
/* calculate the eccentric anomaly */
eccAnom = fgCalcEccAnom(params.M, params.e);
/* calculate the moon's distance (d) and true anomaly (v) */
xv = params.a * ( cos(eccAnom) - params.e);
yv = params.a * ( sqrt(1.0 - params.e*params.e) * sin(eccAnom));
v =atan2(yv, xv);
r = sqrt(xv*xv + yv*yv);
/* estimate the geocentric rectangular coordinates here */
xh = r * (cos(params.N) * cos(v + params.w) - sin(params.N) * sin(v + params.w) * cos(params.i));
yh = r * (sin(params.N) * cos(v + params.w) + cos(params.N) * sin(v + params.w) * cos(params.i));
zh = r * (sin(v + params.w) * sin(params.i));
/* calculate the ecliptic latitude and longitude here */
lonecl = atan2( yh, xh);
latecl = atan2( zh, sqrt( xh*xh + yh*yh));
/* calculate a number of perturbations */
Ls = sunParams.M + sunParams.w;
Lm = params.M + params.w + params.N;
D = Lm - Ls;
F = Lm - params.N;
lonecl += fgDegToRad(
- 1.274 * sin (params.M - 2*D) // the Evection
+ 0.658 * sin (2 * D) // the Variation
- 0.186 * sin (sunParams.M) // the yearly variation
- 0.059 * sin (2*params.M - 2*D)
- 0.057 * sin (params.M - 2*D + sunParams.M)
+ 0.053 * sin (params.M + 2*D)
+ 0.046 * sin (2*D - sunParams.M)
+ 0.041 * sin (params.M - sunParams.M)
- 0.035 * sin (D) // the Parallactic Equation
- 0.031 * sin (params.M + sunParams.M)
- 0.015 * sin (2*F - 2*D)
+ 0.011 * sin (params.M - 4*D)
); /* Pheeuuwwww */
latecl += fgDegToRad(
- 0.173 * sin (F - 2*D)
- 0.055 * sin (params.M - F - 2*D)
- 0.046 * sin (params.M + F - 2*D)
+ 0.033 * sin (F + 2*D)
+ 0.017 * sin (2 * params.M + F)
); /* Yep */
r += (
- 0.58 * cos(params.M - 2*D)
- 0.46 * cos(2*D)
);
xg = r * cos(lonecl) * cos(latecl);
yg = r * sin(lonecl) * cos(latecl);
zg = r * sin(latecl);
xe = xg;
ye = yg * cos(ecl) - zg * sin(ecl);
ze = yg * sin(ecl) + zg * cos(ecl);
result.RightAscension = atan2(ye, xe);
result.Declination = atan2(ze, sqrt(xe*xe + ye*ye));
return result;
}
void fgMoonInit()
{
struct CelestialCoord
moonPos;
moon = glGenLists(1);
glNewList(moon, GL_COMPILE );
glBegin( GL_POINTS );
moonPos = fgCalculateMoon(pltOrbElements[1], pltOrbElements[0], cur_time_params);
printf("Moon found at %f (ra), %f (dec)\n", moonPos.RightAscension, moonPos.Declination);
/* give the moon a temporary color, for testing purposes */
glColor3f( 0.0, 1.0, 0.0);
glVertex3f( 190000.0 * cos(moonPos.RightAscension) * cos(moonPos.Declination),
190000.0 * sin(moonPos.RightAscension) * cos(moonPos.Declination),
190000.0 * sin(moonPos.Declination) );
glEnd();
glEndList();
}
void fgMoonRender()
{
double angle;
static double warp = 0;
struct VIEW *v;
struct fgTIME *t;
t = &cur_time_params;
v = &current_view;
glDisable( GL_FOG );
glDisable( GL_LIGHTING );
glPushMatrix();
glTranslatef( v->view_pos.x, v->view_pos.y, v->view_pos.z );
angle = t->gst * 15.0; /* 15 degrees per hour rotation */
/* warp += 1.0; */
/* warp = 15.0; */
warp = 0.0;
glRotatef( (angle+warp), 0.0, 0.0, -1.0 );
printf("Rotating moon by %.2f degrees + %.2f degrees\n",angle,warp);
glCallList(moon);
glPopMatrix();
glEnable( GL_LIGHTING );
glEnable( GL_FOG );
}
/* $Log$
/* Revision 1.1 1997/10/25 03:16:08 curt
/* Initial revision of code contributed by Durk Talsma.
/*
*/