[xscreensaver] / hacks / glx / gleidescope.c

/* -*- Mode: C; tab-width: 4 -*- */
/* vim: set ai ts=4 sw=4: */

#if !defined( lint ) && !defined( SABER )
/*static const char sccsid[] = "@(#)gleidescope.c       1.0 03/06/27 xlockmore";*/
#endif

/* enable -grab switch for animations */
#undef  GRAB

#undef DISPLAY_TEXTURE

/*-
 * 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:
 *
 *      20030627        1.0             acd             First Release.
 *                                                              Texture loading code from 'glplanet'
 *                                                                      by Jamie Zawinski <jwz@jwz.org>
 *      20030810        1.1             acd             Added size flag.
 *                                                              Now grabs screen / video / picture
 *                                                                      (uses code from 'glslideshow' by
 *                                                                      Mike Oliphant, Ben Buxton, Jamie Zawinski).
 *                                                              Added -duration.
 *                                                              Added mouse code.
 *                                                              Added fade code (also from glslideshow).
 *      20031013        1.2             acd             Migrated to compile without warnings under
 *                                                                      xscreensaver 4.13.
 *      20031023        1.3             acd             Better code to limit twisting speeds.
 *                                                              Tweaked initial rotation values.
 *                                                              Move, Rotate, Zoom now chosen at random if
 *                                                                      no preference is given.
 *                                                              Made grid slightly bigger so you can't see
 *                                                                      the edge when zooming and moving.
 *      20061226        1.4             acd             Now uses GL Display Lists.
 *      20070318        1.5             acd             Generates textures.
 *                                                              Fixed texture size problem (and introduced another).
 *      20070412        1.6             acd             Textures now have independant sizes.
 *      20070413        1.7             acd             Added Lissajous movement pattern.
 *      20070414        1.8             acd             Added corners movement pattern.
 *      20080319        1.9             acd             Changes to arguments for saner gleidescope.xml.
 *
 * TODO
 * generate textures myself - render random shapes to 256x256 texture. (done)
 * lower res for checks and random - use 256 and 4x4 or 8x8 pixels. (disabled for now)
 * gnome-saver doesn't let you specify source directory so add that to this.
 * image loading routine is too slow - rotation grinds to a halt - stop using it. (better in version 5)
 * image loading also looks bad for non-square images - edges are black. (fixed)
 * possible to see edge of the world on widescreen terminals - use larger grid and hidden hex removal?
 * fading textures may have different max_tx - use two sets. (done)
 * choice of movement patterns. (3 implemented, chooseable at compile time)
 * look into rangle and tangle.
 */

/*
**----------------------------------------------------------------------------
** Defines
**----------------------------------------------------------------------------
*/

#ifdef STANDALONE
# define DEFAULTS \
                "*delay:                20000           \n"     \
                "*showFPS:              False           \n"     \
                "*size:                 0                       \n"     \
                "*useSHM:               True            \n"

# define refresh_gleidescope 0
# include "xlockmore.h"                         /* from the xscreensaver distribution */
#else  /* !STANDALONE */
# include "xlock.h"                                     /* from the xlockmore distribution */
#endif /* !STANDALONE */

#ifdef USE_GL

#include "colors.h"
#include "xpm-ximage.h"
#include "grab-ximage.h"

#ifdef GRAB
void grab_frame(Display *display, Window window);
#endif

/* acd TODO should all these be in gleidestruct? */
/* they can't be, because of the idiotic way the xlockmore "argtype vars"
   interface works. -jwz */
#ifdef GRAB
static Bool             grab;                   /* grab images */
#endif
static Bool             move;                   /* moving camera */
static Bool             nomove;                 /* no moving camera */
static Bool             rotate;                 /* rotate in place */
static Bool             norotate;               /* no rotate in place */
static Bool             zoom;                   /* zooming camera */
static Bool             nozoom;                 /* no zooming camera */
static char             *image;                 /* name of texture to load */
static int              duration;               /* length of time to display grabbed image */

#define MAX_CAM_SPEED                   1.0
#define MAX_ANGLE_VEL                   1.0
#define INITIAL_ANGLE_VEL               0.2
#define INITIAL_ANGLE_ACC               0.001
#define TWISTING_PROBABILITY    1000    /* 1 in ... of change of acceleration */

#define RADIANS (M_PI / 180)
#define ANGLE_120       (M_PI * 2 / 3)
#define ANGLE_240       (M_PI * 4 / 3)

#define DEF_GRAB        "False"
#define DEF_MOVE        "False"
#define DEF_NOMOVE      "False"
#define DEF_ROTATE      "False"
#define DEF_NOROTATE    "False"
#define DEF_ZOOM        "False"
#define DEF_NOZOOM      "False"
#define DEF_IMAGE       "DEFAULT"
#define DEF_DURATION    "30"


static XrmOptionDescRec opts[] =
{
#ifdef GRAB
        {"-grab",               ".gleidescope.grab",            XrmoptionNoArg,         "true"},
#endif
        {"-move",               ".gleidescope.move",            XrmoptionNoArg,         "true"},
        {"-no-move",    ".gleidescope.nomove",          XrmoptionNoArg,         "true"},
        {"-rotate",             ".gleidescope.rotate",          XrmoptionNoArg,         "true"},
        {"-no-rotate",  ".gleidescope.norotate",        XrmoptionNoArg,         "true"},
        {"-zoom",               ".gleidescope.zoom",            XrmoptionNoArg,         "true"},
        {"-no-zoom",    ".gleidescope.nozoom",          XrmoptionNoArg,         "true"},
        {"-image",              ".gleidescope.image",           XrmoptionSepArg,        "DEFAULT"},
        {"-duration",   ".gleidescope.duration",        XrmoptionSepArg,        "30"},
};


static argtype vars[] = {
#ifdef GRAB
        {&grab,                 "grab",         "Grab",         DEF_GRAB,       t_Bool},
#endif
        {&move,                 "move",         "Move",         DEF_MOVE,       t_Bool},
        {&nomove,               "nomove",       "noMove",       DEF_NOMOVE,     t_Bool},
        {&rotate,               "rotate",       "Rotate",       DEF_ROTATE,     t_Bool},
        {&norotate,             "norotate",     "noRotate",     DEF_NOROTATE,   t_Bool},
        {&zoom,                 "zoom",         "Zoom",         DEF_ZOOM,       t_Bool},
        {&nozoom,               "nozoom",       "noZoom",       DEF_NOZOOM,     t_Bool},
        {&image,                "image",        "Image",        DEF_IMAGE,      t_String},
        {&duration,             "duration",     "Duration",     DEF_DURATION,           t_Int},
};

static OptionStruct desc[] = {
#ifdef GRAB
        {"-grab",               "grab images to create animation"},
#endif
        {"-move",               "camera will move"},
        {"-no-move",    "camera won't move"},
        {"-rotate",             "camera will rotate"},
        {"-no-rotate",  "camera won't rotate"},
        {"-zoom",               "camera will zoom"},
        {"-no-zoom",    "camera won't zoom"},
        {"-image",              "xpm / xbm image file to use for texture"},
        {"-duration",   "length of time texture will be used"},
};

ENTRYPOINT ModeSpecOpt gleidescope_opts = {
        sizeof opts / sizeof opts[0], opts,
        sizeof vars / sizeof vars[0], vars,
        desc
};

#ifdef USE_MODULES
ModStruct   gleidescope_description = { 
     "gleidescope", "init_gleidescope", "draw_gleidescope", "release_gleidescope",
     "draw_gleidescope", "init_gleidescope", NULL, &gleidescope_opts,
     1000, 1, 2, 1, 4, 1.0, "",
     "GL Kaleidescope", 0, NULL};
#endif

/*
**-----------------------------------------------------------------------------
**      Typedefs
**-----------------------------------------------------------------------------
*/

typedef struct hex_s {
        GLfloat x, y, z;                /* position */
} hex_t;

typedef struct {
        GLfloat x;
        GLfloat y;
        GLfloat z;
} vectorf;

typedef struct {
        GLfloat x;
        GLfloat y;
} vector2f;

typedef struct {
        GLuint                  id;                             /* opengl texture id */
        GLfloat                 width, height;  /* texture width and height */
        GLfloat                 min_tx, min_ty; /* minimum texture sizes */
        GLfloat                 max_tx, max_ty; /* maximum texture sizes */
        time_t                  start_time;
        Bool                    button_down_p;
    Bool                        mipmap_p;
    Bool                        waiting_for_image_p;
        /* r_phase is for triangle rotation speed */
        GLfloat                 x_period, y_period, r_period;
        GLfloat                 x_phase, y_phase, r_phase;
} texture;

#define MAX_FADE        500     /* number of fade cycles */

typedef struct {
        float                   cam_x_speed, cam_z_speed, cam_y_speed;
        int                             cam_x_phase, cam_z_phase, cam_y_phase;
        float                   tic;
        GLXContext              *glx_context;
        Window                  window;
        texture                 textures[2];    /* texture handles */
        GLuint                  visible;                /* index for current texture */
        GLint                   fade;
        time_t                  start_time;
        Bool                    button_down_p;

    int         size;
        int             list;

    float       tangle;         /* texture angle (degrees) */
    float       tangle_vel;     /* texture velocity */
    float       tangle_acc;     /* texture acceleration */

    float       rangle;         /* rotate angle */
    float       rangle_vel;     /* rotate velocity */
    float       rangle_acc;     /* rotate acceleration */

    /* mouse */
    int xstart;
    int ystart;
    double xmouse;
    double ymouse;

    Bool mipmap_p;
    Bool waiting_for_image_p;

} gleidestruct;

#define frandrange(x, y)        (x + frand(y - x))

#define XOFFSET (0.8660254f)    /* sin 60' */
#define YOFFSET (1.5000000f)    /* cos 60' + 1 */

#if 0

#define SIZE    3

/* generates a grid with edges of given size */
/* acd TODO - replace hex[] with this and allow size and distance as parameters */

int
generate_grid(int size)

        int     i, x, y;

        gp->size--;

        i = gp->size;
        for (y = -size ; y <= size ; y++) {
                for (x = -i ; x <= i ; x += 2) {
                        printf("{XOFFSET * %d, YOFFSET * %d, 0},\n", x, y);
                }
                printf("\n");
                if (y < 0) {
                        i++;
                } else {
                        i--;
                }
        }
        return 0;
}
#endif

/* acd - this is terrible - 120+ hexes */
static const hex_t hex[] = {
        /* edges of size 7 */
        /* number of hexagons required to cover screen depends on camera distance */
        /* at a distance of 10 this is just about enough. */
        {XOFFSET * -6, YOFFSET * -6, 0},
        {XOFFSET * -4, YOFFSET * -6, 0},
        {XOFFSET * -2, YOFFSET * -6, 0},
        {XOFFSET * 0, YOFFSET * -6, 0},
        {XOFFSET * 2, YOFFSET * -6, 0},
        {XOFFSET * 4, YOFFSET * -6, 0},
        {XOFFSET * 6, YOFFSET * -6, 0},

        {XOFFSET * -7, YOFFSET * -5, 0},
        {XOFFSET * -5, YOFFSET * -5, 0},
        {XOFFSET * -3, YOFFSET * -5, 0},
        {XOFFSET * -1, YOFFSET * -5, 0},
        {XOFFSET * 1, YOFFSET * -5, 0},
        {XOFFSET * 3, YOFFSET * -5, 0},
        {XOFFSET * 5, YOFFSET * -5, 0},
        {XOFFSET * 7, YOFFSET * -5, 0},

        {XOFFSET * -8, YOFFSET * -4, 0},
        {XOFFSET * -6, YOFFSET * -4, 0},
        {XOFFSET * -4, YOFFSET * -4, 0},
        {XOFFSET * -2, YOFFSET * -4, 0},
        {XOFFSET * 0, YOFFSET * -4, 0},
        {XOFFSET * 2, YOFFSET * -4, 0},
        {XOFFSET * 4, YOFFSET * -4, 0},
        {XOFFSET * 6, YOFFSET * -4, 0},
        {XOFFSET * 8, YOFFSET * -4, 0},

        {XOFFSET * -9, YOFFSET * -3, 0},
        {XOFFSET * -7, YOFFSET * -3, 0},
        {XOFFSET * -5, YOFFSET * -3, 0},
        {XOFFSET * -3, YOFFSET * -3, 0},
        {XOFFSET * -1, YOFFSET * -3, 0},
        {XOFFSET * 1, YOFFSET * -3, 0},
        {XOFFSET * 3, YOFFSET * -3, 0},
        {XOFFSET * 5, YOFFSET * -3, 0},
        {XOFFSET * 7, YOFFSET * -3, 0},
        {XOFFSET * 9, YOFFSET * -3, 0},

        {XOFFSET * -10, YOFFSET * -2, 0},
        {XOFFSET * -8, YOFFSET * -2, 0},
        {XOFFSET * -6, YOFFSET * -2, 0},
        {XOFFSET * -4, YOFFSET * -2, 0},
        {XOFFSET * -2, YOFFSET * -2, 0},
        {XOFFSET * 0, YOFFSET * -2, 0},
        {XOFFSET * 2, YOFFSET * -2, 0},
        {XOFFSET * 4, YOFFSET * -2, 0},
        {XOFFSET * 6, YOFFSET * -2, 0},
        {XOFFSET * 8, YOFFSET * -2, 0},
        {XOFFSET * 10, YOFFSET * -2, 0},

        {XOFFSET * -11, YOFFSET * -1, 0},
        {XOFFSET * -9, YOFFSET * -1, 0},
        {XOFFSET * -7, YOFFSET * -1, 0},
        {XOFFSET * -5, YOFFSET * -1, 0},
        {XOFFSET * -3, YOFFSET * -1, 0},
        {XOFFSET * -1, YOFFSET * -1, 0},
        {XOFFSET * 1, YOFFSET * -1, 0},
        {XOFFSET * 3, YOFFSET * -1, 0},
        {XOFFSET * 5, YOFFSET * -1, 0},
        {XOFFSET * 7, YOFFSET * -1, 0},
        {XOFFSET * 9, YOFFSET * -1, 0},
        {XOFFSET * 11, YOFFSET * -1, 0},

        {XOFFSET * -12, YOFFSET * 0, 0},
        {XOFFSET * -10, YOFFSET * 0, 0},
        {XOFFSET * -8, YOFFSET * 0, 0},
        {XOFFSET * -6, YOFFSET * 0, 0},
        {XOFFSET * -4, YOFFSET * 0, 0},
        {XOFFSET * -2, YOFFSET * 0, 0},
        {XOFFSET * 0, YOFFSET * 0, 0},
        {XOFFSET * 2, YOFFSET * 0, 0},
        {XOFFSET * 4, YOFFSET * 0, 0},
        {XOFFSET * 6, YOFFSET * 0, 0},
        {XOFFSET * 8, YOFFSET * 0, 0},
        {XOFFSET * 10, YOFFSET * 0, 0},
        {XOFFSET * 12, YOFFSET * 0, 0},

        {XOFFSET * -11, YOFFSET * 1, 0},
        {XOFFSET * -9, YOFFSET * 1, 0},
        {XOFFSET * -7, YOFFSET * 1, 0},
        {XOFFSET * -5, YOFFSET * 1, 0},
        {XOFFSET * -3, YOFFSET * 1, 0},
        {XOFFSET * -1, YOFFSET * 1, 0},
        {XOFFSET * 1, YOFFSET * 1, 0},
        {XOFFSET * 3, YOFFSET * 1, 0},
        {XOFFSET * 5, YOFFSET * 1, 0},
        {XOFFSET * 7, YOFFSET * 1, 0},
        {XOFFSET * 9, YOFFSET * 1, 0},
        {XOFFSET * 11, YOFFSET * 1, 0},

        {XOFFSET * -10, YOFFSET * 2, 0},
        {XOFFSET * -8, YOFFSET * 2, 0},
        {XOFFSET * -6, YOFFSET * 2, 0},
        {XOFFSET * -4, YOFFSET * 2, 0},
        {XOFFSET * -2, YOFFSET * 2, 0},
        {XOFFSET * 0, YOFFSET * 2, 0},
        {XOFFSET * 2, YOFFSET * 2, 0},
        {XOFFSET * 4, YOFFSET * 2, 0},
        {XOFFSET * 6, YOFFSET * 2, 0},
        {XOFFSET * 8, YOFFSET * 2, 0},
        {XOFFSET * 10, YOFFSET * 2, 0},

        {XOFFSET * -9, YOFFSET * 3, 0},
        {XOFFSET * -7, YOFFSET * 3, 0},
        {XOFFSET * -5, YOFFSET * 3, 0},
        {XOFFSET * -3, YOFFSET * 3, 0},
        {XOFFSET * -1, YOFFSET * 3, 0},
        {XOFFSET * 1, YOFFSET * 3, 0},
        {XOFFSET * 3, YOFFSET * 3, 0},
        {XOFFSET * 5, YOFFSET * 3, 0},
        {XOFFSET * 7, YOFFSET * 3, 0},
        {XOFFSET * 9, YOFFSET * 3, 0},

        {XOFFSET * -8, YOFFSET * 4, 0},
        {XOFFSET * -6, YOFFSET * 4, 0},
        {XOFFSET * -4, YOFFSET * 4, 0},
        {XOFFSET * -2, YOFFSET * 4, 0},
        {XOFFSET * 0, YOFFSET * 4, 0},
        {XOFFSET * 2, YOFFSET * 4, 0},
        {XOFFSET * 4, YOFFSET * 4, 0},
        {XOFFSET * 6, YOFFSET * 4, 0},
        {XOFFSET * 8, YOFFSET * 4, 0},

        {XOFFSET * -7, YOFFSET * 5, 0},
        {XOFFSET * -5, YOFFSET * 5, 0},
        {XOFFSET * -3, YOFFSET * 5, 0},
        {XOFFSET * -1, YOFFSET * 5, 0},
        {XOFFSET * 1, YOFFSET * 5, 0},
        {XOFFSET * 3, YOFFSET * 5, 0},
        {XOFFSET * 5, YOFFSET * 5, 0},
        {XOFFSET * 7, YOFFSET * 5, 0},

        {XOFFSET * -6, YOFFSET * 6, 0},
        {XOFFSET * -4, YOFFSET * 6, 0},
        {XOFFSET * -2, YOFFSET * 6, 0},
        {XOFFSET * 0, YOFFSET * 6, 0},
        {XOFFSET * 2, YOFFSET * 6, 0},
        {XOFFSET * 4, YOFFSET * 6, 0},
        {XOFFSET * 6, YOFFSET * 6, 0},
};

/*
**----------------------------------------------------------------------------
** Local Variables
**----------------------------------------------------------------------------
*/

static  gleidestruct *gleidescope = NULL;

#if 0
/*
 *load defaults in config structure
 */
static void setdefaultconfig(void)
{
#ifdef GRAB
        grab = False;
#endif
        move = False;
        rotate = False;
        zoom = False;
        image = NULL;
}
#endif

ENTRYPOINT Bool
gleidescope_handle_event(ModeInfo *mi, XEvent *event)
{
        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];

        /*
        printf("event:%d\n", event->xany.type);
        printf("button:%d\n", event->xbutton.button);
        */
        switch(event->xany.type)
        {
                case ButtonPress:

                        if (event->xbutton.button == Button1 ||
                event->xbutton.button == Button3)
                        {
                                /* store initial values of mouse */
                                gp->xstart = event->xbutton.x;
                                gp->ystart = event->xbutton.y;

                                /* button is down */
                                gp->button_down_p = True;
                                return True;
                        }
#if 0   /* TODO */
                        else if (event->xbutton.button == Button4)
                        {
                                /* zoom in */
                                return True;
                        }
                        else if (event->xbutton.button == Button5)
                        {
                                /* zoom out */
                                return True;
                        }
#endif
                        break;

                case ButtonRelease:

                        if (event->xbutton.button == Button1 ||
                event->xbutton.button == Button3)
                        {
                                /* button is up */
                                gp->button_down_p = False;
                                return True;
                        }
                        break;

                case MotionNotify:

                        if (gp->button_down_p)
                        {
                                /* update mouse position */
                                gp->xmouse += (double)(event->xmotion.x - gp->xstart) / MI_WIDTH(mi);
                                gp->ymouse += (double)(event->xmotion.y - gp->ystart) / MI_HEIGHT(mi);
                                gp->xstart = event->xmotion.x;
                                gp->ystart = event->xmotion.y;

                                return True;
                        }
                        break;
        }

        return False;
}


static void
image_loaded_cb (const char *filename, XRectangle *geometry,
                 int image_width, int image_height, 
                 int texture_width, int texture_height,
                 void *closure)
{
        texture *tp = (texture *) closure;

#if 0
        gp->max_tx = (GLfloat) image_width  / texture_width;
        gp->max_ty = (GLfloat) image_height / texture_height;
#endif

        /* new - taken from flipscreen */
        tp->width = texture_width;
        tp->height = texture_height;
        tp->min_tx = (GLfloat) geometry->x / tp->width;
        tp->min_ty = (GLfloat) geometry->y / tp->height;
        tp->max_tx = (GLfloat) (geometry->x + geometry->width)  / tp->width;
        tp->max_ty = (GLfloat) (geometry->y + geometry->height) / tp->height;

#ifdef DEBUG
        printf("Image w,h: (%d, %d)\n", image_width, image_height);
        printf("Texture w,h: (%d, %d)\n", texture_width, texture_height);
        printf("Geom x,y: (%d, %d)\n", geometry->x, geometry->y);
        printf("Geom w,h: (%d, %d)\n", geometry->width, geometry->height);
        printf("Max Tx,Ty: (%f, %f)\n", tp->max_tx, tp->max_ty);
#endif

        glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
        glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER,
                        (tp->mipmap_p ? GL_LINEAR_MIPMAP_LINEAR : GL_LINEAR));

        tp->waiting_for_image_p = False;
        tp->start_time = time ((time_t *) 0);
}

static void
getSnapshot(ModeInfo *mi, texture *texture)
{
        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];

#ifdef DEBUG
        printf("getSnapshot");
#endif

        if (MI_IS_WIREFRAME(mi))
                return;

    gp->mipmap_p = True;
    load_texture_async (mi->xgwa.screen, mi->window,
                        *gp->glx_context, 0, 0, gp->mipmap_p, 
                        texture->id, image_loaded_cb, texture);
        texture->start_time = time((time_t *)0);
}

#define TEXTURE_SIZE    256

static void
plot(unsigned char *buffer, int x, int y, int r, int g, int b, int a) {
        int c;
        if (x < 0 || x >= TEXTURE_SIZE || y < 0 || y >= TEXTURE_SIZE) {
                return;
        }
        c = ((x * TEXTURE_SIZE) + y) * 4;
        /*printf("(%d,%d)[%d]\n", x, y, c);*/
        buffer[c + 0] = r;
        buffer[c + 1] = g;
        buffer[c + 2] = b;
        buffer[c + 3] = a;
}

#if 0
static void
plot2(unsigned char *buffer, int x, int y, int r, int g, int b, int a) {
        int c;
        if (x < 0 || x >= TEXTURE_SIZE || y < 0 || y >= TEXTURE_SIZE) {
                return;
        }
        c = ((x * TEXTURE_SIZE) + y) * 4;
        /*printf("(%d,%d)[%d]\n", x, y, c);*/
        buffer[c + 0] = r;
        buffer[c + 1] = g;
        buffer[c + 2] = b;
        buffer[c + 3] = a;
        
        if (y + 1 < TEXTURE_SIZE) {
                buffer[c + 4] = r;
                buffer[c + 5] = g;
                buffer[c + 6] = b;
                buffer[c + 7] = a;
        }

        if (x + 1 < TEXTURE_SIZE) {
                c += (TEXTURE_SIZE * 4);
                buffer[c + 0] = r;
                buffer[c + 1] = g;
                buffer[c + 2] = b;
                buffer[c + 3] = a;
                if (y + 1 < TEXTURE_SIZE) {
                        buffer[c + 4] = r;
                        buffer[c + 5] = g;
                        buffer[c + 6] = b;
                        buffer[c + 7] = a;
                }
        }
}
#endif

/* draw geometric shapes to texture */
/* modifies passed in buffer */
static void
draw_shapes (unsigned char *buffer) {
        int a = 0xff;
        int x, y, w, h;
        int i, j;
        int s;
        float left, right;

        for (i = 0 ; i < TEXTURE_SIZE * TEXTURE_SIZE * 4 ; i += 4) {
                buffer[i + 0] = 0x00;
                buffer[i + 1] = 0x00;
                buffer[i + 2] = 0x00;
                buffer[i + 3] = 0xff;
        }

        for (s = 0 ; s < 25 ; s++) {
                int shape = random() % 3;

                /* 8 bits */
                int r = (random() & 0xff);
                int g = (random() & 0xff);
                int b = (random() & 0xff);

                switch (shape) {
                        case 0:
                                /* rectangle */
                                x = (random() % TEXTURE_SIZE) - (TEXTURE_SIZE / 4);     /* top left */
                                y = (random() % TEXTURE_SIZE) - (TEXTURE_SIZE / 4);
                                w = 10 + random() % (TEXTURE_SIZE / 4); /* size */
                                h = 10 + random() % (TEXTURE_SIZE / 4);
#ifdef DEBUG
                                printf("Rectangle: (%d, %d)(%d, %d)\n", x, y, w, h);
#endif
                                if (x < 0) {
                                        x = 0;
                                }
                                if (y < 0) {
                                        y = 0;
                                }
                                for (i = x ; i < x + w && i < TEXTURE_SIZE; i++) {
                                        for (j = y ; j < y + h && j < TEXTURE_SIZE; j++) {
                                                plot(buffer, i, j, r, g, b, a);
                                        }
                                }
                                break;

                        case 1:
                                /* circle */
                                x = random() % TEXTURE_SIZE;    /* centre */
                                y = random() % TEXTURE_SIZE;
                                h = 10 + random() % (TEXTURE_SIZE / 8); /* radius */
#ifdef DEBUG
                                printf("Circle: %d, %d, %d\n", x, y, h);
#endif
                                for (i = 0 ; i < h ; i++) {
                                        int xdist = i * i;
                                        for (j = 0 ; j < h ; j++) {
                                                int ydist = j * j;
                                                /*
                                                printf("xdist: %d\n", xdist);
                                                printf("ydist: %d\n", ydist);
                                                printf("radius: %d\n", h * h);
                                                */
                                                if ((xdist + ydist) < (h * h)) {
                                                        plot(buffer, x + i, y + j, r, b, g, a);
                                                        /* check we haven't already done these */
                                                        if (j != 0) {
                                                                plot(buffer, x + i, y - j, r, b, g, a);
                                                        }
                                                        if (i != 0) {
                                                                plot(buffer, x - i, y + j, r, b, g, a);
                                                                if (j != 0) {
                                                                plot(buffer, x - i, y - j, r, b, g, a);
                                                                }
                                                        }
                                                }
                                        }
                                }
                                break;

                        case 2:
                                /* triangle */
                                x = random() % TEXTURE_SIZE;    /* top */
                                y = random() % TEXTURE_SIZE;
                                h = 10 + random() % (TEXTURE_SIZE / 4); /* height */
#ifdef DEBUG
                                printf("Triangle: %d, %d, %d\n", x, y, h);
#endif
                                left = x;
                                right = x;
                                for (i = 0 ; i < h ; i++) {
                                        for (j = left ; j < right ; j++) {
                                                plot(buffer, j, y + i, r, g, b, a);
                                        }
                                        left -= .5;
                                        right += .5;
                                }
                                break;
                }
        }
}

static void
setup_random_texture (ModeInfo *mi, texture *texture)
{
        int width = 0, height = 0;
        char buf[1024];
        unsigned char *my_data = NULL;
#if 0
        int i, j, c;
        int style;
        int r0, g0, b0, a0, r1, g1, b1, a1;
#endif

#ifdef DEBUG
        printf("RandomTexture\n");
#endif

        /* use this texture */
        glBindTexture(GL_TEXTURE_2D, texture->id);

        clear_gl_error();

        /*
         * code for various generated patterns - noise, stripes, checks etc.
         * random geometric shapes looked the best.
         */

#if 0
        style = random() & 0x3;
        r0 = random() & 0xff; 
        g0 = random() & 0xff; 
        b0 = random() & 0xff; 
        a0 = 0xff;
        r1 = random() & 0xff; 
        g1 = random() & 0xff; 
        b1 = random() & 0xff; 
        a1 = 0xff;

        switch (style) {
                case 0: /* random */
                        printf("Random0\n");
                        height = width = TEXTURE_SIZE;
                        my_data = (void *)malloc(width * height * 4);
                        for (i = 0 ; i < width ; i += 2) {
                                for (j = 0 ; j < height ; j += 2) {
                                        r0 = random() & 0xff; 
                                        g0 = random() & 0xff; 
                                        b0 = random() & 0xff; 
                                        a0 = 0xff;
                                        plot2(my_data, i, j, r0, g0, b0, a0);
                                }
                        }
                        break;

                case 1: /* shapes */
#endif
#ifdef DEBUG
                        printf("Shapes\n");
#endif
                        height = width = TEXTURE_SIZE;
                        my_data = (void *)malloc(width * height * 4);
                        draw_shapes(my_data);
#if 0
                        break;

                case 2: /* check */
                        printf("Check\n");
                        height = width = TEXTURE_SIZE;
                        my_data = (void *)malloc(width * height * 4);
                        for (i = 0 ; i < height ; i += 2) {
                                for (j = 0 ; j < width ; j += 2) {
                                        if (((i + j) & 0x3) == 0) {
                                                plot2(my_data, i, j, r0, g0, b0, a0);
                                        } else {
                                                plot2(my_data, i, j, r1, g1, b1, a1);
                                        }
                                }
                        }
                        break;

                case 3: /* random stripes */
                        printf("Stripes 2\n");
                        height = width = TEXTURE_SIZE;
                        my_data = (void *)malloc(width * height * 4);
                        for (i = 0 ; i < height ; i += 2) {
                                r0 = random() & 0xff; 
                                g0 = random() & 0xff; 
                                b0 = random() & 0xff; 
                                a0 = 0xff;
                                for (j = 0 ; j < width ; j += 2) {
                                        plot2(my_data, i, j, r0, g0, b0, a0);
                                }
                        }
                        break;
        }
#endif

        glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA,
                        width, height, 0,
                        GL_RGBA, GL_UNSIGNED_BYTE, my_data);
        sprintf (buf, "random texture: (%dx%d)",
                        width, height);
        check_gl_error(buf);

        /* setup parameters for texturing */
        glPixelStorei(GL_UNPACK_ALIGNMENT, 4);
        glPixelStorei(GL_UNPACK_ROW_LENGTH, width);

        glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE);
        glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT);
        glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT);
        if (random() & 0x1) {
                glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
                glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
        } else {
                glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
                glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
        }

        if (my_data != NULL) {
                free(my_data);
                my_data = NULL;
        }

        /* use full texture */
        /* acd - was 1.0 */
        texture->min_tx = 0.0;
        texture->max_tx = 2.0;
        texture->min_ty = 0.0;
        texture->max_ty = 2.0;
        texture->start_time = time((time_t *)0);
}

static void
setup_file_texture (ModeInfo *mi, char *filename, texture *texture)
{
        Display *dpy = mi->dpy;
        Visual *visual = mi->xgwa.visual;
        char buf[1024];

        Colormap cmap = mi->xgwa.colormap;
        XImage *image = xpm_file_to_ximage (dpy, visual, cmap, filename);

#ifdef DEBUG
        printf("FileTexture\n");
#endif

        /* use this texture */
        glBindTexture(GL_TEXTURE_2D, texture->id);

        clear_gl_error();
        glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA,
                        image->width, image->height, 0,
                        GL_RGBA, GL_UNSIGNED_BYTE, image->data);
        sprintf (buf, "texture: %.100s (%dx%d)",
                        filename, image->width, image->height);
        check_gl_error(buf);

        /* setup parameters for texturing */
        glPixelStorei(GL_UNPACK_ALIGNMENT, 4);
        glPixelStorei(GL_UNPACK_ROW_LENGTH, image->width);

        glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE);
        glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT);
        glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT);
        glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
        glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR);

        /* use full texture */
        texture->min_tx = 0.0;
        texture->max_tx = 1.0;
        texture->min_ty = 0.0;
        texture->max_ty = 1.0;
        texture->start_time = time((time_t *)0);
}

static void
setup_texture(ModeInfo * mi, texture *texture)
{
        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];

        if (!image || !*image || !strcmp(image, "DEFAULT")) {
                /* no image specified - use system settings */
#ifdef DEBUG
                printf("SetupTexture: get_snapshot\n");
#endif
                getSnapshot(mi, texture);
        } else {
                if (strcmp(image, "GENERATE") == 0) {
#ifdef DEBUG
                        printf("SetupTexture: random_texture\n");
#endif
                        setup_random_texture(mi, texture);
                } else {
                        /* use supplied image file */
#ifdef DEBUG
                        printf("SetupTexture: file_texture\n");
#endif
                        setup_file_texture(mi, image, texture);
                }
        }
        /* copy start time from texture */
        gp->start_time = texture->start_time;

        check_gl_error("texture initialization");

        /* acd 
         * resultant loaded image is upside down BUT
         * it's a kaledescope and half of the hexagon is backwards anyway...
         */

        /* TODO: values for lissajous movement */
        texture->x_period = frandrange(-2.0, 2.0);
        texture->y_period = frandrange(-2.0, 2.0);
        texture->r_period = frandrange(-2.0, 2.0);
        texture->x_phase = frand(M_PI * 2);
        texture->y_phase = frand(M_PI * 2);
        texture->r_phase = frand(M_PI * 2);
#ifdef DEBUG
        printf("XPeriod %f XPhase %f\n", texture->x_period, texture->x_phase);
        printf("YPeriod %f YPhase %f\n", texture->y_period, texture->y_phase);
        printf("RPeriod %f RPhase %f\n", texture->r_period, texture->r_phase);
#endif
}

#define VERTEX0 glVertex3f( 0.0000f,  0.000f, 0.0f);
#define VERTEX1 glVertex3f( 0.0000f,  1.000f, 0.0f);
#define VERTEX2 glVertex3f( XOFFSET,  0.500f, 0.0f);
#define VERTEX3 glVertex3f( XOFFSET, -0.500f, 0.0f);
#define VERTEX4 glVertex3f( 0.0000f, -1.000f, 0.0f);
#define VERTEX5 glVertex3f(-XOFFSET, -0.500f, 0.0f);
#define VERTEX6 glVertex3f(-XOFFSET,  0.500f, 0.0f);

/*
** Three different functions for calculating texture coordinates
** which modify how the texture triangle moves over the source image.
** Choose one.
*/

#if 0
/* the classic equilateral triangle rotating around centre */
static void
calculate_texture_coords(ModeInfo *mi, texture *texture, vector2f t[3]) {

        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];
        GLfloat centre_x = 0.5;
        GLfloat centre_y = 0.5;
        GLfloat radius_x = (texture->max_tx - texture->min_tx) / 2;
        GLfloat radius_y = (texture->max_ty - texture->min_ty) / 2;
        GLfloat tangle2;
        t[0].x = centre_x;
        t[0].y = centre_y;

        /* t[1] */
        t[1].x = centre_x + .95 * radius_x * cos((gp->ymouse * 2 * M_PI) + (gp->tangle * RADIANS));
        t[1].y = centre_y + .95 * radius_y * sin((gp->ymouse * 2 * M_PI) + (gp->tangle * RADIANS));

        /* t[2] is always 60' further around than t2 */
        tangle2 = (gp->ymouse * 2 * M_PI) + (gp->tangle * RADIANS) + (M_PI * 2 / 6);
        t[2].x = centre_x + .95 * radius_x * cos(tangle2);
        t[2].y = centre_y + .95 * radius_y * sin(tangle2);
#if 0
        printf("texcoords:[%f,%f]->[%f,%f](%f,%f)\n", t[0].x, t[0].y, t[1].x, t[1].y, texture->max_tx, texture->max_ty);
#endif
}
#endif

#if 1
/* new lissajous movement pattern */
static void
calculate_texture_coords(ModeInfo *mi, texture *texture, vector2f t[3]) {

        /* equilateral triangle rotating around centre */
        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];
        GLfloat width = texture->max_tx - texture->min_tx;
        GLfloat height = texture->max_ty - texture->min_ty;
        /* centre */
        GLfloat centre_x = texture->min_tx + (width * .5);
        GLfloat centre_y = texture->min_ty + (height * .5);
        /* m radius and t radius should be = .5 */
        /* triangle radius is 30% available space */
        GLfloat t_radius_x = width * .3;
        GLfloat t_radius_y = height * .3;
        /* movement radius is 30% available space */
        GLfloat m_radius_x = width * .2;
        GLfloat m_radius_y = height * .2;
        GLfloat angle2;

        /* centre of triangle */
        GLfloat angle = (gp->ymouse * 2 * M_PI) + (gp->tangle * RADIANS);       /* to radians */
        GLfloat t_centre_x = centre_x + m_radius_x * cos(texture->x_period * angle + texture->x_phase);
        GLfloat t_centre_y = centre_y + m_radius_y * sin(texture->y_period * angle + texture->y_phase);

#if 0
        printf("WH: %f, %f - tWH: %f, %f\n", width, height, texture->width, texture->height);
        printf("size: (%f, %f)\n", width, height);
        printf("centre: (%f, %f)\n", centre_x, centre_y);
#endif

        angle2 = texture->r_period * angle + texture->r_phase;
        t[0].x = t_centre_x + t_radius_x * cos(angle2);
        t[0].y = t_centre_y + t_radius_y * sin(angle2);
        t[1].x = t_centre_x + t_radius_x * cos(angle2 + ANGLE_120);
        t[1].y = t_centre_y + t_radius_y * sin(angle2 + ANGLE_120);
        t[2].x = t_centre_x + t_radius_x * cos(angle2 + ANGLE_240);
        t[2].y = t_centre_y + t_radius_y * sin(angle2 + ANGLE_240);

#if 0
        printf("texcoords:[%f,%f]->[%f,%f](%f,%f)\n", t[0].x, t[0].y, t[1].x, t[1].y, texture->max_tx, texture->max_ty);
#endif
}
#endif
 
#if 0
/* corners into corners - meant to maximise coverage */
static void
calculate_texture_coords(ModeInfo *mi, texture *texture, vector2f t[3]) {

        /* equilateral triangle rotating around centre */
        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];
        GLfloat width = texture->max_tx - texture->min_tx;
        GLfloat height = texture->max_ty - texture->min_ty;
        /* centre */
        GLfloat centre_x = texture->min_tx + (width * .5);
        GLfloat centre_y = texture->min_ty + (height * .5);
        /* m radius and t radius should be = .5 */
        /* triangle radius calculated using maths 8) */
#define TRADIUS (M_SQRT2 - 1.0)
#define MRADIUS (1.0 - (M_SQRT2 / 2.0))
        GLfloat t_radius_x = width * TRADIUS * .95;
        GLfloat t_radius_y = height * TRADIUS * .95;
        /* movement radius also calculated using maths */
        GLfloat m_radius_x = width * MRADIUS * .95;
        GLfloat m_radius_y = height * MRADIUS * .95;
        GLfloat angle, angle2;
        GLfloat t_centre_x, t_centre_y;

        /* centre of triangle */
        angle = gp->tangle * RADIANS;   /* to radians */
        t_centre_x = centre_x + m_radius_x * cos(angle);
        t_centre_y = centre_y + m_radius_y * sin(angle);
#if 0
        printf("angle: %f, %f\n", angle, gp->tangle);
        printf("tcentre: %f,%f\n", t_centre_x, t_centre_y);
        printf("tradius: %f,%f\n", t_radius_x, t_radius_y);

        printf("size: (%f, %f)\n", width, height);
        printf("centre: (%f, %f)\n", centre_x, centre_y);
        printf("centre: (%f, %f)\n", centre_x, centre_y);
        printf("TRADIUS: %f\n", TRADIUS);
        printf("MRADIUS: %f\n", MRADIUS);
#endif

        /* angle2 is tied to tangle */
        angle2 = (180.0 - ((30.0 / 90.0) * gp->tangle)) * RADIANS; 
#if 0
        printf("Angle1: %f\tAngle2: %f\n", angle / RADIANS, angle2 / RADIANS);
#endif
        t[0].x = t_centre_x + t_radius_x * cos(angle2);
        t[0].y = t_centre_y + t_radius_y * sin(angle2);
        t[1].x = t_centre_x + t_radius_x * cos(angle2 + ANGLE_120);
        t[1].y = t_centre_y + t_radius_y * sin(angle2 + ANGLE_120);
        t[2].x = t_centre_x + t_radius_x * cos(angle2 + ANGLE_240);
        t[2].y = t_centre_y + t_radius_y * sin(angle2 + ANGLE_240);

#if 0
        printf("texcoords:[%f,%f][%f,%f][%f,%f]\n", t[0].x, t[0].y, t[1].x, t[1].y, t[2].x, t[2].y);
#endif
}
#endif

static int
draw_hexagons(ModeInfo *mi, int translucency, texture *texture)
{
    int polys = 0;
        int             i;
        GLfloat col[4];
        vector2f t[3];
        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];

        col[0] = 1.0;
        col[1] = 1.0;
        col[2] = 1.0;
        col[3] = (float)translucency / MAX_FADE;

        calculate_texture_coords(mi, texture, t);

        glColor4f(1.0, 1.0, 1.0, (float)translucency / MAX_FADE);
        glEnable(GL_TEXTURE_2D);
        glEnable(GL_BLEND);
        glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
        glDepthMask(GL_FALSE);
        glBindTexture(GL_TEXTURE_2D, texture->id);

        if (gp->list == -1) {
                gp->list = glGenLists(1);
        }

        /* compile new list */
        glNewList(gp->list, GL_COMPILE);
        glBegin(GL_TRIANGLES);

        /*
        ** six triangles to each hexagon
        */

        glTexCoord2f(t[0].x, t[0].y);
        VERTEX0;
        glTexCoord2f(t[1].x, t[1].y);
        VERTEX1;
        glTexCoord2f(t[2].x, t[2].y);
        VERTEX6;

        glTexCoord2f(t[0].x, t[0].y);
        VERTEX0;
        glTexCoord2f(t[2].x, t[2].y);
        VERTEX6;
        glTexCoord2f(t[1].x, t[1].y);
        VERTEX5;

        glTexCoord2f(t[0].x, t[0].y);
        VERTEX0;
        glTexCoord2f(t[1].x, t[1].y);
        VERTEX5;
        glTexCoord2f(t[2].x, t[2].y);
        VERTEX4;

        glTexCoord2f(t[0].x, t[0].y);
        VERTEX0;
        glTexCoord2f(t[2].x, t[2].y);
        VERTEX4;
        glTexCoord2f(t[1].x, t[1].y);
        VERTEX3;

        glTexCoord2f(t[0].x, t[0].y);
        VERTEX0;
        glTexCoord2f(t[1].x, t[1].y);
        VERTEX3;
        glTexCoord2f(t[2].x, t[2].y);
        VERTEX2;

        glTexCoord2f(t[0].x, t[0].y);
        VERTEX0;
        glTexCoord2f(t[2].x, t[2].y);
        VERTEX2;
        glTexCoord2f(t[1].x, t[1].y);
        VERTEX1;

        glEnd();
        glEndList();

        /* call the list n times */
        for (i = 0 ; i < sizeof(hex) / sizeof(hex[0]) ; i++) {

                glPushMatrix();

                glTranslatef(hex[i].x, hex[i].y, 0.0);
                glCallList(gp->list);
        polys += 6;

                glPopMatrix();
        }
        
#ifdef DISPLAY_TEXTURE
        glPushMatrix();
        /* acd debug - display (bigger, centred) texture */
        glScalef(2.0, 2.0, 2.0);
        glTranslatef(-0.5, -0.5, 0.0);
        glBegin(GL_QUADS);
        glTexCoord2f(0.0, 0.0);
        glVertex3f(0.0, 0.0, -0.1);
        glTexCoord2f(1.0, 0.0);
        glVertex3f(1.0, 0.0, -0.1);
        glTexCoord2f(1.0, 1.0);
        glVertex3f(1.0, 1.0, -0.1);
        glTexCoord2f(0.0, 1.0);
        glVertex3f(0.0, 1.0, -0.1);
    polys++;
        glEnd();
        /* acd debug - display texture triangle */
        glColor4f(1.0, 0.5, 1.0, 1.0);
        glBegin(GL_LINE_LOOP);
        glVertex3f(t[0].x, t[0].y, -0.11);
        glVertex3f(t[1].x, t[1].y, -0.11);
        glVertex3f(t[2].x, t[2].y, -0.11);
    polys++;
        glEnd();
        glPopMatrix();
#endif

        glDisable(GL_TEXTURE_2D);
        glDepthMask(GL_TRUE);
        glDisable(GL_BLEND);
    return polys;
}

/*
 * main rendering loop
 */
static void
draw(ModeInfo * mi)
{
        GLfloat x_angle, y_angle, z_angle;
        gleidestruct *gp = &gleidescope[MI_SCREEN(mi)];
        vectorf v1;
        GLfloat pos[4];

    mi->polygon_count = 0;

        glClearColor(0.5, 0.5, 0.5, 1.0);
        glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
        glLoadIdentity();

        gp->tic += 0.005f;

        x_angle = gp->cam_x_phase + gp->tic * gp->cam_x_speed;
        y_angle = gp->cam_y_phase + gp->tic * gp->cam_y_speed;
        z_angle = gp->cam_z_phase + gp->tic * gp->cam_z_speed;

        if (move) {
                v1.x = 1 * sin(x_angle);
                v1.y = 1 * sin(y_angle);
        } else {
                v1.x = 0;
                v1.y = 0;
        }

        /* size is changed in pinit() to be distance from plane */
        gp->size = MI_SIZE(mi);
        if (gp->size > 10) {
                gp->size = 10;
        }
        if (gp->size <= 0) {
                gp->size = 0;
        }
        if (gp->size > 0) {
                /* user defined size */
                v1.z = gp->size;
        } else if (zoom) {
                /* max distance given by adding the constant and the multiplier */
                v1.z = 5.0 + 3.0 * sin(z_angle);
        } else {
                /* default */
                v1.z = 7.0;
        }

        /* update rotation angle (but not if mouse button down) */
        if (rotate && !gp->button_down_p)
        {
                float   new_rangle_vel = 0.0;

                /* update camera rotation angle and velocity */
                gp->rangle += gp->rangle_vel;
                new_rangle_vel = gp->rangle_vel + gp->rangle_acc;
                if (new_rangle_vel > -MAX_ANGLE_VEL && new_rangle_vel < MAX_ANGLE_VEL)
                {
                        /* new velocity is within limits */
                        gp->rangle_vel = new_rangle_vel;
                }

                /* randomly change twisting speed - 3ff = 1024 */
                if ((random() % TWISTING_PROBABILITY) < 1.0) {
                        gp->rangle_acc = INITIAL_ANGLE_ACC * frand(1.0);
                        if (gp->rangle_vel > 0.0) {
                                gp->rangle_acc = -gp->rangle_acc;
                        }
                }
        }
#if 0
        printf("Rangle: %f : %f : %f\n", gp->rangle, gp->rangle_vel, gp->rangle_acc);
        printf("Tangle: %f : %f : %f\n", gp->tangle, gp->tangle_vel, gp->tangle_acc);
#endif

#ifdef WOBBLE
        /* this makes the image wobble - requires -move and a larger grid */
        gluLookAt(0, 0, v1.z, v1.x, v1.y, 0.0, 0.0, 1.0, 0.0);
#else
        /* no wobble - camera always perpendicular to grid */

        /* rotating camera rather than entire space - smoother */
        gluLookAt(
                        v1.x, v1.y, v1.z,
                        v1.x, v1.y, 0.0,
                        sin((gp->xmouse * M_PI * 2) + gp->rangle * RADIANS),
                        cos((gp->xmouse * M_PI * 2) + gp->rangle * RADIANS),
                        0.0);
#endif

        /* light position same as camera */
        pos[0] = v1.x;
        pos[1] = v1.y;
        pos[2] = v1.z;
        pos[3] = 0;

        if (gp->fade == 0)
        {
                /* not fading */
      mi->polygon_count += 
        draw_hexagons(mi, MAX_FADE, &gp->textures[gp->visible]);
        }
        else
        {
                /* fading - show both textures with alpha
                NB first is always max alpha */
        mi->polygon_count += 
          draw_hexagons(mi, MAX_FADE, &gp->textures[1 - gp->visible]);
        mi->polygon_count += 
                  draw_hexagons(mi, MAX_FADE - gp->fade, &gp->textures[gp->visible]);

                /* fade some more */
                gp->fade++;

                /* have we faded enough? */
                if (gp->fade > MAX_FADE)
                {
                        /* stop fading */
                        gp->fade = 0;
                        gp->visible = 1 - gp->visible;
                }
        }

        /* increment texture angle based on time, velocity etc */
        /* but only if button is not down */
        if (!gp->button_down_p)
        {
                float           new_tangle_vel = 0.0;

                gp->tangle += gp->tangle_vel;

                /* work out new texture angle velocity */
                new_tangle_vel = gp->tangle_vel + gp->tangle_acc;
                if (new_tangle_vel > -MAX_ANGLE_VEL && new_tangle_vel < MAX_ANGLE_VEL)
                {
                        /* new velocity is inside limits */
                        gp->tangle_vel = new_tangle_vel;
                }

                /* randomly change twisting speed - 3ff = 1024 */
                if ((random() % TWISTING_PROBABILITY) < 1.0) {
                        gp->tangle_acc = INITIAL_ANGLE_ACC * frand(1.0);
                        if (gp->tangle_vel > 0.0) {
                                gp->tangle_acc = -gp->tangle_acc;
                        }
                }
        }

        glFlush();
}

/* 
 * new window size or exposure 
 */
ENTRYPOINT void reshape_gleidescope(ModeInfo *mi, int width, int height)
{
        GLfloat         h = (GLfloat) height / (GLfloat) width;

        glViewport(0, 0, (GLint) width, (GLint) height);
        glMatrixMode(GL_PROJECTION);
        glLoadIdentity();
        gluPerspective(50.0, 1/h, 0.1, 2000.0);
        glMatrixMode (GL_MODELVIEW);

        glLineWidth(1);
        glPointSize(1);   
}

static void
pinit(ModeInfo * mi)
{
        gleidestruct    *gp = &gleidescope[MI_SCREEN(mi)];

        /* set start time - star_time = 0 implies non-dynamic texture */
        gp->start_time = (time_t)0;

        /* set the texture size to default */
        /*
        gp->max_tx = 1.0;
        gp->max_ty = 1.0;
        */

        /* no fading */
        gp->fade = 0;

        glShadeModel(GL_SMOOTH);
        glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
        glEnable(GL_DEPTH_TEST);
        glEnable(GL_CULL_FACE);
        glDisable(GL_LIGHTING);

        /* space for textures */
        glGenTextures(1, &gp->textures[0].id);
        glGenTextures(1, &gp->textures[1].id);
        gp->visible = 0;

        setup_texture(mi, &gp->textures[gp->visible]);

        /*
        **      want to choose a value for arg randomly if neither -arg nor -no-arg
        **      is specified. xscreensaver libraries don't seem to let you do this -
        **      if something isn't true then it is false (pesky two-state boolean values).
        **      so, i've defined both -arg and -no-arg to arguments and added the 
        **      following logic.
        **      (btw if both -arg and -no-arg are defined then arg is set to False)
        */
        if (zoom == False && nozoom == False)
        {
                /* no zoom preference - randomise */
                zoom = (((random() & 0x1) == 0x1) ? True : False);
        }
        else if (nozoom == True)
        {
                /* definately no zoom */
                zoom = False;
        }

        if (move == False && nomove == False)
        {
                /* no move preference - randomise */
                move = (((random() & 0x1) == 0x1) ? True : False);
        }
        else if (nomove == True)
        {
                /* definately no move */
                move = False;
        }

        if (rotate == False && norotate == False)
        {
                /* no rotate preference - randomise */
                rotate = (((random() & 0x1) == 0x1) ? True : False);
        }
        else if (norotate == True)
        {
                /* definately no rotate */
                rotate = False;
        }

        /* define cam variables */
        gp->cam_x_speed = MAX_CAM_SPEED * frandrange(-.5, 0.5);
        gp->cam_x_phase = random() % 360;
        gp->cam_y_speed = MAX_CAM_SPEED * frandrange(-.5, 0.5);
        gp->cam_y_phase = random() % 360;
        gp->cam_z_speed = MAX_CAM_SPEED * frandrange(-.5, 0.5);
        gp->cam_z_phase = random() % 360;

        /* initial angular speeds */
        gp->rangle_vel = INITIAL_ANGLE_VEL * frandrange(-.5, 0.5);
        gp->tangle_vel = INITIAL_ANGLE_VEL * frandrange(-.5, 0.5);
        gp->rangle_acc = INITIAL_ANGLE_ACC * frandrange(-.5, 0.5);
        gp->tangle_acc = INITIAL_ANGLE_ACC * frandrange(-.5, 0.5);

    /* jwz */
#if 0
    {
      GLfloat speed = 15;
      gp->rangle_vel *= speed;
      gp->tangle_vel *= speed;
      gp->rangle_acc *= speed;
      gp->tangle_acc *= speed;
    }
#endif

        /* distance is 11 - size */
        if (gp->size != -1) {
                if (zoom) {
                        fprintf(stderr, "-size given. ignoring -zoom.\n");
                        zoom = False;
                }
                if (gp->size < 1) {
                        gp->size = 1;
                } else if (gp->size >= 10) {
                        gp->size = 10;
                }
                gp->size = 11 - gp->size;
        }

#ifdef DEBUG
printf("phases [%d, %d, %d]\n", gp->cam_x_phase, gp->cam_y_phase, gp->cam_z_phase);
#endif
}

ENTRYPOINT void
init_gleidescope(ModeInfo * mi)
{
        gleidestruct *gp;
        int screen = MI_SCREEN(mi);

        if (gleidescope == NULL) {
                gleidescope = (gleidestruct *) calloc(MI_NUM_SCREENS(mi), sizeof (gleidestruct));
                if (gleidescope == NULL) {
                        return;
                }
        }
        gp = &gleidescope[screen];
        gp->window = MI_WINDOW(mi);
    gp->size = -1;
    gp->list = -1;

        if ((gp->glx_context = init_GL(mi)) != NULL) {

                reshape_gleidescope(mi, MI_WIDTH(mi), MI_HEIGHT(mi));

                glDrawBuffer(GL_BACK);

                /* do initialisation */
                pinit(mi);

        } else {
                MI_CLEARWINDOW(mi);
        }
}

ENTRYPOINT void
draw_gleidescope(ModeInfo * mi)
{
        gleidestruct    *gp = &gleidescope[MI_SCREEN(mi)];
        Display         *display = MI_DISPLAY(mi);
        Window          window = MI_WINDOW(mi);


        if (!gp->glx_context)
                return;

    /* Just keep running before the texture has come in. */
    /* if (gp->waiting_for_image_p) return; */

        glDrawBuffer(GL_BACK);

        glXMakeCurrent(display, window, *(gp->glx_context));
        draw(mi);

        if (mi->fps_p) {
                do_fps (mi);
        }

        glFinish();
        glXSwapBuffers(display, window);

#ifdef GRAB
        if (grab) {
                grab_frame(display, window);
        }
#endif

        /* need to change texture? */
        if ((gp->start_time != 0) && (duration != -1) && gp->fade == 0) {
                if (gp->start_time + duration <= time((time_t *)0)) {
#ifdef DEBUG
                        printf("Start Time: %lu - Current Time: %lu\n", (unsigned long)gp->start_time, (unsigned long)time((time_t *)0));
                        printf("Changing Texture\n");
#endif
                        /* get new snapshot (into back buffer) and start fade count */
                        setup_texture(mi, &gp->textures[1 - gp->visible]);
                        /* restart fading */
                        gp->fade = 1;
                }
        }
}

ENTRYPOINT void
release_gleidescope(ModeInfo * mi)
{
        if (gleidescope != NULL) {
                int screen;

                for (screen = 0; screen < MI_NUM_SCREENS(mi); screen++) {
                        gleidestruct *gp = &gleidescope[screen];

                        /* acd -  is this needed? */
                        if (gp->glx_context) {
                                /* Display lists MUST be freed while their glXContext is current. */
                                glXMakeCurrent(MI_DISPLAY(mi), gp->window, *(gp->glx_context));

                                /* acd - was code here for freeing things that are no longer in struct */
                        }
                }
                (void) free((void *) gleidescope);
                gleidescope = NULL;
        }
        
        FreeAllGL(mi);
}

XSCREENSAVER_MODULE ("Gleidescope", gleidescope)

#endif