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165 lines
3.9 KiB
165 lines
3.9 KiB
15 years ago
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/*
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* Sun clock. X11 version by John Mackin.
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*
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* This program was derived from, and is still in part identical with, the
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* Suntools Sun clock program whose author's comment appears immediately
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* below. Please preserve both notices.
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*
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* The X11R3/4 version of this program was written by John Mackin, at the
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* Basser Department of Computer Science, University of Sydney, Sydney,
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* New South Wales, Australia; <john@cs.su.oz.AU>. This program, like
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* the one it was derived from, is in the public domain: `Love is the
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* law, love under will.'
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*/
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/*
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Sun clock
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Designed and implemented by John Walker in November of 1988.
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Version for the Sun Workstation.
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The algorithm used to calculate the position of the Sun is given in
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Chapter 18 of:
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"Astronomical Formulae for Calculators" by Jean Meeus, Third Edition,
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Richmond: Willmann-Bell, 1985. This book can be obtained from:
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Willmann-Bell
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P.O. Box 35025
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Richmond, VA 23235
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USA
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Phone: (804) 320-7016
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This program was written by:
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John Walker
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Autodesk, Inc.
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2320 Marinship Way
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Sausalito, CA 94965
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USA
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Fax: (415) 389-9418
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Voice: (415) 332-2344 Ext. 2829
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Usenet: {sun,well,uunet}!acad!kelvin
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or: kelvin@acad.uu.net
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modified for interactive maps by
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Stephen Martin
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Fujitsu Systems Business of Canada
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smartin@fujitsu.ca
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This program is in the public domain: "Do what thou wilt shall be the
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whole of the law". I'd appreciate receiving any bug fixes and/or
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enhancements, which I'll incorporate in future versions of the
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program. Please leave the original attribution information intact so
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that credit and blame may be properly apportioned.
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Revision history:
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1.0 12/21/89 Initial version.
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8/24/89 Finally got around to submitting.
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1.1 8/31/94 Version with interactive map.
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1.2 10/12/94 Fixes for HP and Solaris, new icon bitmap
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1.3 11/01/94 Timezone now shown in icon
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1.4 03/29/98 Fixed city drawing, added icon animation
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*/
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#include "sunclock.h"
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void projillum(short *wtab, int xdots, int ydots, double dec);
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/* PROJILLUM -- Project illuminated area on the map. */
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void
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projillum(wtab, xdots, ydots, dec)
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short *wtab;
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int xdots, ydots;
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double dec;
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{
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int i, ftf = 1, ilon, ilat, lilon = 0, lilat = 0, xt;
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double m, x, y, z, th, lon, lat, s, c;
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/* Clear unoccupied cells in width table */
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for (i = 0; i < ydots; i++)
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wtab[i] = -1;
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/* Build transformation for declination */
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s = sin(-dtr(dec));
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c = cos(-dtr(dec));
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/* Increment over a semicircle of illumination */
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for (th = -(PI / 2); th <= PI / 2 + 0.001;
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th += PI / TERMINC) {
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/* Transform the point through the declination rotation. */
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x = -s * sin(th);
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y = cos(th);
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z = c * sin(th);
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/* Transform the resulting co-ordinate through the
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map projection to obtain screen co-ordinates. */
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lon = (y == 0 && x == 0) ? 0.0 : rtd(atan2(y, x));
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lat = rtd(asin(z));
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ilat = ydots - (lat + 90) * (ydots / 180.0);
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ilon = lon * (xdots / 360.0);
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if (ftf) {
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/* First time. Just save start co-ordinate. */
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lilon = ilon;
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lilat = ilat;
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ftf = 0;
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} else {
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/* Trace out the line and set the width table. */
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if (lilat == ilat) {
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wtab[(ydots - 1) - ilat] = ilon == 0 ? 1 : ilon;
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} else {
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m = ((double) (ilon - lilon)) / (ilat - lilat);
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for (i = lilat; i != ilat; i += sgn(ilat - lilat)) {
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xt = lilon + floor((m * (i - lilat)) + 0.5);
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wtab[(ydots - 1) - i] = xt == 0 ? 1 : xt;
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}
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}
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lilon = ilon;
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lilat = ilat;
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}
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}
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/* Now tweak the widths to generate full illumination for
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the correct pole. */
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if (dec < 0.0) {
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ilat = ydots - 1;
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lilat = -1;
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} else {
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ilat = 0;
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lilat = 1;
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}
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for (i = ilat; i != ydots / 2; i += lilat) {
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if (wtab[i] != -1) {
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while (1) {
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wtab[i] = xdots / 2;
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if (i == ilat)
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break;
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i -= lilat;
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}
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break;
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}
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}
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}
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