566 lines
14 KiB
C
566 lines
14 KiB
C
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/* -*- Mode: C; tab-width: 4 -*- */
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/* ifs --- modified iterated functions system */
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#if !defined( lint ) && !defined( SABER )
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static const char sccsid[] = "@(#)ifs.c 5.00 2000/11/01 xlockmore";
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#endif
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/*-
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* Copyright (c) 1997 by Massimino Pascal <Pascal.Massimon@ens.fr>
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*
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* Permission to use, copy, modify, and distribute this software and its
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* documentation for any purpose and without fee is hereby granted,
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* provided that the above copyright notice appear in all copies and that
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* both that copyright notice and this permission notice appear in
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* supporting documentation.
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*
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* This file is provided AS IS with no warranties of any kind. The author
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* shall have no liability with respect to the infringement of copyrights,
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* trade secrets or any patents by this file or any part thereof. In no
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* event will the author be liable for any lost revenue or profits or
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* other special, indirect and consequential damages.
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*
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* If this mode is weird and you have an old MetroX server, it is buggy.
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* There is a free SuSE-enhanced MetroX X server that is fine.
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*
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* When shown ifs, Diana Rose (4 years old) said, "It looks like dancing."
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*
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* Revision History:
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* 22-Dec-2004: TDA: Replace Gauss_Rand with a real Gaussian. Fix
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* glitches where x=0 or y=0.
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* 01-Nov-2000: Allocation checks
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* 10-May-1997: jwz@jwz.org: turned into a standalone program.
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* Made it render into an offscreen bitmap and then copy
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* that onto the screen, to reduce flicker.
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*/
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#ifdef STANDALONE
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#define MODE_ifs
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#define PROGCLASS "IFS"
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#define HACK_INIT init_ifs
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#define HACK_DRAW draw_ifs
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#define ifs_opts xlockmore_opts
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#define DEFAULTS "*delay: 1000 \n" \
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"*ncolors: 100 \n"
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#define SMOOTH_COLORS
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#include "xlockmore.h" /* in xscreensaver distribution */
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#else /* STANDALONE */
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#include "xlock.h" /* in xlockmore distribution */
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#endif /* STANDALONE */
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#ifdef MODE_ifs
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ModeSpecOpt ifs_opts =
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{0, (XrmOptionDescRec *) NULL, 0, (argtype *) NULL, (OptionStruct *) NULL};
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#ifdef USE_MODULES
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ModStruct ifs_description =
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{"ifs", "init_ifs", "draw_ifs", "release_ifs",
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"init_ifs", "init_ifs", (char *) NULL, &ifs_opts,
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1000, 1, 1, 1, 64, 1.0, "",
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"Shows a modified iterated function system", 0, NULL};
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#endif
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/*****************************************************/
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typedef float DBL;
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typedef int F_PT;
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/* typedef float F_PT; */
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/*****************************************************/
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#define FIX 12
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#define UNIT ( 1<<FIX )
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#define MAX_SIMI 6
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/* settings for a PC 120Mhz... */
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#define MAX_DEPTH_2 10
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#define MAX_DEPTH_3 6
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#define MAX_DEPTH_4 4
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#define MAX_DEPTH_5 3
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#define DBL_To_F_PT(x) (F_PT)( (DBL)(UNIT)*(x) )
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typedef struct Similitude_Struct SIMI;
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typedef struct Fractal_Struct FRACTAL;
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struct Similitude_Struct {
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DBL c_x, c_y;
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DBL r, r2, A, A2;
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F_PT Ct, St, Ct2, St2;
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F_PT Cx, Cy;
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F_PT R, R2;
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};
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struct Fractal_Struct {
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int Nb_Simi;
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SIMI Components[5 * MAX_SIMI];
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int Depth, Col;
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int Count, Speed;
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int Width, Height, Lx, Ly;
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DBL r_mean, dr_mean, dr2_mean;
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int Cur_Pt, Max_Pt;
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XPoint *Buffer1, *Buffer2;
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Pixmap dbuf;
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GC dbuf_gc;
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};
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static FRACTAL *Root = (FRACTAL *) NULL, *Cur_F;
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static XPoint *Buf;
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static int Cur_Pt;
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/*****************************************************/
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#if 0
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static DBL
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Gauss_Rand(DBL c, DBL A, DBL S)
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{
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DBL y;
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y = (DBL) LRAND() / MAXRAND;
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y = A * (1.0 - exp(-y * y * S)) / (1.0 - exp(-S));
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if (NRAND(2))
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return (c + y);
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return (c - y);
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}
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static DBL
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Half_Gauss_Rand(DBL c, DBL A, DBL S)
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{
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DBL y;
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y = (DBL) LRAND() / MAXRAND;
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y = A * (1.0 - exp(-y * y * S)) / (1.0 - exp(-S));
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return (c + y);
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}
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#else
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/* I don't know that it makes a difference, but these actually *are*
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Gaussians. [TDA] */
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/* Generate Gaussian random number: mean c, "amplitude" A (actually
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A is 3*standard deviation). 'S' is unused. */
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/* Note this generates a pair of gaussian variables, so it saves one
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to give out next time it's called */
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static double
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Gauss_Rand(DBL c, DBL A, DBL S)
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{
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static double d;
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static Bool ready = 0;
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if(ready) {
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ready = 0;
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return c + A/3 * d;
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} else {
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double x, y, w;
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do {
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x = 2.0 * (double)LRAND() / MAXRAND - 1.0;
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y = 2.0 * (double)LRAND() / MAXRAND - 1.0;
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w = x*x + y*y;
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} while(w >= 1.0);
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w = sqrt((-2 * log(w))/w);
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ready = 1;
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d = x * w;
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return c + A/3 * y * w;
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}
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}
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static double
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Half_Gauss_Rand(DBL c, DBL A, DBL S)
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{
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static double d;
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static Bool ready = 0;
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if(ready) {
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ready = 0;
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return c + A/3 * d;
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} else {
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double x, y, w;
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do {
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x = (double)LRAND() / MAXRAND;
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y = (double)LRAND() / MAXRAND;
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w = x*x + y*y;
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} while(w >= 1.0);
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w = sqrt((-2 * log(w))/w);
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ready = 1;
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d = x * w;
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return c + A/3 * y * w;
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}
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}
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#endif
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static void
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Random_Simis(FRACTAL * F, SIMI * Cur, int i)
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{
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while (i--) {
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Cur->c_x = Gauss_Rand(0.0, .8, 4.0);
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Cur->c_y = Gauss_Rand(0.0, .8, 4.0);
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Cur->r = Gauss_Rand(F->r_mean, F->dr_mean, 3.0);
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Cur->r2 = Half_Gauss_Rand(0.0, F->dr2_mean, 2.0);
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Cur->A = Gauss_Rand(0.0, 360.0, 4.0) * (M_PI / 180.0);
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Cur->A2 = Gauss_Rand(0.0, 360.0, 4.0) * (M_PI / 180.0);
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Cur++;
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}
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}
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static void
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free_ifs_buffers(FRACTAL *Fractal)
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{
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if (Fractal->Buffer1 != NULL) {
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free(Fractal->Buffer1);
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Fractal->Buffer1 = (XPoint *) NULL;
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}
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if (Fractal->Buffer2 != NULL) {
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free(Fractal->Buffer2);
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Fractal->Buffer2 = (XPoint *) NULL;
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}
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}
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static void
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free_ifs(Display *display, FRACTAL *Fractal)
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{
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free_ifs_buffers(Fractal);
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if (Fractal->dbuf != None) {
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XFreePixmap(display, Fractal->dbuf);
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Fractal->dbuf = None;
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}
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if (Fractal->dbuf_gc != None) {
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XFreeGC(display, Fractal->dbuf_gc);
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Fractal->dbuf_gc = None;
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}
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}
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/***************************************************************/
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void
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init_ifs(ModeInfo * mi)
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{
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Display *display = MI_DISPLAY(mi);
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Window window = MI_WINDOW(mi);
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GC gc = MI_GC(mi);
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int i;
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FRACTAL *Fractal;
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if (Root == NULL) {
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Root = (FRACTAL *) calloc(
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MI_NUM_SCREENS(mi), sizeof (FRACTAL));
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if (Root == NULL)
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return;
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}
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Fractal = &Root[MI_SCREEN(mi)];
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free_ifs_buffers(Fractal);
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i = (NRAND(4)) + 2; /* Number of centers */
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switch (i) {
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case 3:
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Fractal->Depth = MAX_DEPTH_3;
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Fractal->r_mean = .6;
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Fractal->dr_mean = .4;
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Fractal->dr2_mean = .3;
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break;
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case 4:
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Fractal->Depth = MAX_DEPTH_4;
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Fractal->r_mean = .5;
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Fractal->dr_mean = .4;
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Fractal->dr2_mean = .3;
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break;
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case 5:
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Fractal->Depth = MAX_DEPTH_5;
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Fractal->r_mean = .5;
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Fractal->dr_mean = .4;
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Fractal->dr2_mean = .3;
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break;
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default:
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case 2:
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Fractal->Depth = MAX_DEPTH_2;
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Fractal->r_mean = .7;
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Fractal->dr_mean = .3;
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Fractal->dr2_mean = .4;
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break;
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}
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/* (void) fprintf( stderr, "N=%d\n", i ); */
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Fractal->Nb_Simi = i;
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Fractal->Max_Pt = Fractal->Nb_Simi - 1;
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for (i = 0; i <= Fractal->Depth + 2; ++i)
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Fractal->Max_Pt *= Fractal->Nb_Simi;
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if ((Fractal->Buffer1 = (XPoint *) calloc(Fractal->Max_Pt,
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sizeof (XPoint))) == NULL) {
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free_ifs(display, Fractal);
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return;
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}
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if ((Fractal->Buffer2 = (XPoint *) calloc(Fractal->Max_Pt,
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sizeof (XPoint))) == NULL) {
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free_ifs(display, Fractal);
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return;
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}
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Fractal->Speed = 6;
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Fractal->Width = MI_WIDTH(mi);
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Fractal->Height = MI_HEIGHT(mi);
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Fractal->Cur_Pt = 0;
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Fractal->Count = 0;
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Fractal->Lx = (Fractal->Width - 1) / 2;
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Fractal->Ly = (Fractal->Height - 1) / 2;
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Fractal->Col = NRAND(MI_NPIXELS(mi) - 1) + 1;
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Random_Simis(Fractal, Fractal->Components, 5 * MAX_SIMI);
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#ifndef NO_DBUF
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if (Fractal->dbuf != None)
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XFreePixmap(display, Fractal->dbuf);
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Fractal->dbuf = XCreatePixmap(display, window,
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Fractal->Width, Fractal->Height, 1);
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/* Allocation checked */
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if (Fractal->dbuf != None) {
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XGCValues gcv;
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gcv.foreground = 0;
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gcv.background = 0;
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gcv.graphics_exposures = False;
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gcv.function = GXcopy;
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if (Fractal->dbuf_gc != None)
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XFreeGC(display, Fractal->dbuf_gc);
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if ((Fractal->dbuf_gc = XCreateGC(display, Fractal->dbuf,
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GCForeground | GCBackground | GCGraphicsExposures | GCFunction,
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&gcv)) == None) {
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XFreePixmap(display, Fractal->dbuf);
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Fractal->dbuf = None;
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} else {
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XFillRectangle(display, Fractal->dbuf,
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Fractal->dbuf_gc, 0, 0, Fractal->Width, Fractal->Height);
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XSetBackground(display, gc, MI_BLACK_PIXEL(mi));
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XSetFunction(display, gc, GXcopy);
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}
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}
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#endif
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MI_CLEARWINDOW(mi);
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/* don't want any exposure events from XCopyPlane */
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XSetGraphicsExposures(display, gc, False);
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}
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/***************************************************************/
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/* Should be taken care of already... but just in case */
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#if !defined( __GNUC__ ) && !defined(__cplusplus) && !defined(c_plusplus)
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#undef inline
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#define inline /* */
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#endif
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static inline void
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Transform(SIMI * Simi, F_PT xo, F_PT yo, F_PT * x, F_PT * y)
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{
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F_PT xx, yy;
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xo = xo - Simi->Cx;
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xo = (xo * Simi->R) / UNIT;
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yo = yo - Simi->Cy;
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yo = (yo * Simi->R) / UNIT;
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xx = xo - Simi->Cx;
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xx = (xx * Simi->R2) / UNIT;
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yy = -yo - Simi->Cy;
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yy = (yy * Simi->R2) / UNIT;
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*x = ((xo * Simi->Ct - yo * Simi->St + xx * Simi->Ct2 - yy * Simi->St2) / UNIT) + Simi->Cx;
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*y = ((xo * Simi->St + yo * Simi->Ct + xx * Simi->St2 + yy * Simi->Ct2) / UNIT) + Simi->Cy;
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}
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/***************************************************************/
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static void
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Trace(FRACTAL * F, F_PT xo, F_PT yo)
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{
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F_PT x, y, i;
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SIMI *Cur;
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Cur = Cur_F->Components;
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for (i = Cur_F->Nb_Simi; i; --i, Cur++) {
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Transform(Cur, xo, yo, &x, &y);
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Buf->x = (short) (F->Lx + ((double)x * F->Lx / (UNIT * 2)));
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Buf->y = (short) (F->Ly - ((double)y * F->Ly / (UNIT * 2)));
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Buf++;
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Cur_Pt++;
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if (F->Depth && ((x - xo) >> 4) && ((y - yo) >> 4)) {
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F->Depth--;
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Trace(F, x, y);
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F->Depth++;
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}
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}
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}
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static void
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Draw_Fractal(ModeInfo * mi)
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{
|
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Display *display = MI_DISPLAY(mi);
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Window window = MI_WINDOW(mi);
|
||
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GC gc = MI_GC(mi);
|
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FRACTAL *F = &Root[MI_SCREEN(mi)];
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int i, j;
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F_PT x, y, xo, yo;
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SIMI *Cur, *Simi;
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|
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for (Cur = F->Components, i = F->Nb_Simi; i; --i, Cur++) {
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||
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Cur->Cx = DBL_To_F_PT(Cur->c_x);
|
||
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Cur->Cy = DBL_To_F_PT(Cur->c_y);
|
||
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||
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Cur->Ct = DBL_To_F_PT(cos(Cur->A));
|
||
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Cur->St = DBL_To_F_PT(sin(Cur->A));
|
||
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Cur->Ct2 = DBL_To_F_PT(cos(Cur->A2));
|
||
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Cur->St2 = DBL_To_F_PT(sin(Cur->A2));
|
||
|
|
||
|
Cur->R = DBL_To_F_PT(Cur->r);
|
||
|
Cur->R2 = DBL_To_F_PT(Cur->r2);
|
||
|
}
|
||
|
|
||
|
|
||
|
Cur_Pt = 0;
|
||
|
Cur_F = F;
|
||
|
Buf = F->Buffer2;
|
||
|
for (Cur = F->Components, i = F->Nb_Simi; i; --i, Cur++) {
|
||
|
xo = Cur->Cx;
|
||
|
yo = Cur->Cy;
|
||
|
for (Simi = F->Components, j = F->Nb_Simi; j; --j, Simi++) {
|
||
|
if (Simi == Cur)
|
||
|
continue;
|
||
|
Transform(Simi, xo, yo, &x, &y);
|
||
|
Trace(F, x, y);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/* Erase previous */
|
||
|
if (F->Cur_Pt) {
|
||
|
XSetForeground(display, gc, MI_BLACK_PIXEL(mi));
|
||
|
if (F->dbuf != None) {
|
||
|
XSetForeground(display, F->dbuf_gc, 0);
|
||
|
/* XDrawPoints(display, F->dbuf, F->dbuf_gc, F->Buffer1, F->Cur_Pt,
|
||
|
CoordModeOrigin); */
|
||
|
XFillRectangle(display, F->dbuf, F->dbuf_gc, 0, 0,
|
||
|
F->Width, F->Height);
|
||
|
} else
|
||
|
XDrawPoints(display, window, gc, F->Buffer1, F->Cur_Pt, CoordModeOrigin);
|
||
|
}
|
||
|
if (MI_NPIXELS(mi) < 2)
|
||
|
XSetForeground(display, gc, MI_WHITE_PIXEL(mi));
|
||
|
else
|
||
|
XSetForeground(display, gc, MI_PIXEL(mi, F->Col % MI_NPIXELS(mi)));
|
||
|
if (Cur_Pt) {
|
||
|
if (F->dbuf != None) {
|
||
|
XSetForeground(display, F->dbuf_gc, 1);
|
||
|
XDrawPoints(display, F->dbuf, F->dbuf_gc, F->Buffer2, Cur_Pt,
|
||
|
CoordModeOrigin);
|
||
|
} else
|
||
|
XDrawPoints(display, window, gc, F->Buffer2, Cur_Pt, CoordModeOrigin);
|
||
|
}
|
||
|
if (F->dbuf != None)
|
||
|
XCopyPlane(display, F->dbuf, window, gc, 0, 0, F->Width, F->Height, 0, 0, 1);
|
||
|
|
||
|
F->Cur_Pt = Cur_Pt;
|
||
|
Buf = F->Buffer1;
|
||
|
F->Buffer1 = F->Buffer2;
|
||
|
F->Buffer2 = Buf;
|
||
|
}
|
||
|
|
||
|
|
||
|
void
|
||
|
draw_ifs(ModeInfo * mi)
|
||
|
{
|
||
|
int i;
|
||
|
DBL u, uu, v, vv, u0, u1, u2, u3;
|
||
|
SIMI *S, *S1, *S2, *S3, *S4;
|
||
|
FRACTAL *F;
|
||
|
|
||
|
if (Root == NULL)
|
||
|
return;
|
||
|
F = &Root[MI_SCREEN(mi)];
|
||
|
if (F->Buffer1 == NULL)
|
||
|
return;
|
||
|
|
||
|
u = (DBL) (F->Count) * (DBL) (F->Speed) / 1000.0;
|
||
|
uu = u * u;
|
||
|
v = 1.0 - u;
|
||
|
vv = v * v;
|
||
|
u0 = vv * v;
|
||
|
u1 = 3.0 * vv * u;
|
||
|
u2 = 3.0 * v * uu;
|
||
|
u3 = u * uu;
|
||
|
|
||
|
S = F->Components;
|
||
|
S1 = S + F->Nb_Simi;
|
||
|
S2 = S1 + F->Nb_Simi;
|
||
|
S3 = S2 + F->Nb_Simi;
|
||
|
S4 = S3 + F->Nb_Simi;
|
||
|
|
||
|
for (i = F->Nb_Simi; i; --i, S++, S1++, S2++, S3++, S4++) {
|
||
|
S->c_x = u0 * S1->c_x + u1 * S2->c_x + u2 * S3->c_x + u3 * S4->c_x;
|
||
|
S->c_y = u0 * S1->c_y + u1 * S2->c_y + u2 * S3->c_y + u3 * S4->c_y;
|
||
|
S->r = u0 * S1->r + u1 * S2->r + u2 * S3->r + u3 * S4->r;
|
||
|
S->r2 = u0 * S1->r2 + u1 * S2->r2 + u2 * S3->r2 + u3 * S4->r2;
|
||
|
S->A = u0 * S1->A + u1 * S2->A + u2 * S3->A + u3 * S4->A;
|
||
|
S->A2 = u0 * S1->A2 + u1 * S2->A2 + u2 * S3->A2 + u3 * S4->A2;
|
||
|
}
|
||
|
|
||
|
MI_IS_DRAWN(mi) = True;
|
||
|
|
||
|
Draw_Fractal(mi);
|
||
|
|
||
|
if (F->Count >= 1000 / F->Speed) {
|
||
|
S = F->Components;
|
||
|
S1 = S + F->Nb_Simi;
|
||
|
S2 = S1 + F->Nb_Simi;
|
||
|
S3 = S2 + F->Nb_Simi;
|
||
|
S4 = S3 + F->Nb_Simi;
|
||
|
|
||
|
for (i = F->Nb_Simi; i; --i, S++, S1++, S2++, S3++, S4++) {
|
||
|
S2->c_x = 2.0 * S4->c_x - S3->c_x;
|
||
|
S2->c_y = 2.0 * S4->c_y - S3->c_y;
|
||
|
S2->r = 2.0 * S4->r - S3->r;
|
||
|
S2->r2 = 2.0 * S4->r2 - S3->r2;
|
||
|
S2->A = 2.0 * S4->A - S3->A;
|
||
|
S2->A2 = 2.0 * S4->A2 - S3->A2;
|
||
|
|
||
|
*S1 = *S4;
|
||
|
}
|
||
|
Random_Simis(F, F->Components + 3 * F->Nb_Simi, F->Nb_Simi);
|
||
|
|
||
|
Random_Simis(F, F->Components + 4 * F->Nb_Simi, F->Nb_Simi);
|
||
|
|
||
|
F->Count = 0;
|
||
|
} else
|
||
|
F->Count++;
|
||
|
|
||
|
F->Col++;
|
||
|
}
|
||
|
|
||
|
|
||
|
/***************************************************************/
|
||
|
|
||
|
void
|
||
|
release_ifs(ModeInfo * mi)
|
||
|
{
|
||
|
if (Root != NULL) {
|
||
|
int screen;
|
||
|
|
||
|
for (screen = 0; screen < MI_NUM_SCREENS(mi); screen++)
|
||
|
free_ifs(MI_DISPLAY(mi), &Root[screen]);
|
||
|
free(Root);
|
||
|
Root = (FRACTAL *) NULL;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
#endif /* MODE_ifs */
|