1 /* -*- Mode: C; tab-width: 4 -*- */
2 /* galaxy --- spinning galaxies */
5 static const char sccsid[] = "@(#)galaxy.c 4.04 97/07/28 xlockmore";
8 /* Originally done by Uli Siegmund <uli@wombat.okapi.sub.org> on Amiga
10 * Port from Cluster/EGS to C/Intuition by Harald Backert
11 * Port to X11 and incorporation into xlockmore by Hubert Feyrer
12 * <hubert.feyrer@rz.uni-regensburg.de>
14 * Permission to use, copy, modify, and distribute this software and its
15 * documentation for any purpose and without fee is hereby granted,
16 * provided that the above copyright notice appear in all copies and that
17 * both that copyright notice and this permission notice appear in
18 * supporting documentation.
20 * This file is provided AS IS with no warranties of any kind. The author
21 * shall have no liability with respect to the infringement of copyrights,
22 * trade secrets or any patents by this file or any part thereof. In no
23 * event will the author be liable for any lost revenue or profits or
24 * other special, indirect and consequential damages.
27 * 26-Aug-00: robert.nagtegaal@phil.uu.nl and roland@tschai.demon.nl:
28 * various improvements
29 * 10-May-97: jwz@jwz.org: turned into a standalone program.
30 * 18-Apr-97: Memory leak fixed by Tom Schmidt <tschmidt@micron.com>
31 * 07-Apr-97: Modified by Dave Mitchell <davem@magnet.com>
32 * 23-Oct-94: Modified by David Bagley <bagleyd@bigfoot.com>
34 * colors change depending on velocity
35 * 10-Oct-94: Add colors by Hubert Feyer
36 * 30-Sep-94: Initial port by Hubert Feyer
37 * 09-Mar-94: VMS can generate a random number 0.0 which results in a
38 * division by zero, corrected by Jouk Jansen
39 * <joukj@crys.chem.uva.nl>
43 # define DEFAULTS "*delay: 20000 \n" \
47 "*fpsSolid: true \n" \
48 "*ignoreRotation: True \n" \
50 # define UNIFORM_COLORS
51 # define release_galaxy 0
52 # include "xlockmore.h" /* from the xscreensaver distribution */
53 #else /* !STANDALONE */
54 # include "xlock.h" /* from the xlockmore distribution */
55 #endif /* !STANDALONE */
61 #define DEF_TRACKS "True"
62 #define DEF_SPIN "True"
63 #define DEF_DBUF "True"
65 static XrmOptionDescRec opts[] =
67 {"-tracks", ".galaxy.tracks", XrmoptionNoArg, "on"},
68 {"+tracks", ".galaxy.tracks", XrmoptionNoArg, "off"},
69 {"-spin", ".galaxy.spin", XrmoptionNoArg, "on"},
70 {"+spin", ".galaxy.spin", XrmoptionNoArg, "off"},
71 {"-dbuf", ".galaxy.dbuf", XrmoptionNoArg, "on"},
72 {"+dbuf", ".galaxy.dbuf", XrmoptionNoArg, "off"},
75 static argtype vars[] =
77 {&tracks, "tracks", "Tracks", DEF_TRACKS, t_Bool},
78 {&spin, "spin", "Spin", DEF_SPIN, t_Bool},
79 {&dbufp, "dbuf", "Dbuf", DEF_DBUF, t_Bool},
82 static OptionStruct desc[] =
84 {"-/+tracks", "turn on/off star tracks"},
85 {"-/+spin", "do/don't spin viewpoint"},
86 {"-/+dbuf", "turn on/off double buffering."},
89 ENTRYPOINT ModeSpecOpt galaxy_opts =
90 {sizeof opts / sizeof opts[0], opts,
91 sizeof vars / sizeof vars[0], vars, desc};
94 #define FLOATRAND ((double) LRAND() / ((double) MAXRAND))
97 #define WRAP 1 /* Warp around edges */
98 #define BOUNCE 1 /* Bounce from borders */
102 #define MINGALAXIES 2
103 #define MAX_STARS 3000
104 #define MAX_IDELTAT 50
105 /* These come originally from the Cluster-version */
106 #define DEFAULT_GALAXIES 3
107 #define DEFAULT_STARS 1000
108 #define DEFAULT_HITITERATIONS 7500
109 #define DEFAULT_IDELTAT 200 /* 0.02 */
110 #define EPSILON 0.00000001
112 #define sqrt_EPSILON 0.0001
114 #define DELTAT (MAX_IDELTAT * 0.0001)
116 #define GALAXYRANGESIZE 0.1
117 #define GALAXYMINSIZE 0.15
122 /* colors per galaxy */
123 /* #define COLORSTEP (NUMCOLORS/COLORBASE) */
124 # define COLORSTEP (MI_NCOLORS(mi)/COLORBASE)
128 double pos[3], vel[3];
138 double pos[3], vel[3];
143 double mat[3][3]; /* Movement of stars(?) */
144 double scale; /* Scale */
145 int midx; /* Middle of screen, x */
146 int midy; /* Middle of screen, y */
148 double diff[3]; /* */
149 Galaxy *galaxies; /* the Whole Universe */
150 int ngalaxies; /* # galaxies */
151 int f_hititerations; /* # iterations before restart */
153 double rot_y; /* rotation of eye around center of universe, around
155 double rot_x; /* rotation of eye around center of universe, around
159 static unistruct *universes = NULL;
162 free_galaxies(ModeInfo * mi)
164 unistruct *gp = &universes[MI_SCREEN(mi)];
165 if (gp->galaxies != NULL) {
168 for (i = 0; i < gp->ngalaxies; i++) {
169 Galaxy *gt = &gp->galaxies[i];
171 if (gt->stars != NULL)
172 (void) free((void *) gt->stars);
173 if (gt->oldpoints != NULL)
174 (void) free((void *) gt->oldpoints);
175 if (gt->newpoints != NULL)
176 (void) free((void *) gt->newpoints);
178 (void) free((void *) gp->galaxies);
184 startover(ModeInfo * mi)
186 unistruct *gp = &universes[MI_SCREEN(mi)];
187 int i, j; /* more tmp */
188 double w1, w2; /* more tmp */
189 double d, v, w, h; /* yet more tmp */
195 if (MI_BATCHCOUNT(mi) < -MINGALAXIES)
197 gp->ngalaxies = MI_BATCHCOUNT(mi);
198 if (gp->ngalaxies < -MINGALAXIES)
199 gp->ngalaxies = NRAND(-gp->ngalaxies - MINGALAXIES + 1) + MINGALAXIES;
201 else if (gp->ngalaxies < MINGALAXIES)
202 gp->ngalaxies = MINGALAXIES;
203 if (gp->galaxies == NULL)
204 gp->galaxies = (Galaxy *) calloc(gp->ngalaxies, sizeof (Galaxy));
206 for (i = 0; i < gp->ngalaxies; ++i) {
207 Galaxy *gt = &gp->galaxies[i];
208 double sinw1, sinw2, cosw1, cosw2;
210 gt->galcol = NRAND(COLORBASE - 2);
212 gt->galcol += 2; /* Mult 8; 16..31 no green stars */
213 /* Galaxies still may have some green stars but are not all green. */
215 if (gt->stars != NULL) {
216 (void) free((void *) gt->stars);
219 gt->nstars = (NRAND(MAX_STARS / 2)) + MAX_STARS / 2;
220 gt->stars = (Star *) malloc(gt->nstars * sizeof (Star));
221 gt->oldpoints = (XPoint *) malloc(gt->nstars * sizeof (XPoint));
222 gt->newpoints = (XPoint *) malloc(gt->nstars * sizeof (XPoint));
224 w1 = 2.0 * M_PI * FLOATRAND;
225 w2 = 2.0 * M_PI * FLOATRAND;
231 gp->mat[0][0] = cosw2;
232 gp->mat[0][1] = -sinw1 * sinw2;
233 gp->mat[0][2] = cosw1 * sinw2;
235 gp->mat[1][1] = cosw1;
236 gp->mat[1][2] = sinw1;
237 gp->mat[2][0] = -sinw2;
238 gp->mat[2][1] = -sinw1 * cosw2;
239 gp->mat[2][2] = cosw1 * cosw2;
241 gt->vel[0] = FLOATRAND * 2.0 - 1.0;
242 gt->vel[1] = FLOATRAND * 2.0 - 1.0;
243 gt->vel[2] = FLOATRAND * 2.0 - 1.0;
244 gt->pos[0] = -gt->vel[0] * DELTAT * gp->f_hititerations + FLOATRAND -
246 gt->pos[1] = -gt->vel[1] * DELTAT * gp->f_hititerations + FLOATRAND -
248 gt->pos[2] = -gt->vel[2] * DELTAT * gp->f_hititerations + FLOATRAND -
251 gt->mass = (int) (FLOATRAND * 1000.0) + 1;
253 gp->size = GALAXYRANGESIZE * FLOATRAND + GALAXYMINSIZE;
255 for (j = 0; j < gt->nstars; ++j) {
256 Star *st = >->stars[j];
257 XPoint *oldp = >->oldpoints[j];
258 XPoint *newp = >->newpoints[j];
262 w = 2.0 * M_PI * FLOATRAND;
265 d = FLOATRAND * gp->size;
266 h = FLOATRAND * exp(-2.0 * (d / gp->size)) / 5.0 * gp->size;
269 st->pos[0] = gp->mat[0][0] * d * cosw + gp->mat[1][0] * d * sinw +
270 gp->mat[2][0] * h + gt->pos[0];
271 st->pos[1] = gp->mat[0][1] * d * cosw + gp->mat[1][1] * d * sinw +
272 gp->mat[2][1] * h + gt->pos[1];
273 st->pos[2] = gp->mat[0][2] * d * cosw + gp->mat[1][2] * d * sinw +
274 gp->mat[2][2] * h + gt->pos[2];
276 v = sqrt(gt->mass * QCONS / sqrt(d * d + h * h));
277 st->vel[0] = -gp->mat[0][0] * v * sinw + gp->mat[1][0] * v * cosw +
279 st->vel[1] = -gp->mat[0][1] * v * sinw + gp->mat[1][1] * v * cosw +
281 st->vel[2] = -gp->mat[0][2] * v * sinw + gp->mat[1][2] * v * cosw +
284 st->vel[0] *= DELTAT;
285 st->vel[1] *= DELTAT;
286 st->vel[2] *= DELTAT;
296 XClearWindow(MI_DISPLAY(mi), MI_WINDOW(mi));
299 (void) printf("ngalaxies=%d, f_hititerations=%d\n", gp->ngalaxies,
300 gp->f_hititerations);
301 (void) printf("f_deltat=%g\n", DELTAT);
302 (void) printf("Screen: ");
307 init_galaxy(ModeInfo * mi)
311 MI_INIT (mi, universes, free_galaxies);
312 gp = &universes[MI_SCREEN(mi)];
314 # ifdef HAVE_JWXYZ /* Don't second-guess Quartz's double-buffering */
318 gp->f_hititerations = MI_CYCLES(mi);
320 gp->scale = (double) (MI_WIN_WIDTH(mi) + MI_WIN_HEIGHT(mi)) / 8.0;
321 gp->midx = MI_WIN_WIDTH(mi) / 2;
322 gp->midy = MI_WIN_HEIGHT(mi) / 2;
327 draw_galaxy(ModeInfo * mi)
329 Display *display = MI_DISPLAY(mi);
330 Window window = MI_WINDOW(mi);
332 unistruct *gp = &universes[MI_SCREEN(mi)];
333 double d, eps, cox, six, cor, sir; /* tmp */
334 int i, j, k; /* more tmp */
335 XPoint *dummy = NULL;
338 XClearWindow(MI_DISPLAY(mi), MI_WINDOW(mi));
345 cox = COSF(gp->rot_y);
346 six = SINF(gp->rot_y);
347 cor = COSF(gp->rot_x);
348 sir = SINF(gp->rot_x);
350 eps = 1/(EPSILON * sqrt_EPSILON * DELTAT * DELTAT * QCONS);
352 for (i = 0; i < gp->ngalaxies; ++i) {
353 Galaxy *gt = &gp->galaxies[i];
355 for (j = 0; j < gp->galaxies[i].nstars; ++j) {
356 Star *st = >->stars[j];
357 XPoint *newp = >->newpoints[j];
358 double v0 = st->vel[0];
359 double v1 = st->vel[1];
360 double v2 = st->vel[2];
362 for (k = 0; k < gp->ngalaxies; ++k) {
363 Galaxy *gtk = &gp->galaxies[k];
364 double d0 = gtk->pos[0] - st->pos[0];
365 double d1 = gtk->pos[1] - st->pos[1];
366 double d2 = gtk->pos[2] - st->pos[2];
368 d = d0 * d0 + d1 * d1 + d2 * d2;
370 d = gtk->mass / (d * sqrt(d)) * DELTAT * DELTAT * QCONS;
372 d = gtk->mass / (eps * sqrt(eps));
386 newp->x = (short) (((cox * st->pos[0]) - (six * st->pos[2])) *
387 gp->scale) + gp->midx;
388 newp->y = (short) (((cor * st->pos[1]) - (sir * ((six * st->pos[0]) +
389 (cox * st->pos[2]))))
390 * gp->scale) + gp->midy;
394 for (k = i + 1; k < gp->ngalaxies; ++k) {
395 Galaxy *gtk = &gp->galaxies[k];
396 double d0 = gtk->pos[0] - gt->pos[0];
397 double d1 = gtk->pos[1] - gt->pos[1];
398 double d2 = gtk->pos[2] - gt->pos[2];
400 d = d0 * d0 + d1 * d1 + d2 * d2;
402 d = 1 / (d * sqrt(d)) * DELTAT * QCONS;
404 d = 1 / (EPSILON * sqrt_EPSILON) * DELTAT * QCONS;
409 gt->vel[0] += d0 * gtk->mass;
410 gt->vel[1] += d1 * gtk->mass;
411 gt->vel[2] += d2 * gtk->mass;
412 gtk->vel[0] -= d0 * gt->mass;
413 gtk->vel[1] -= d1 * gt->mass;
414 gtk->vel[2] -= d2 * gt->mass;
417 gt->pos[0] += gt->vel[0] * DELTAT;
418 gt->pos[1] += gt->vel[1] * DELTAT;
419 gt->pos[2] += gt->vel[2] * DELTAT;
422 XSetForeground(display, gc, MI_WIN_BLACK_PIXEL(mi));
423 XDrawPoints(display, window, gc, gt->oldpoints, gt->nstars,
426 XSetForeground(display, gc, MI_PIXEL(mi, COLORSTEP * gt->galcol));
427 XDrawPoints(display, window, gc, gt->newpoints, gt->nstars,
430 dummy = gt->oldpoints;
431 gt->oldpoints = gt->newpoints;
432 gt->newpoints = dummy;
436 if (gp->step > gp->f_hititerations * 4)
441 reshape_galaxy(ModeInfo * mi, int width, int height)
443 XClearWindow (MI_DISPLAY (mi), MI_WINDOW(mi));
448 refresh_galaxy(ModeInfo * mi)
450 /* Do nothing, it will refresh by itself */
454 galaxy_handle_event (ModeInfo *mi, XEvent *event)
456 if (screenhack_event_helper (MI_DISPLAY(mi), MI_WINDOW(mi), event))
458 reshape_galaxy (mi, MI_WIDTH(mi), MI_HEIGHT(mi));
465 XSCREENSAVER_MODULE ("Galaxy", galaxy)