http://packetstormsecurity.org/UNIX/admin/xscreensaver-4.14.tar.gz

[xscreensaver] / hacks / swirl.c

/* -*- Mode: C; tab-width: 4 -*-
 * swirl --- swirly color-cycling patterns.
 */
#if 0
static const char sccsid[] = "@(#)swirl.c       4.00 97/01/01 xlockmore";
#endif

/* Copyright (c) 1994 M.Dobie <mrd@ecs.soton.ac.uk>
 *
 * 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.
 *
 * 13-May-97: jwz@jwz.org: turned into a standalone program.
 * 21-Apr-95: improved startup time for TrueColour displays
 *            (limited to 16bpp to save memory) S.Early <sde1000@cam.ac.uk>
 * 09-Jan-95: fixed colour maps (more colourful) and the image now spirals
 *            outwards from the centre with a fixed number of points drawn
 *            every iteration. Thanks to M.Dobie <mrd@ecs.soton.ac.uk>.
 * 1994:      written.   Copyright (c) 1994 M.Dobie <mrd@ecs.soton.ac.uk>
 *            based on original code by R.Taylor
 */

#ifdef STANDALONE
# define PROGCLASS                                      "Swirl"
# define HACK_INIT                                      init_swirl
# define HACK_DRAW                                      draw_swirl
# define swirl_opts                                     xlockmore_opts
# define DEFAULTS       "*count:                5       \n"                     \
                                        "*delay:                10000   \n"                     \
                                        "*ncolors:              200     \n"                     \
                                        "*useSHM:               True    \n"
# define SMOOTH_COLORS
# define WRITABLE_COLORS
# include "xlockmore.h"                         /* from the xscreensaver distribution */
# include <X11/Xutil.h>
# ifdef HAVE_XSHM_EXTENSION
#  include "xshm.h"
# endif /* HAVE_XSHM_EXTENSION */
#else  /* !STANDALONE */
# include "xlock.h"                                     /* from the xlockmore distribution */
# undef HAVE_XSHM_EXTENSION
#endif /* !STANDALONE */

ModeSpecOpt swirl_opts = {
  0, NULL, 0, NULL, NULL };

#include <time.h>

/****************************************************************/

#define MASS            4       /* maximum mass of a knot */
#define MIN_RES         5       /* minimim resolution (>= MIN_RES) */
#define MAX_RES         1       /* maximum resolution (>0) */
#define TWO_PLANE_PCNT  30      /* probability for two plane mode (0-100) */
#define RESTART         2500    /* number of cycles before restart */
#define BATCH_DRAW      100     /* points to draw per iteration */

/* knot types */
typedef enum {
        NONE = 0,
        ORBIT = (1 << 0),
        WHEEL = (1 << 1),
        PICASSO = (1 << 2),
        RAY = (1 << 3),
        HOOK = (1 << 4),
        ALL = (1 << 5)
} KNOT_T;

/* a knot */
typedef struct Knot {
        int         x, y;       /* position */
        int         m;          /* mass */
        KNOT_T      t;          /* type in the first (or only) plane */
        KNOT_T      T;          /* type in second plane if there is one */
        int         M;          /* mass in second plane if there is one */
} KNOT     , *KNOT_P;

/* a colour specification */
typedef struct Colour {
        unsigned short r, g, b;
} COLOUR   , *COLOUR_P;

/* drawing direction */
typedef enum {
        DRAW_RIGHT, DRAW_DOWN, DRAW_LEFT, DRAW_UP
} DIR_T;

/****************************************************************/

/* data associated with a swirl window */
typedef struct swirl_data {
        /* window paramaters */
        Window      win;        /* the window */
        int         width, height;      /* window size */
        int         depth;      /* depth */
        int         rdepth;     /* real depth (for XImage) */
        Visual     *visual;     /* visual */

        /* swirl drawing parameters */
        int         n_knots;    /* number of knots */
        KNOT_P      knots;      /* knot details */
        KNOT_T      knot_type;  /* general type of knots */
        int         resolution; /* drawing resolution, 1..5 */
        int         max_resolution;     /* maximum resolution, MAX_RES */
        int         r;          /* pixel step */
        Bool        two_plane;  /* two plane mode? */
        Bool        first_plane;        /* doing first plane? */
        int         start_again;        /* when to restart */

        /* spiral drawing parameters */
        int         x, y;       /* current point */
        DIR_T       direction;  /* current direction */
        int         dir_todo, dir_done;         /* how many points in current direction? */
        int         batch_todo, batch_done;     /* how many points in this batch */
        Bool        started, drawing;   /* are we drawing? */

        /* image stuff */
        unsigned char *image;   /* image data */
        XImage     *ximage;

        /* colours stuff */
        int         colours;    /* how many colours possible */
        int         dcolours;   /* how many colours for shading */
#ifndef STANDALONE
        Bool        fixed_colourmap;    /* fixed colourmap? */
#endif /* !STANDALONE */
        Bool        monochrome; /* monochrome? */
        Colormap    cmap;       /* colour map for the window */
        XColor     *rgb_values; /* colour definitions array */
#ifndef STANDALONE
        int         current_map;        /* current colour map, 0..dcolours-1 */
        unsigned long fg, bg, white, black;     /* black and white pixel values */
        int         shift;      /* colourmap shift */
        int         dshift;     /* colourmap shift while drawing */
        XColor      fgcol, bgcol;       /* foreground and background colour specs */
#endif /* !STANDALONE */
        Bool       off_screen;
} SWIRL    , *SWIRL_P;

#define SWIRLCOLOURS 13

#ifndef STANDALONE
/* basic colours */
static COLOUR basic_colours[SWIRLCOLOURS];
#endif /* !STANDALONE */

/* an array of swirls for each screen */
static SWIRL_P swirls = NULL;

/* 
   random_no

   Return a random integer between 0 and n inclusive

   -      n is the maximum number

   Returns a random integer */

static int
random_no(unsigned int n)
{
        return ((int) ((n + 1) * (double) LRAND() / MAXRAND));
}

/****************************************************************/

/* 
   initialise_swirl

   Initialise all the swirl data

   -      swirl is the swirl data */

static void
initialise_swirl(ModeInfo * mi, SWIRL_P swirl)
{
#ifndef STANDALONE
        Display    *display = MI_DISPLAY(mi);
#endif /* !STANDALONE */

        swirl->width = 0;       /* width and height of window */
        swirl->height = 0;
        swirl->depth = 1;
        swirl->rdepth = 1;
        swirl->visual = NULL;
        swirl->resolution = MIN_RES + 1;        /* current resolution */
        swirl->max_resolution = MAX_RES;        /* maximum resolution */
        swirl->n_knots = 0;     /* number of knots */
        swirl->knot_type = ALL; /* general type of knots */
        swirl->two_plane = False;       /* two plane mode? */
        swirl->first_plane = False;     /* doing first plane? */
        swirl->start_again = -1;        /* restart counter */

        /* drawing parameters */
        swirl->x = 0;
        swirl->y = 0;
        swirl->started = False;
        swirl->drawing = False;

        /* image stuff */
        swirl->image = NULL;    /* image data */
        swirl->ximage = NULL;

        /* colours stuff */
        swirl->colours = 0;     /* how many colours possible */
        swirl->dcolours = 0;    /* how many colours for shading */
        swirl->cmap = (Colormap) NULL;
        swirl->rgb_values = NULL;       /* colour definitions array */
#ifndef STANDALONE
        swirl->current_map = 0; /* current colour map, 0..dcolours-1 */

        /* set up fg fb colour specs */
        swirl->white = MI_WIN_WHITE_PIXEL(mi);
        swirl->black = MI_WIN_BLACK_PIXEL(mi);
#endif /* !STANDALONE */


#ifndef STANDALONE
        swirl->fg = MI_FG_COLOR(mi);
        swirl->bg = MI_BG_COLOR(mi);
        swirl->fgcol.pixel = swirl->fg;
        swirl->bgcol.pixel = swirl->bg;
        XQueryColor(display, MI_COLORMAP(mi), &(swirl->fgcol));
        XQueryColor(display, MI_COLORMAP(mi), &(swirl->bgcol));
#endif /* !STANDALONE */
}

/****************************************************************/

/* 
 * initialise_image
 *
 * Initialise the image for drawing to
 *
 * -      swirl is the swirl data
 */
static void
initialise_image(ModeInfo * mi, SWIRL_P swirl)
{
  Display *dpy = MI_DISPLAY(mi);

  if (swirl->ximage != NULL)
        XDestroyImage(swirl->ximage);

  swirl->ximage = 0;
#ifdef HAVE_XSHM_EXTENSION
  if (mi->use_shm)
        {
          swirl->ximage = create_xshm_image(dpy, swirl->visual, swirl->rdepth,
                                                                                ZPixmap, 0, &mi->shm_info,
                                                                                swirl->width, swirl->height);
          if (!swirl->ximage)
                mi->use_shm = False;
        }
#endif /* HAVE_XSHM_EXTENSION */

  if (!swirl->ximage)
        {
          swirl->ximage = XCreateImage(dpy, swirl->visual, swirl->rdepth, ZPixmap,
                                                                   0, 0, swirl->width, swirl->height,
                                                                   8, 0);
          swirl->image = (unsigned char *)
        calloc(swirl->height, swirl->ximage->bytes_per_line);
      swirl->ximage->data = (char *) swirl->image;
        }
}

/****************************************************************/

#ifndef STANDALONE
/* 
 * initialise_colours
 *
 * Initialise the list of colours from which the colourmaps are derived
 *
 * -      colours is the array to initialise
 * -      saturation is the saturation value to use 0->grey,
 *            1.0->full saturation
 */
static void
initialise_colours(COLOUR * colours, float saturate)
{
        int         i;

        /* start off fully saturated, medium and bright colours */
        colours[0].r = 0xA000;
        colours[0].g = 0x0000;
        colours[0].b = 0x0000;
        colours[1].r = 0xD000;
        colours[1].g = 0x0000;
        colours[1].b = 0x0000;
        colours[2].r = 0x0000;
        colours[2].g = 0x6000;
        colours[2].b = 0x0000;
        colours[3].r = 0x0000;
        colours[3].g = 0x9000;
        colours[3].b = 0x0000;
        colours[4].r = 0x0000;
        colours[4].g = 0x0000;
        colours[4].b = 0xC000;
        colours[5].r = 0x0000;
        colours[5].g = 0x0000;
        colours[5].b = 0xF000;
        colours[6].r = 0xA000;
        colours[6].g = 0x6000;
        colours[6].b = 0x0000;
        colours[7].r = 0xD000;
        colours[7].g = 0x9000;
        colours[7].b = 0x0000;
        colours[8].r = 0xA000;
        colours[8].g = 0x0000;
        colours[8].b = 0xC000;
        colours[9].r = 0xD000;
        colours[9].g = 0x0000;
        colours[9].b = 0xF000;
        colours[10].r = 0x0000;
        colours[10].g = 0x6000;
        colours[10].b = 0xC000;
        colours[11].r = 0x0000;
        colours[11].g = 0x9000;
        colours[11].b = 0xF000;
        colours[12].r = 0xA000;
        colours[12].g = 0xA000;
        colours[12].b = 0xA000;

        /* add white for low saturation */
        for (i = 0; i < SWIRLCOLOURS - 1; i++) {
                unsigned short max_rg, max;

                /* what is the max intensity for this colour? */
                max_rg = (colours[i].r > colours[i].g) ? colours[i].r : colours[i].g;
                max = (max_rg > colours[i].b) ? max_rg : colours[i].b;

                /* bring elements up to max as saturation approaches 0.0 */
                colours[i].r += (unsigned short) ((float) (1.0 - saturate) *
                                               ((float) max - colours[i].r));
                colours[i].g += (unsigned short) ((float) (1.0 - saturate) *
                                               ((float) max - colours[i].g));
                colours[i].b += (unsigned short) ((float) (1.0 - saturate) *
                                               ((float) max - colours[i].b));
        }
}
#endif /* !STANDALONE */

/****************************************************************/

#ifndef STANDALONE
/* 
 * set_black_and_white
 *
 * Set the entries for foreground & background pixels and
 * WhitePixel & BlackPixel in an array of colour specifications.
 *
 * -      swirl is the swirl data
 * -      values is the array of specifications 
 */
static void
set_black_and_white(SWIRL_P swirl, XColor * values)
{
        unsigned long white, black;

        /* where is black and white? */
        white = swirl->white;
        black = swirl->black;

        /* set black and white up */
        values[white].flags = DoRed | DoGreen | DoBlue;
        values[white].pixel = white;
        values[white].red = 0xFFFF;
        values[white].green = 0xFFFF;
        values[white].blue = 0xFFFF;
        values[black].flags = DoRed | DoGreen | DoBlue;
        values[black].pixel = black;
        values[black].red = 0;
        values[black].green = 0;
        values[black].blue = 0;

        /* copy the colour specs from the original entries */
        values[swirl->fg] = swirl->fgcol;
        values[swirl->bg] = swirl->bgcol;
}

/****************************************************************/

/* 
 * set_colour
 *
 * Set an entry in an array of XColor specifications. The given entry will be
 * set to the given colour. If the entry corresponds to the foreground,
 * background, WhitePixel, or BlackPixel it is ignored and the given colour
 * is is put in the next entry.
 *
 * Therefore, the given colour may be placed up to four places after the
 * specified entry in the array, if foreground, background, white, or black
 * intervene.
 *
 * -      swirl is the swirl data
 * -      value points to a pointer to the array entry. It gets updated to
 *            point to the next free entry.
 * -      pixel points to the current pixel number. It gets updated.
 * -      c points to the colour to add
 */
static void
set_colour(SWIRL_P swirl, XColor ** value, unsigned long *pixel, COLOUR_P c)
{
        Bool        done;
        unsigned long fg, bg, white, black;

        /* where are foreground, background, white, and black? */
        fg = swirl->fg;
        bg = swirl->bg;
        white = swirl->white;
        black = swirl->black;

        /* haven't set it yet */
        done = False;

        /* try and set the colour */
        while (!done) {
                (**value).flags = DoRed | DoGreen | DoBlue;
                (**value).pixel = *pixel;

                /* white, black, fg, bg, or a colour? */
                if ((*pixel != fg) && (*pixel != bg) &&
                    (*pixel != white) && (*pixel != black)) {
                        (**value).red = c->r;
                        (**value).green = c->g;
                        (**value).blue = c->b;

                        /* now we've done it */
                        done = True;
                }
                /* next pixel */
                (*value)++;
                (*pixel)++;
        }
}

/****************************************************************/

/* 
 * get_colour
 *
 * Get an entry from an array of XColor specifications. The next colour from
 * the array will be returned. Foreground, background, WhitePixel, or
 * BlackPixel will be ignored.
 *
 * -      swirl is the swirl data
 * -      value points the array entry. It is updated to point to the entry
 *            following the one returned.
 * -      c is set to the colour found
 */
static void
get_colour(SWIRL_P swirl, XColor ** value, COLOUR_P c)
{
        Bool        done;
        unsigned long fg, bg, white, black;

        /* where is white and black? */
        fg = swirl->fg;
        bg = swirl->bg;
        white = swirl->white;
        black = swirl->black;

        /* haven't set it yet */
        done = False;

        /* try and set the colour */
        while (!done) {
                /* black, white or a colour? */
                if (((*value)->pixel != fg) && ((*value)->pixel != bg) &&
                  ((*value)->pixel != white) && ((*value)->pixel != black)) {
                        c->r = (*value)->red;
                        c->g = (*value)->green;
                        c->b = (*value)->blue;

                        /* now we've done it */
                        done = True;
                }
                /* next value */
                (*value)++;
        }
}
#endif /* !STANDALONE */

/****************************************************************/

#ifndef STANDALONE
/* 
 *  interpolate
 *
 * Generate n colours between c1 and c2.  n XColors at *value are set up with
 * ascending pixel values.
 *
 * If the pixel range includes BlackPixel or WhitePixel they are set to black
 * and white respectively but otherwise ignored. Therefore, up to n+2 colours
 * may actually be set by this function.
 *
 * -      swirl is the swirl data
 * -      values points a pointer to an array of XColors to update
 * -      pixel points to the pixel number to start at
 * -      k n is the number of colours to generate
 * -      c1, c2 are the colours to interpolate between
 */
static void
interpolate(SWIRL_P swirl, XColor ** values, unsigned long *pixel, int n, COLOUR_P c1, COLOUR_P c2)
{
        int         i, r, g, b;
        COLOUR      c;
        unsigned short maxv;

        /* maximum value */
        maxv = (255 << 8);

        for (i = 0; i < n / 2 && (int) *pixel < swirl->colours; i++) {
                /* work out the colour */
                r = c1->r + 2 * i * ((int) c2->r) / n;
                c.r = (r > (int) maxv) ? maxv : r;
                g = c1->g + 2 * i * ((int) c2->g) / n;
                c.g = (g > (int) maxv) ? maxv : g;
                b = c1->b + 2 * i * ((int) c2->b) / n;
                c.b = (b > (int) maxv) ? maxv : b;

                /* set it up */
                set_colour(swirl, values, pixel, &c);
        }
        for (i = n / 2; i >= 0 && (int) *pixel < swirl->colours; i--) {
                r = c2->r + 2 * i * ((int) c1->r) / n;
                c.r = (r > (int) maxv) ? maxv : r;
                g = c2->g + 2 * i * ((int) c1->g) / n;
                c.g = (g > (int) maxv) ? maxv : g;
                b = c2->b + 2 * i * ((int) c1->b) / n;
                c.b = (b > (int) maxv) ? maxv : b;

                /* set it up */
                set_colour(swirl, values, pixel, &c);
        }
}

/****************************************************************/

/* 
 * basic_map
 *
 * Generate a `random' closed loop colourmap that occupies the whole colour
 * map.
 *
 * -      swirl is the swirl data
 * -      values is the array of colour definitions to set up
 */
static void
basic_map(SWIRL_P swirl, XColor * values)
{
        COLOUR      c[3];
        int         i;
        unsigned short r1, g1, b1, r2, g2, b2, r3, g3, b3;
        int         L1, L2, L3, L;
        unsigned long pixel;
        XColor     *value;

        /* start at the beginning of the colour map */
        pixel = 0;
        value = values;

        /* choose 3 different basic colours at random */
        for (i = 0; i < 3;) {
                int         j;
                Bool        same;

                /* choose colour i */
                c[i] = basic_colours[random_no(SWIRLCOLOURS - 1)];

                /* assume different */
                same = False;

                /* different from the rest? */
                for (j = 0; j < i; j++)
                        if ((c[i].r == c[j].r) &&
                            (c[i].g == c[j].g) &&
                            (c[i].b == c[j].b))
                                same = True;

                /* ready for the next colour? */
                if (!same)
                        i++;
        }

        /* extract components into variables */
        r1 = c[0].r;
        g1 = c[0].g;
        b1 = c[0].b;
        r2 = c[1].r;
        g2 = c[1].g;
        b2 = c[1].b;
        r3 = c[2].r;
        g3 = c[2].g;
        b3 = c[2].b;

        /* work out the lengths of each side of the triangle */
        L1 = (int) sqrt((((double) r1 - r2) * ((double) r1 - r2) +
                         ((double) g1 - g2) * ((double) g1 - g2) +
                         ((double) b1 - b2) * ((double) b1 - b2)));

        L2 = (int) sqrt((((double) r3 - r2) * ((double) r3 - r2) +
                         ((double) g3 - g2) * ((double) g3 - g2) +
                         ((double) b3 - b2) * ((double) b3 - b2)));

        L3 = (int) sqrt((((double) r1 - r3) * ((double) r1 - r3) +
                         ((double) g1 - g3) * ((double) g1 - g3) +
                         ((double) b1 - b3) * ((double) b1 - b3)));

        L = L1 + L2 + L3;

        /* allocate colours in proportion to the lengths of the sides */
        interpolate(swirl, &value, &pixel,
                    (int) ((double) swirl->dcolours * ((double) L1 / (double) L)) + 1, c, c + 1);
        interpolate(swirl, &value, &pixel,
                    (int) ((double) swirl->dcolours * ((double) L2 / (double) L)) + 1, c + 1, c + 2);
        interpolate(swirl, &value, &pixel,
                    (int) ((double) swirl->dcolours * ((double) L3 / (double) L)) + 1, c + 2, c);

        /* fill up any remaining slots (due to rounding) */
        while ((int) pixel < swirl->colours) {
                /* repeat the last colour */
                set_colour(swirl, &value, &pixel, c);
        }

        /* ensure black and white are correct */
        if (!swirl->fixed_colourmap)
                set_black_and_white(swirl, values);
}

/****************************************************************/

/* 
 * pre_rotate
 *
 * Generate pre-rotated versions of the colour specifications
 *
 * -      swirl is the swirl data
 * -      values is an array of colour specifications
 */
static void
pre_rotate(SWIRL_P swirl, XColor * values)
{
        int         i, j;
        XColor     *src, *dest;
        int         dcolours;
        unsigned long pixel;

        /* how many colours to display? */
        dcolours = swirl->dcolours;

        /* start at the first map */
        src = values;
        dest = values + swirl->colours;

        /* generate dcolours-1 rotated maps */
        for (i = 0; i < dcolours - 1; i++) {
                COLOUR      first;

                /* start at the first pixel */
                pixel = 0;

                /* remember the first one and skip it */
                get_colour(swirl, &src, &first);

                /* put a rotated version of src at dest */
                for (j = 0; j < dcolours - 1; j++) {
                        COLOUR      c;

                        /* get the source colour */
                        get_colour(swirl, &src, &c);

                        /* set the colour */
                        set_colour(swirl, &dest, &pixel, &c);
                }

                /* put the first one at the end */
                set_colour(swirl, &dest, &pixel, &first);

                /* NB: src and dest should now be ready for the next table */

                /* ensure black and white are properly set */
                set_black_and_white(swirl, src);
        }
}

/****************************************************************/

/* 
 * create_colourmap
 *
 * Create a read/write colourmap to use
 *
 * -      swirl is the swirl data
 */

static void
create_colourmap(ModeInfo * mi, SWIRL_P swirl)
{
        Display    *display = MI_DISPLAY(mi);
        int         preserve;
        int         n_rotations;
        int         i;
        Bool        truecolor;
  unsigned long redmask, greenmask, bluemask;

        swirl->fixed_colourmap = !setupColormap(mi, &(swirl->colours),
    &truecolor, &redmask, &greenmask, &bluemask);
        preserve = preserveColors(swirl->fg, swirl->bg, swirl->white, swirl->black);

        /* how many colours should we animate? */
        swirl->dcolours = (swirl->colours > preserve + 1) ?
                swirl->colours - preserve : swirl->colours;

        if (MI_NPIXELS(mi) < 2)
                return;

        /* how fast to shift the colourmap? */
        swirl->shift = (swirl->colours > 64) ? swirl->colours / 64 : 1;
        swirl->dshift = (swirl->shift > 1) ? swirl->shift * 2 : 1;

        /* how may colour map rotations are there? */
        n_rotations = (swirl->fixed_colourmap) ? 1 : swirl->dcolours;

        /* allocate space for colour definitions (if not already there) */
        if (swirl->rgb_values == NULL) {
                swirl->rgb_values = (XColor *) calloc((swirl->colours + 3) * n_rotations,
                                                      sizeof (XColor));

                /* create a colour map */
                if (!swirl->fixed_colourmap)
                        swirl->cmap =
                                XCreateColormap(display, swirl->win, swirl->visual, AllocAll);
        }
        /* select a set of colours for the colour map */
        basic_map(swirl, swirl->rgb_values);

        /* are we rotating them? */
        if (!swirl->fixed_colourmap) {
                /* generate rotations of the colour maps */
                pre_rotate(swirl, swirl->rgb_values);

                /* store the colours in the colour map */
                XStoreColors(display, swirl->cmap, swirl->rgb_values, swirl->colours);
        } else {
                if (truecolor) {
                        int         rsh, gsh, bsh;
                        unsigned long int t;

                        t = redmask;
                        for (i = 0; (int) t > 0; i++, t >>= 1);
                        rsh = 16 - i;
                        t = greenmask;
                        for (i = 0; (int) t > 0; i++, t >>= 1);
                        gsh = 16 - i;
                        t = bluemask;
                        for (i = 0; (int) t > 0; i++, t >>= 1);
                        bsh = 16 - i;
                        for (i = 0; i < swirl->colours; i++)
                                swirl->rgb_values[i].pixel =
                                        ((rsh > 0 ? (swirl->rgb_values[i].red) >> rsh :
                                          (swirl->rgb_values[i].red) << (-rsh)) & redmask) |
                                        ((gsh > 0 ? (swirl->rgb_values[i].green) >> gsh :
                                          (swirl->rgb_values[i].green) << (-gsh)) & greenmask) |
                                        ((bsh > 0 ? (swirl->rgb_values[i].blue) >> bsh :
                                          (swirl->rgb_values[i].blue) << (-bsh)) & bluemask);
                } else {
                        /* lookup the colours in the fixed colour map */
                        for (i = 0; i < swirl->colours; i++)
                                (void) XAllocColor(display, MI_COLORMAP(mi),
                                                   &(swirl->rgb_values[i]));
                }
        }
}

/****************************************************************/

/* 
 * install_map
 *
 * Install a new set of colours into the colour map
 *
 * -      dpy is the display
 * -      swirl is the swirl data
 * -      shift is the amount to rotate the colour map by
 */
static void
install_map(Display * dpy, SWIRL_P swirl, int shift)
{
        if (!swirl->fixed_colourmap) {
                /* shift the colour map */
                swirl->current_map = (swirl->current_map + shift) %
                        swirl->dcolours;

                /* store it */
                XStoreColors(dpy, swirl->cmap,
                             swirl->rgb_values +
                             swirl->current_map * swirl->colours,
                             swirl->colours);
        }
}
#endif /* !STANDALONE */

/****************************************************************/

/* 
 * create_knots
 *
 * Initialise the array of knot
 *
 * swirl is the swirl data
 */
static void
create_knots(SWIRL_P swirl)
{
        int         k;
        Bool        orbit, wheel, picasso, ray, hook;
        KNOT_P      knot;

        /* create array for knots */
        if (swirl->knots)
                (void) free((void *) swirl->knots);
        swirl->knots = (KNOT_P) calloc(swirl->n_knots, sizeof (KNOT));

        /* no knots yet */
        orbit = wheel = picasso = ray = hook = False;

        /* what types do we have? */
        if ((int) swirl->knot_type & (int) ALL) {
                orbit = wheel = ray = hook = True;
        } else {
                if ((int) swirl->knot_type & (int) ORBIT)
                        orbit = True;
                if ((int) swirl->knot_type & (int) WHEEL)
                        wheel = True;
                if ((int) swirl->knot_type & (int) PICASSO)
                        picasso = True;
                if ((int) swirl->knot_type & (int) RAY)
                        ray = True;
                if ((int) swirl->knot_type & (int) HOOK)
                        hook = True;
        }

        /* initialise each knot */
        knot = swirl->knots;
        for (k = 0; k < swirl->n_knots; k++) {
                /* position */
                knot->x = random_no((unsigned int) swirl->width);
                knot->y = random_no((unsigned int) swirl->height);

                /* mass */
                knot->m = random_no(MASS) + 1;

                /* can be negative */
                if (random_no(100) > 50)
                        knot->m *= -1;

                /* type */
                knot->t = NONE;
                while (knot->t == NONE) {
                        /* choose a random one from the types available */
                        switch (random_no(4)) {
                                case 0:
                                        if (orbit)
                                                knot->t = ORBIT;
                                        break;
                                case 1:
                                        if (wheel)
                                                knot->t = WHEEL;
                                        break;
                                case 2:
                                        if (picasso)
                                                knot->t = PICASSO;
                                        break;
                                case 3:
                                        if (ray)
                                                knot->t = RAY;
                                        break;
                                case 4:
                                        if (hook)
                                                knot->t = HOOK;
                                        break;
                        }
                }

                /* if two planes, do same for second plane */
                if (swirl->two_plane) {
                        knot->T = NONE;
                        while (knot->T == NONE || knot->T == knot->t) {
                                /* choose a different type */
                                switch (random_no(4)) {
                                        case 0:
                                                if (orbit)
                                                        knot->T = ORBIT;
                                                break;
                                        case 1:
                                                if (wheel)
                                                        knot->T = WHEEL;
                                                break;
                                        case 2:
                                                if (picasso)
                                                        knot->T = PICASSO;
                                                break;
                                        case 3:
                                                if (ray)
                                                        knot->T = RAY;
                                                break;
                                        case 4:
                                                if (hook)
                                                        knot->T = HOOK;
                                                break;
                                }
                        }
                }
                /* next knot */
                knot++;
        }
}

/****************************************************************/

/* 
 * do_point
 *
 * Work out the pixel value at i, j. Ensure it does not clash with BlackPixel
 * or WhitePixel.
 *
 * -      swirl is the swirl data
 * -      i, j is the point to calculate
 *
 * Returns the value of the point
 */
static unsigned long
do_point(SWIRL_P swirl, int i, int j)
{
        int         tT, k, value, add;
        double      dx, dy, theta, dist;
        int         dcolours, qcolours;
        double      rads;
        KNOT_P      knot;

        /* how many colours? */
        dcolours = swirl->dcolours;
        qcolours = dcolours / 4;

        /* colour step round a circle */
        rads = (double) dcolours / (2.0 * M_PI);

        /* start at zero */
        value = 0;

        /* go through all the knots */
        knot = swirl->knots;
        for (k = 0; k < swirl->n_knots; k++) {
                dx = i - knot->x;
                dy = j - knot->y;

                /* in two_plane mode get the appropriate knot type */
                if (swirl->two_plane)
                        tT = (int) ((swirl->first_plane) ? knot->t : knot->T);
                else
                        tT = (int) knot->t;

                /* distance from knot */
                dist = sqrt(dx * dx + dy * dy);

                /* nothing to add at first */
                add = 0;

                /* work out the contribution (if close enough) */
                if (dist > 0.1)
                        switch (tT) {
                                case ORBIT:
                                        add = (int) (dcolours / (1.0 + 0.01 * abs(knot->m) * dist));
                                        break;
                                case WHEEL:
                                        /* Avoid atan2: DOMAIN error message */
                                        if (dy == 0.0 && dx == 0.0)
                                                theta = 1.0;
                                        else
                                                theta = (atan2(dy, dx) + M_PI) / M_PI;
                                        if (theta < 1.0)
                                                add = (int) (dcolours * theta +
                                                  sin(0.1 * knot->m * dist) *
                                                qcolours * exp(-0.01 * dist));
                                        else
                                                add = (int) (dcolours * (theta - 1.0) +
                                                  sin(0.1 * knot->m * dist) *
                                                qcolours * exp(-0.01 * dist));
                                        break;
                                case PICASSO:
                                        add = (int) (dcolours *
                                          fabs(cos(0.002 * knot->m * dist)));
                                        break;
                                case RAY:
                                        /* Avoid atan2: DOMAIN error message */
                                        if (dy == 0.0 && dx == 0.0)
                                                add = 0;
                                        else
                                                add = (int) (dcolours * fabs(sin(2.0 * atan2(dy, dx))));

                                        break;
                                case HOOK:
                                        /* Avoid atan2: DOMAIN error message */
                                        if (dy == 0.0 && dx == 0.0)
                                                add = (int) (0.05 * (abs(knot->m) - 1) * dist);
                                        else
                                                add = (int) (rads * atan2(dy, dx) +
                                                             0.05 * (abs(knot->m) - 1) * dist);
                                        break;
                        }
                /* for a +ve mass add on the contribution else take it off */
                if (knot->m > 0)
                        value += add;
                else
                        value -= add;

                /* next knot */
                knot++;
        }

        /* toggle plane */
        swirl->first_plane = (!swirl->first_plane);

        /* make sure we handle -ve values properly */
        if (value >= 0)
                value = (value % dcolours) + 2;
        else
                value = dcolours - (abs(value) % (dcolours - 1));

#ifndef STANDALONE
        /* if fg and bg are 1 and 0 we should be OK, but just in case */
        while ((dcolours > 2) &&
               (((value % swirl->colours) == (int) swirl->fg) ||
                ((value % swirl->colours) == (int) swirl->bg) ||
                ((value % swirl->colours) == (int) swirl->white) ||
                ((value % swirl->colours) == (int) swirl->black))) {
                value++;
        }
#endif /* !STANDALONE */

        /* definitely make sure it is in range */
        value = value % swirl->colours;

        /* lookup the pixel value if necessary */
#ifndef STANDALONE
        if (swirl->fixed_colourmap && swirl->dcolours > 2)
#endif
                value = swirl->rgb_values[value].pixel;

        /* return it */
        return ((unsigned long) value);
}

/****************************************************************/

/* 
 * draw_block
 *
 * Draw a square block of points with the same value.
 *
 * -      ximage is the XImage to draw on.
 * -      x, y is the top left corner
 * -      s is the length of each side
 * -      v is the value
 */
static void
draw_block(XImage * ximage, int x, int y, int s, unsigned long v)
{
        int         a, b;

        for (a = 0; a < s; a++)
                for (b = 0; b < s; b++) {
                        XPutPixel(ximage, x + b, y + a, v);
                }
}

/****************************************************************/

/* 
 * draw_point  Draw the current point in a swirl pattern onto the XImage
 *
 * -    swirl is the swirl
 * -    win is the window to update
 */
static void
draw_point(ModeInfo * mi, SWIRL_P swirl)
{
        int         r;
        int         x, y;

        /* get current point coordinates and resolution */
        x = swirl->x;
        y = swirl->y;
        r = swirl->r;

        /* check we are within the window */
        if ((x < 0) || (x > swirl->width - r) || (y < 0) || (y > swirl->height - r))
                return;

        /* what style are we drawing? */
        if (swirl->two_plane) {
                int         r2;

                /* halve the block size */
                r2 = r / 2;

                /* interleave blocks at half r */
                draw_block(swirl->ximage, x, y, r2, do_point(swirl, x, y));
                draw_block(swirl->ximage, x + r2, y, r2, do_point(swirl, x + r2, y));
                draw_block(swirl->ximage, x + r2, y + r2, r2, do_point(swirl,
                        x + r2, y + r2));
                draw_block(swirl->ximage, x, y + r2, r2, do_point(swirl, x, y + r2));
        } else
                draw_block(swirl->ximage, x, y, r, do_point(swirl, x, y));

        /* update the screen */

#ifdef HAVE_XSHM_EXTENSION
        if (mi->use_shm)
          XShmPutImage(MI_DISPLAY(mi), MI_WINDOW(mi), MI_GC(mi), swirl->ximage,
                                   x, y, x, y, r, r, False);
        else
#endif /* !HAVE_XSHM_EXTENSION */
          /* PURIFY 4.0.1 on SunOS4 and on Solaris 2 reports a 256 byte memory
                 leak on the next line. */
          XPutImage(MI_DISPLAY(mi), MI_WINDOW(mi), MI_GC(mi), swirl->ximage,
                                x, y, x, y, r, r);
}

/****************************************************************/

/* 
 * next_point  Move to the next point in the spiral pattern
 *  -    swirl is the swirl
 *  -    win is the window to update
 */
static void
next_point(SWIRL_P swirl)
{
        /* more to do in this direction? */
        if (swirl->dir_done < swirl->dir_todo) {
                /* move in the current direction */
                switch (swirl->direction) {
                        case DRAW_RIGHT:
                                swirl->x += swirl->r;
                                break;
                        case DRAW_DOWN:
                                swirl->y += swirl->r;
                                break;
                        case DRAW_LEFT:
                                swirl->x -= swirl->r;
                                break;
                        case DRAW_UP:
                                swirl->y -= swirl->r;
                                break;
                }

                /* done another point */
                swirl->dir_done++;
        } else {
                /* none drawn yet */
                swirl->dir_done = 0;

                /* change direction - check and record if off screen */
                switch (swirl->direction) {
                        case DRAW_RIGHT:
                                swirl->direction = DRAW_DOWN;
                                if (swirl->x > swirl->width - swirl->r) {
                                        /* skip these points */
                                        swirl->dir_done = swirl->dir_todo;
                                        swirl->y += (swirl->dir_todo * swirl->r);

                                        /* check for finish */
                                        if (swirl->off_screen)
                                                swirl->drawing = False;
                                        swirl->off_screen = True;
                                } else
                                        swirl->off_screen = False;
                                break;
                        case DRAW_DOWN:
                                swirl->direction = DRAW_LEFT;
                                swirl->dir_todo++;
                                if (swirl->y > swirl->height - swirl->r) {
                                        /* skip these points */
                                        swirl->dir_done = swirl->dir_todo;
                                        swirl->x -= (swirl->dir_todo * swirl->r);

                                        /* check for finish */
                                        if (swirl->off_screen)
                                                swirl->drawing = False;
                                        swirl->off_screen = True;
                                } else
                                        swirl->off_screen = False;
                                break;
                        case DRAW_LEFT:
                                swirl->direction = DRAW_UP;
                                if (swirl->x < 0) {
                                        /* skip these points */
                                        swirl->dir_done = swirl->dir_todo;
                                        swirl->y -= (swirl->dir_todo * swirl->r);

                                        /* check for finish */
                                        if (swirl->off_screen)
                                                swirl->drawing = False;
                                        swirl->off_screen = True;
                                } else
                                        swirl->off_screen = False;
                                break;
                        case DRAW_UP:
                                swirl->direction = DRAW_RIGHT;
                                swirl->dir_todo++;
                                if (swirl->y < 0) {
                                        /* skip these points */
                                        swirl->dir_done = swirl->dir_todo;
                                        swirl->x += (swirl->dir_todo * swirl->r);

                                        /* check for finish */
                                        if (swirl->off_screen)
                                                swirl->drawing = False;
                                        swirl->off_screen = True;
                                } else
                                        swirl->off_screen = False;
                                break;
                }
        }
}

/****************************************************************/

/* 
 * init_swirl
 *
 * Initialise things for swirling
 *
 * -      win is the window to draw in
 */
void
init_swirl(ModeInfo * mi)
{
        Display    *display = MI_DISPLAY(mi);
        Window      window = MI_WINDOW(mi);
        SWIRL_P     swirl;

        /* does the swirls array exist? */
        if (swirls == NULL) {
                int         i;

                /* allocate an array, one entry for each screen */
                swirls = (SWIRL_P) calloc(ScreenCount(display), sizeof (SWIRL));

                /* initialise them all */
                for (i = 0; i < ScreenCount(display); i++)
                        initialise_swirl(mi, &swirls[i]);
        }
        /* get a pointer to this swirl */
        swirl = &(swirls[MI_SCREEN(mi)]);

        /* get window parameters */
        swirl->win = window;
        swirl->width = MI_WIN_WIDTH(mi);
        swirl->height = MI_WIN_HEIGHT(mi);
        swirl->depth = MI_WIN_DEPTH(mi);
        swirl->rdepth = swirl->depth;
        swirl->visual = MI_VISUAL(mi);

        if (swirl->depth > 16)
                swirl->depth = 16;

        /* initialise image for speeding up drawing */
        initialise_image(mi, swirl);

        /* clear the window (before setting the colourmap) */
        XClearWindow(display, MI_WINDOW(mi));

#ifdef STANDALONE

        swirl->rgb_values = mi->colors;
        swirl->colours = mi->npixels;
        swirl->dcolours = swirl->colours;
/*      swirl->fixed_colourmap = !mi->writable_p;*/

#else /* !STANDALONE */

        /* initialise the colours from which the colourmap is derived */
        initialise_colours(basic_colours, MI_SATURATION(mi));

        /* set up the colour map */
        create_colourmap(mi, swirl);

        /* attach the colour map to the window (if we have one) */
        if (!swirl->fixed_colourmap) {
#if 1
                setColormap(display, window, swirl->cmap, MI_WIN_IS_INWINDOW(mi));
#else
                XSetWindowColormap(display, window, swirl->cmap);
                (void) XSetWMColormapWindows(display, window, &window, 1);
                XInstallColormap(display, swirl->cmap);
#endif
        }
#endif /* STANDALONE */

        /* resolution starts off chunky */
        swirl->resolution = MIN_RES + 1;

        /* calculate the pixel step for this resulution */
        swirl->r = (1 << (swirl->resolution - 1));

        /* how many knots? */
        swirl->n_knots = random_no((unsigned int) MI_BATCHCOUNT(mi) / 2) +
                MI_BATCHCOUNT(mi) + 1;

        /* what type of knots? */
        swirl->knot_type = ALL; /* for now */

        /* use two_plane mode occaisionally */
        if (random_no(100) <= TWO_PLANE_PCNT) {
                swirl->two_plane = swirl->first_plane = True;
                swirl->max_resolution = 2;
        } else
                swirl->two_plane = False;

        /* fix the knot values */
        create_knots(swirl);

        /* we are off */
        swirl->started = True;
        swirl->drawing = False;
}

/****************************************************************/

/* 
 * draw_swirl
 *
 * Draw one iteration of swirling
 *
 * -      win is the window to draw in
 */
void
draw_swirl(ModeInfo * mi)
{
        SWIRL_P     swirl = &(swirls[MI_SCREEN(mi)]);

        /* are we going? */
        if (swirl->started) {
                /* in the middle of drawing? */
                if (swirl->drawing) {
#ifdef STANDALONE
                  if (mi->writable_p)
                        rotate_colors(MI_DISPLAY(mi), MI_COLORMAP(mi),
                                                  swirl->rgb_values, swirl->colours, 1);
#else  /* !STANDALONE */
                        /* rotate the colours */
                        install_map(MI_DISPLAY(mi), swirl, swirl->dshift);
#endif /* !STANDALONE */

                        /* draw a batch of points */
                        swirl->batch_todo = BATCH_DRAW;
                        while ((swirl->batch_todo > 0) && swirl->drawing) {
                                /* draw a point */
                                draw_point(mi, swirl);

                                /* move to the next point */
                                next_point(swirl);

                                /* done a point */
                                swirl->batch_todo--;
                        }
                } else {
#ifdef STANDALONE
                  if (mi->writable_p)
                        rotate_colors(MI_DISPLAY(mi), MI_COLORMAP(mi),
                                                  swirl->rgb_values, swirl->colours, 1);
#else  /* !STANDALONE */
                        /* rotate the colours */
                        install_map(MI_DISPLAY(mi), swirl, swirl->shift);
#endif /* !STANDALONE */

                        /* time for a higher resolution? */
                        if (swirl->resolution > swirl->max_resolution) {
                                /* move to higher resolution */
                                swirl->resolution--;

                                /* calculate the pixel step for this resulution */
                                swirl->r = (1 << (swirl->resolution - 1));

                                /* start drawing again */
                                swirl->drawing = True;

                                /* start in the middle of the screen */
                                swirl->x = (swirl->width - swirl->r) / 2;
                                swirl->y = (swirl->height - swirl->r) / 2;

                                /* initialise spiral drawing parameters */
                                swirl->direction = DRAW_RIGHT;
                                swirl->dir_todo = 1;
                                swirl->dir_done = 0;
                        } else {
                                /* all done, decide when to restart */
                                if (swirl->start_again == -1) {
                                        /* start the counter */
                                        swirl->start_again = RESTART;
                                } else if (swirl->start_again == 0) {
                                        /* reset the counter */
                                        swirl->start_again = -1;

#ifdef STANDALONE
                                        /* Pick a new colormap! */
                                        XClearWindow (MI_DISPLAY(mi), MI_WINDOW(mi));
                                        free_colors (MI_DISPLAY(mi), MI_COLORMAP(mi),
                                                                 mi->colors, mi->npixels);
                                        make_smooth_colormap (MI_DISPLAY(mi),
                                                                                  MI_VISUAL(mi),
                                                                                  MI_COLORMAP(mi),
                                                                                  mi->colors, &mi->npixels, True,
                                                                                  &mi->writable_p, True);
                                        swirl->colours = mi->npixels;
#endif /* STANDALONE */

                                        /* start again */
                                        init_swirl(mi);
                                } else
                                        /* decrement the counter */
                                        swirl->start_again--;
                        }
                }
        }
}

/****************************************************************/

void
release_swirl(ModeInfo * mi)
{
        /* does the swirls array exist? */
        if (swirls != NULL) {
                int         i;

                /* free them all */
                for (i = 0; i < MI_NUM_SCREENS(mi); i++) {
                        SWIRL_P     swirl = &(swirls[i]);

                        if (swirl->cmap != (Colormap) NULL)
                                XFreeColormap(MI_DISPLAY(mi), swirl->cmap);
                        if (swirl->rgb_values != NULL)
                                XFree((void *) swirl->rgb_values);
                        if (swirl->ximage != NULL)
                                XDestroyImage(swirl->ximage);
                        if (swirl->knots)
                                (void) free((void *) swirl->knots);
                }
                /* deallocate an array, one entry for each screen */
                (void) free((void *) swirls);
                swirls = NULL;
        }
}

/****************************************************************/

void
refresh_swirl(ModeInfo * mi)
{
        SWIRL_P     swirl = &(swirls[MI_SCREEN(mi)]);

        if (swirl->started) {
                if (swirl->drawing)
                        swirl->resolution = swirl->resolution + 1;
                swirl->drawing = False;
        }
}