src/cmd/astro/nutate.c - plan9 - Git at Google

 #include "astro.h"

 void
 nutate(void)
 {

 /*
  *	uses radian, radsec
  *	sets phi, eps, dphi, deps, obliq, gst, tobliq
  */

 	double msun, mnom, noded, dmoon;

 /*
  *	nutation of the equinoxes is a wobble of the pole
  *	of the earths rotation whose magnitude is about
  *	9 seconds of arc and whose period is about 18.6 years.
  *
  *	it depends upon the pull of the sun and moon on the
  *	equatorial bulge of the earth.
  *
  *	phi and eps are the two angles which specify the
  *	true pole with respect to the mean pole.
  *
  *	all coeffieients are from Exp. Supp. pp.44-45
  */

 	mnom = 296.104608 + 13.0649924465*eday + 9.192e-3*capt2
 		 + 14.38e-6*capt3;
 	mnom *= radian;
 	msun = 358.475833 + .9856002669*eday - .150e-3*capt2
 		 - 3.33e-6*capt3;
 	msun *= radian;
 	noded = 11.250889 + 13.2293504490*eday - 3.211e-3*capt2
 		 - 0.33e-6*capt3;
 	noded *= radian;
 	dmoon = 350.737486 + 12.1907491914*eday - 1.436e-3*capt2
 		 + 1.89e-6*capt3;
 	dmoon *= radian;
 	node = 259.183275 - .0529539222*eday + 2.078e-3*capt2
 		 + 2.22e-6*capt3;
 	node *= radian;

 /*
  *	long period terms
  */

 	phi = 0.;
 	eps = 0.;
 	dphi = 0.;
 	deps = 0.;


 	icosadd(nutfp, nutcp);
 	phi = -(17.2327+.01737*capt)*sin(node);
 	phi += sinadd(4, node, noded, dmoon, msun);

 	eps = cosadd(4, node, noded, dmoon, msun);

 /*
  *	short period terms
  */


 	dphi = sinadd(4, node, noded, mnom, dmoon);

 	deps = cosadd(3, node, noded, mnom);

 	phi = (phi+dphi)*radsec;
 	eps = (eps+deps)*radsec;
 	dphi *= radsec;
 	deps *= radsec;

 	obliq = 23.452294 - .0130125*capt - 1.64e-6*capt2
 		 + 0.503e-6*capt3;
 	obliq *= radian;
 	tobliq = obliq + eps;

 	gst = 99.690983 + 360.9856473354*eday + .000387*capt2;
 	gst -= 180.;
 	gst = fmod(gst, 360.);
 	if(gst < 0.)
 		gst += 360.;
 	gst *= radian;
 	gst += phi*cos(obliq);
 }
	#include "astro.h"

	void
	nutate(void)
	{

	/*
	* uses radian, radsec
	* sets phi, eps, dphi, deps, obliq, gst, tobliq
	*/

	double msun, mnom, noded, dmoon;

	/*
	* nutation of the equinoxes is a wobble of the pole
	* of the earths rotation whose magnitude is about
	* 9 seconds of arc and whose period is about 18.6 years.
	*
	* it depends upon the pull of the sun and moon on the
	* equatorial bulge of the earth.
	*
	* phi and eps are the two angles which specify the
	* true pole with respect to the mean pole.
	*
	* all coeffieients are from Exp. Supp. pp.44-45
	*/

	mnom = 296.104608 + 13.0649924465eday + 9.192e-3capt2
	+ 14.38e-6*capt3;
	mnom *= radian;
	msun = 358.475833 + .9856002669eday - .150e-3capt2
	- 3.33e-6*capt3;
	msun *= radian;
	noded = 11.250889 + 13.2293504490eday - 3.211e-3capt2
	- 0.33e-6*capt3;
	noded *= radian;
	dmoon = 350.737486 + 12.1907491914eday - 1.436e-3capt2
	+ 1.89e-6*capt3;
	dmoon *= radian;
	node = 259.183275 - .0529539222eday + 2.078e-3capt2
	+ 2.22e-6*capt3;
	node *= radian;

	/*
	* long period terms
	*/

	phi = 0.;
	eps = 0.;
	dphi = 0.;
	deps = 0.;


	icosadd(nutfp, nutcp);
	phi = -(17.2327+.01737capt)sin(node);
	phi += sinadd(4, node, noded, dmoon, msun);

	eps = cosadd(4, node, noded, dmoon, msun);

	/*
	* short period terms
	*/


	dphi = sinadd(4, node, noded, mnom, dmoon);

	deps = cosadd(3, node, noded, mnom);

	phi = (phi+dphi)*radsec;
	eps = (eps+deps)*radsec;
	dphi *= radsec;
	deps *= radsec;

	obliq = 23.452294 - .0130125capt - 1.64e-6capt2
	+ 0.503e-6*capt3;
	obliq *= radian;
	tobliq = obliq + eps;

	gst = 99.690983 + 360.9856473354eday + .000387capt2;
	gst -= 180.;
	gst = fmod(gst, 360.);
	if(gst < 0.)
	gst += 360.;
	gst *= radian;
	gst += phi*cos(obliq);
	}