/* -*- Mode: C; tab-width: 4 -*-
* julia --- continuously varying Julia set.
*/
#if 0
static const char sccsid[] = "@(#)julia.c 4.03 97/04/10 xlockmore";
#endif
/* Copyright (c) 1995 Sean McCullough <bankshot@mailhost.nmt.edu>.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both that copyright notice and this permission notice appear in
* supporting documentation.
*
* This file is provided AS IS with no warranties of any kind. The author
* shall have no liability with respect to the infringement of copyrights,
* trade secrets or any patents by this file or any part thereof. In no
* event will the author be liable for any lost revenue or profits or
* other special, indirect and consequential damages.
*
* Revision History:
* 10-Jun-06: j.grahl@ucl.ac.uk: tweaked functions for parameter of Julia set
* 28-May-97: jwz@jwz.org: added interactive frobbing with the mouse.
* 10-May-97: jwz@jwz.org: turned into a standalone program.
* 02-Dec-95: snagged boilerplate from hop.c
* used ifs {w0 = sqrt(x-c), w1 = -sqrt(x-c)} with random iteration
* to plot the julia set, and sinusoidially varied parameter for set
* and plotted parameter with a circle.
*/
/*-
* One thing to note is that batchcount is the *depth* of the search tree,
* so the number of points computed is 2^batchcount - 1. I use 8 or 9
* on a dx266 and it looks okay. The sinusoidal variation of the parameter
* might not be as interesting as it could, but it still gives an idea of
* the effect of the parameter.
*/
#ifdef STANDALONE
# define DEFAULTS "*count: 1000 \n" \
"*cycles: 20 \n" \
"*delay: 10000 \n" \
"*ncolors: 200 \n" \
"*fpsSolid: true \n" \
"*ignoreRotation: True \n" \
# define UNIFORM_COLORS
# define release_julia 0
# define reshape_julia 0
# include "xlockmore.h" /* in xscreensaver distribution */
#else /* !STANDALONE */
# include "xlock.h" /* in xlockmore distribution */
#endif /* !STANDALONE */
#define DEF_MOUSE "False"
ENTRYPOINT ModeSpecOpt julia_opts = { 0, };
#define numpoints ((0x2<<jp->depth)-1)
typedef struct {
int centerx;
int centery; /* center of the screen */
double cr;
double ci; /* julia params */
int depth;
int inc;
int circsize;
int erase;
int pix;
long itree;
int buffer;
int nbuffers;
int redrawing, redrawpos;
Pixmap pixmap;
#ifndef HAVE_JWXYZ
Cursor cursor;
#endif
GC stippledGC;
XPoint **pointBuffer; /* pointer for XDrawPoints */
Bool button_down_p;
int mouse_x, mouse_y;
} juliastruct;
static juliastruct *julias = NULL;
/* How many segments to draw per cycle when redrawing */
#define REDRAWSTEP 3
static void
apply(juliastruct * jp, register double xr, register double xi, int d)
{
double theta, r;
jp->pointBuffer[jp->buffer][jp->itree].x =
(int) (0.5 * xr * jp->centerx + jp->centerx);
jp->pointBuffer[jp->buffer][jp->itree].y =
(int) (0.5 * xi * jp->centery + jp->centery);
jp->itree++;
if (d > 0) {
xi -= jp->ci;
xr -= jp->cr;
/* Avoid atan2: DOMAIN error message */
if (xi == 0.0 && xr == 0.0)
theta = 0.0;
else
theta = atan2(xi, xr) / 2.0;
/*r = pow(xi * xi + xr * xr, 0.25); */
r = sqrt(sqrt(xi * xi + xr * xr)); /* 3 times faster */
xr = r * cos(theta);
xi = r * sin(theta);
d--;
apply(jp, xr, xi, d);
apply(jp, -xr, -xi, d);
}
}
static void
incr(ModeInfo * mi, juliastruct * jp)
{
if (jp->button_down_p)
{
jp->cr = ((double) (jp->mouse_x + 2 - jp->centerx)) * 2 / jp->centerx;
jp->ci = ((double) (jp->mouse_y + 2 - jp->centery)) * 2 / jp->centery;
}
else
{
#if 0
jp->cr = 1.5 * (sin(M_PI * (jp->inc / 300.0)) *
sin(jp->inc * M_PI / 200.0));
jp->ci = 1.5 * (cos(M_PI * (jp->inc / 300.0)) *
cos(jp->inc * M_PI / 200.0));
jp->cr += 0.5 * cos(M_PI * jp->inc / 400.0);
jp->ci += 0.5 * sin(M_PI * jp->inc / 400.0);
#else
jp->cr = 1.5 * (sin(M_PI * (jp->inc / 290.0)) *
sin(jp->inc * M_PI / 210.0));
jp->ci = 1.5 * (cos(M_PI * (jp->inc / 310.0)) *
cos(jp->inc * M_PI / 190.0));
jp->cr += 0.5 * cos(M_PI * jp->inc / 395.0);
jp->ci += 0.5 * sin(M_PI * jp->inc / 410.0);
#endif
}
}
ENTRYPOINT void
init_julia(ModeInfo * mi)
{
Display *display = MI_DISPLAY(mi);
Window window = MI_WINDOW(mi);
juliastruct *jp;
XGCValues gcv;
int i;
MI_INIT (mi, julias);
jp = &julias[MI_SCREEN(mi)];
jp->centerx = MI_WIN_WIDTH(mi) / 2;
jp->centery = MI_WIN_HEIGHT(mi) / 2;
jp->depth = MI_BATCHCOUNT(mi);
if (jp->depth > 10)
jp->depth = 10;
#ifndef HAVE_JWXYZ
if (jp->button_down_p && !jp->cursor && !jp->cursor)
{
Pixmap bit;
XColor black;
black.red = black.green = black.blue = 0;
black.flags = DoRed|DoGreen|DoBlue;
bit = XCreatePixmapFromBitmapData (display, window, "\000", 1, 1,
MI_WIN_BLACK_PIXEL(mi),
MI_WIN_BLACK_PIXEL(mi), 1);
jp->cursor = XCreatePixmapCursor (display, bit, bit, &black, &black,
0, 0);
XFreePixmap (display, bit);
}
#endif /* HAVE_JWXYZ */
if (jp->pixmap != None &&
jp->circsize != (MIN(jp->centerx, jp->centery) / 60) * 2 + 1) {
XFreePixmap(display, jp->pixmap);
jp->pixmap = None;
}
if (jp->pixmap == None) {
GC fg_gc = None, bg_gc = None;
jp->circsize = MAX(8, (MIN(jp->centerx, jp->centery) / 96) * 2 + 1);
jp->pixmap = XCreatePixmap(display, window, jp->circsize, jp->circsize, 1);
gcv.foreground = 1;
fg_gc = XCreateGC(display, jp->pixmap, GCForeground, &gcv);
gcv.foreground = 0;
bg_gc = XCreateGC(display, jp->pixmap, GCForeground, &gcv);
XFillRectangle(display, jp->pixmap, bg_gc,
0, 0, jp->circsize, jp->circsize);
if (jp->circsize < 2)
XDrawPoint(display, jp->pixmap, fg_gc, 0, 0);
else
XFillArc(display, jp->pixmap, fg_gc,
0, 0, jp->circsize, jp->circsize, 0, 23040);
if (fg_gc != None)
XFreeGC(display, fg_gc);
if (bg_gc != None)
XFreeGC(display, bg_gc);
}
#ifndef HAVE_JWXYZ
if (MI_WIN_IS_INROOT(mi))
;
else if (jp->circsize > 0)
XDefineCursor (display, window, jp->cursor);
else
XUndefineCursor (display, window);
#endif /* HAVE_JWXYZ */
if (!jp->stippledGC) {
gcv.foreground = MI_WIN_BLACK_PIXEL(mi);
gcv.background = MI_WIN_BLACK_PIXEL(mi);
if ((jp->stippledGC = XCreateGC(display, window,
GCForeground | GCBackground, &gcv)) == None)
return;
}
if (MI_NPIXELS(mi) > 2)
jp->pix = NRAND(MI_NPIXELS(mi));
jp->inc = ((LRAND() & 1) * 2 - 1) * NRAND(200);
jp->nbuffers = (MI_CYCLES(mi) + 1);
if (!jp->pointBuffer)
jp->pointBuffer = (XPoint **) calloc(jp->nbuffers, sizeof (XPoint *));
for (i = 0; i < jp->nbuffers; ++i)
if (jp->pointBuffer[i])
(void) memset((char *) jp->pointBuffer[i], 0,
numpoints * sizeof (XPoint));
else
jp->pointBuffer[i] = (XPoint *) calloc(numpoints, sizeof (XPoint));
jp->buffer = 0;
jp->redrawing = 0;
jp->erase = 0;
XClearWindow(display, window);
}
ENTRYPOINT Bool
julia_handle_event (ModeInfo *mi, XEvent *event)
{
juliastruct *jp = &julias[MI_SCREEN(mi)];
if (event->xany.type == ButtonPress &&
event->xbutton.button == Button1)
{
jp->button_down_p = True;
jp->mouse_x = event->xbutton.x;
jp->mouse_y = event->xbutton.y;
return True;
}
else if (event->xany.type == ButtonRelease &&
event->xbutton.button == Button1)
{
jp->button_down_p = False;
return True;
}
else if (event->xany.type == MotionNotify && jp->button_down_p)
{
jp->mouse_x = event->xmotion.x;
jp->mouse_y = event->xmotion.y;
return True;
}
return False;
}
/* hack: moved here by jwz. */
#define ERASE_IMAGE(d,w,g,x,y,xl,yl,xs,ys) \
if (yl<y) \
(y<yl+ys)?XFillRectangle(d,w,g,xl,yl,xs,y-yl): \
XFillRectangle(d,w,g,xl,yl,xs,ys); \
else if (yl>y) \
(y>yl-ys)?XFillRectangle(d,w,g,xl,y+ys,xs,yl-y): \
XFillRectangle(d,w,g,xl,yl,xs,ys); \
if (xl<x) \
(x<xl+xs)?XFillRectangle(d,w,g,xl,yl,x-xl,ys): \
XFillRectangle(d,w,g,xl,yl,xs,ys); \
else if (xl>x) \
(x>xl-xs)?XFillRectangle(d,w,g,x+xs,yl,xl-x,ys): \
XFillRectangle(d,w,g,xl,yl,xs,ys)
ENTRYPOINT void
draw_julia (ModeInfo * mi)
{
Display *display = MI_DISPLAY(mi);
Window window = MI_WINDOW(mi);
GC gc = MI_GC(mi);
juliastruct *jp = &julias[MI_SCREEN(mi)];
double r, theta;
register double xr = 0.0, xi = 0.0;
int k = 64, rnd = 0, i, j;
XPoint *xp = jp->pointBuffer[jp->buffer], old_circle, new_circle;
old_circle.x = (int) (jp->centerx * jp->cr / 2) + jp->centerx - 2;
old_circle.y = (int) (jp->centery * jp->ci / 2) + jp->centery - 2;
incr(mi, jp);
new_circle.x = (int) (jp->centerx * jp->cr / 2) + jp->centerx - 2;
new_circle.y = (int) (jp->centery * jp->ci / 2) + jp->centery - 2;
XSetForeground(display, gc, MI_WIN_BLACK_PIXEL(mi));
XFillArc(display, window, gc,
old_circle.x-jp->circsize/2-2,
old_circle.y-jp->circsize/2-2,
jp->circsize+4, jp->circsize+4,
0, 360*64);
/* draw a circle at the c-parameter so you can see it's effect on the
structure of the julia set */
XSetForeground(display, jp->stippledGC, MI_WIN_WHITE_PIXEL(mi));
#ifndef HAVE_JWXYZ
XSetTSOrigin(display, jp->stippledGC, new_circle.x, new_circle.y);
XSetStipple(display, jp->stippledGC, jp->pixmap);
XSetFillStyle(display, jp->stippledGC, FillOpaqueStippled);
#endif /* HAVE_JWXYZ */
XDrawArc(display, window, jp->stippledGC,
new_circle.x-jp->circsize/2,
new_circle.y-jp->circsize/2,
jp->circsize, jp->circsize,
0, 360*64);
if (jp->erase == 1) {
XDrawPoints(display, window, gc,
jp->pointBuffer[jp->buffer], numpoints, CoordModeOrigin);
}
jp->inc++;
if (MI_NPIXELS(mi) > 2) {
XSetForeground(display, gc, MI_PIXEL(mi, jp->pix));
if (++jp->pix >= MI_NPIXELS(mi))
jp->pix = 0;
} else
XSetForeground(display, gc, MI_WIN_WHITE_PIXEL(mi));
while (k--) {
/* save calls to LRAND by using bit shifts over and over on the same
int for 32 iterations, then get a new random int */
if (!(k % 32))
rnd = LRAND();
/* complex sqrt: x^0.5 = radius^0.5*(cos(theta/2) + i*sin(theta/2)) */
xi -= jp->ci;
xr -= jp->cr;
/* Avoid atan2: DOMAIN error message */
if (xi == 0.0 && xr == 0.0)
theta = 0.0;
else
theta = atan2(xi, xr) / 2.0;
/*r = pow(xi * xi + xr * xr, 0.25); */
r = sqrt(sqrt(xi * xi + xr * xr)); /* 3 times faster */
xr = r * cos(theta);
xi = r * sin(theta);
if ((rnd >> (k % 32)) & 0x1) {
xi = -xi;
xr = -xr;
}
xp->x = jp->centerx + (int) ((jp->centerx >> 1) * xr);
xp->y = jp->centery + (int) ((jp->centery >> 1) * xi);
xp++;
}
jp->itree = 0;
apply(jp, xr, xi, jp->depth);
XDrawPoints(display, window, gc,
jp->pointBuffer[jp->buffer], numpoints, CoordModeOrigin);
jp->buffer++;
if (jp->buffer > jp->nbuffers - 1) {
jp->buffer -= jp->nbuffers;
jp->erase = 1;
}
if (jp->redrawing) {
for (i = 0; i < REDRAWSTEP; i++) {
j = (jp->buffer - jp->redrawpos + jp->nbuffers) % jp->nbuffers;
XDrawPoints(display, window, gc,
jp->pointBuffer[j], numpoints, CoordModeOrigin);
if (++(jp->redrawpos) >= jp->nbuffers) {
jp->redrawing = 0;
break;
}
}
}
}
ENTRYPOINT void
free_julia (ModeInfo * mi)
{
Display *display = MI_DISPLAY(mi);
juliastruct *jp = &julias[MI_SCREEN(mi)];
int buffer;
if (jp->pointBuffer) {
for (buffer = 0; buffer < jp->nbuffers; buffer++)
if (jp->pointBuffer[buffer])
(void) free((void *) jp->pointBuffer[buffer]);
(void) free((void *) jp->pointBuffer);
}
if (jp->stippledGC != None)
XFreeGC(display, jp->stippledGC);
if (jp->pixmap != None)
XFreePixmap(display, jp->pixmap);
#ifndef HAVE_JWXYZ
if (jp->cursor)
XFreeCursor (display, jp->cursor);
#endif
}
#ifndef STANDALONE
ENTRYPOINT void
refresh_julia (ModeInfo * mi)
{
juliastruct *jp = &julias[MI_SCREEN(mi)];
jp->redrawing = 1;
jp->redrawpos = 0;
}
#endif
XSCREENSAVER_MODULE ("Julia", julia)