-/* xscreensaver, Copyright (c) 1992 Jamie Zawinski <jwz@mcom.com>
+/* xscreensaver, Copyright (c) 1992-2008 Jamie Zawinski <jwz@jwz.org>
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
*/
#include "screenhack.h"
+#include "alpha.h"
#include <stdio.h>
+#define MAXPOLY 16
+#define SCALE 6
+
struct qpoint {
int x, y;
int dx, dy;
};
struct qline {
- struct qpoint p1, p2;
+ struct qpoint *p;
XColor color;
Bool dead;
};
int id;
int fp;
int nlines;
+ int npoly;
struct qline *lines;
};
-static GC draw_gc, erase_gc;
-static unsigned int default_fg_pixel;
-static int maxx, maxy, max_spread, max_size, color_shift;
-static Bool random_p, solid_p, xor_p, transparent_p;
-static int delay;
-static int count;
-static Colormap cmap;
-static unsigned long base_pixel;
+struct state {
+ Display *dpy;
+ Window window;
+
+ GC draw_gc, erase_gc;
+ unsigned int default_fg_pixel;
+ long maxx, maxy, max_spread, max_size;
+ int color_shift;
+ Bool random_p, solid_p, xor_p, transparent_p, gravity_p;
+ int delay;
+ int count;
+ Colormap cmap;
+ int npoly;
+ Bool additive_p;
+ Bool cmap_p;
+
+ GC *gcs[2];
+
+ int gtick;
+
+ struct qix **qixes;
+};
-static GC *gcs[2];
static void
-get_geom (dpy, window)
- Display *dpy;
- Window window;
+get_geom (struct state *st)
{
XWindowAttributes xgwa;
- XGetWindowAttributes (dpy, window, &xgwa);
- maxx = xgwa.width;
- maxy = xgwa.height;
+ XGetWindowAttributes (st->dpy, st->window, &xgwa);
+ st->maxx = ((long)(xgwa.width+1)<<SCALE) - 1;
+ st->maxy = ((long)(xgwa.height+1)<<SCALE) - 1;
}
static struct qix *
-init_one_qix (dpy, window, nlines)
- Display *dpy;
- Window window;
- int nlines;
+init_one_qix (struct state *st, int nlines)
{
- int i;
+ int i, j;
struct qix *qix = (struct qix *) calloc (1, sizeof (struct qix));
qix->nlines = nlines;
qix->lines = (struct qline *) calloc (qix->nlines, sizeof (struct qline));
-
- if (!mono_p && !transparent_p)
+ qix->npoly = st->npoly;
+ for (i = 0; i < qix->nlines; i++)
+ qix->lines[i].p = (struct qpoint *)
+ calloc(qix->npoly, sizeof(struct qpoint));
+
+# ifndef HAVE_COCOA
+ if (!mono_p && !st->transparent_p)
+# endif
{
hsv_to_rgb (random () % 360, frand (1.0), frand (0.5) + 0.5,
&qix->lines[0].color.red, &qix->lines[0].color.green,
&qix->lines[0].color.blue);
- if (!XAllocColor (dpy, cmap, &qix->lines[0].color))
+ if (!XAllocColor (st->dpy, st->cmap, &qix->lines[0].color))
{
- qix->lines[0].color.pixel = default_fg_pixel;
- XQueryColor (dpy, cmap, &qix->lines[0].color);
- if (!XAllocColor (dpy, cmap, &qix->lines[0].color))
+ qix->lines[0].color.pixel = st->default_fg_pixel;
+ XQueryColor (st->dpy, st->cmap, &qix->lines[0].color);
+ if (!XAllocColor (st->dpy, st->cmap, &qix->lines[0].color))
abort ();
}
}
- qix->lines[0].p1.x = random () % maxx;
- qix->lines[0].p1.y = random () % maxy;
- if (max_size == 0)
+
+ if (st->max_size == 0)
{
- qix->lines[0].p2.x = random () % maxx;
- qix->lines[0].p2.y = random () % maxy;
+ for (i = 0; i < qix->npoly; i++)
+ {
+ qix->lines[0].p[i].x = random () % st->maxx;
+ qix->lines[0].p[i].y = random () % st->maxy;
+ }
}
else
{
- qix->lines[0].p2.x = qix->lines[0].p1.x + (random () % (max_size/2));
- qix->lines[0].p2.y = qix->lines[0].p1.y + (random () % (max_size/2));
- if (qix->lines[0].p2.x > maxx) qix->lines[0].p2.x = maxx;
- if (qix->lines[0].p2.y > maxy) qix->lines[0].p2.y = maxy;
+ /*assert(qix->npoly == 2);*/
+ qix->lines[0].p[0].x = random () % st->maxx;
+ qix->lines[0].p[0].y = random () % st->maxy;
+ qix->lines[0].p[1].x = qix->lines[0].p[0].x + (random () % (st->max_size/2));
+ qix->lines[0].p[1].y = qix->lines[0].p[0].y + (random () % (st->max_size/2));
+ if (qix->lines[0].p[1].x > st->maxx) qix->lines[0].p[1].x = st->maxx;
+ if (qix->lines[0].p[1].y > st->maxy) qix->lines[0].p[1].y = st->maxy;
+ }
+
+ for (i = 0; i < qix->npoly; i++)
+ {
+ qix->lines[0].p[i].dx = (random () % (st->max_spread + 1)) - (st->max_spread /2);
+ qix->lines[0].p[i].dy = (random () % (st->max_spread + 1)) - (st->max_spread /2);
}
- qix->lines[0].p1.dx = (random () % (max_spread + 1)) - (max_spread / 2);
- qix->lines[0].p1.dy = (random () % (max_spread + 1)) - (max_spread / 2);
- qix->lines[0].p2.dx = (random () % (max_spread + 1)) - (max_spread / 2);
- qix->lines[0].p2.dy = (random () % (max_spread + 1)) - (max_spread / 2);
qix->lines[0].dead = True;
+
for (i = 1; i < qix->nlines; i++)
{
- qix->lines[i] = qix->lines[0];
- if (!mono_p && !transparent_p)
- if (!XAllocColor (dpy, cmap, &qix->lines[i].color))
+ for(j=0; j<qix->npoly; j++)
+ qix->lines[i].p[j] = qix->lines[0].p[j];
+ qix->lines[i].color = qix->lines[0].color;
+ qix->lines[i].dead = qix->lines[0].dead;
+
+# ifndef HAVE_COCOA
+ if (!mono_p && !st->transparent_p)
+# endif
+ if (!XAllocColor (st->dpy, st->cmap, &qix->lines[i].color))
abort ();
}
return qix;
}
-/* I don't believe this fucking language doesn't have builtin exponentiation.
- I further can't believe that the fucking ^ character means fucking XOR!! */
-static int i_exp(i,j)
- int i, j;
-{
- int k = 1;
- while (j--) k *= i;
- return k;
-}
-
-
-static void
-merge_colors (argc, argv, into_color, mask, increment_p)
- int argc;
- XColor **argv;
- XColor *into_color;
- int mask;
- Bool increment_p;
-{
- int j;
- *into_color = *argv [0];
- into_color->pixel |= mask;
-#define SHORT_INC(x,y) (x = ((((x)+(y)) > 0xFFFF) ? 0xFFFF : ((x)+(y))))
-#define SHORT_DEC(x,y) (x = ((((x)-(y)) < 0) ? 0 : ((x)-(y))))
- for (j = 1; j < argc; j++)
- if (increment_p)
- {
- SHORT_INC (into_color->red, argv[j]->red);
- SHORT_INC (into_color->green, argv[j]->green);
- SHORT_INC (into_color->blue, argv[j]->blue);
- }
- else
- {
- SHORT_DEC (into_color->red, argv[j]->red);
- SHORT_DEC (into_color->green, argv[j]->green);
- SHORT_DEC (into_color->blue, argv[j]->blue);
- }
-#undef SHORT_INC
-#undef SHORT_DEC
-}
-/* fill in all the permutations of colors that XAllocColorCells() has
- allocated for us. Thanks Ron, you're an additive kind of guy. */
-static void
-permute_colors (pcolors, colors, count, plane_masks, increment_p)
- XColor *pcolors, *colors;
- int count;
- unsigned long *plane_masks;
- Bool increment_p;
-{
- int out = 0;
- int max = i_exp (2, count);
- if (count > 31) abort ();
- for (out = 1; out < max; out++)
- {
- XColor *argv [32];
- int this_mask = 0;
- int argc = 0;
- int bit;
- for (bit = 0; bit < 32; bit++)
- if (out & (1<<bit))
- {
- argv [argc++] = &pcolors [bit];
- this_mask |= plane_masks [bit];
- }
- merge_colors (argc, argv, &colors [out-1], this_mask, increment_p);
- }
-}
-static struct qix **
-init_qix (dpy, window)
- Display *dpy;
- Window window;
+static void *
+qix_init (Display *dpy, Window window)
{
+ struct state *st = (struct state *) calloc (1, sizeof(*st));
int nlines;
- struct qix **qixes;
XGCValues gcv;
XWindowAttributes xgwa;
- XGetWindowAttributes (dpy, window, &xgwa);
- cmap = xgwa.colormap;
- count = get_integer_resource ("count", "Integer");
- if (count <= 0) count = 1;
- nlines = get_integer_resource ("segments", "Integer");
+ st->dpy = dpy;
+ st->window = window;
+ XGetWindowAttributes (st->dpy, st->window, &xgwa);
+ st->cmap = xgwa.colormap;
+ st->count = get_integer_resource (st->dpy, "count", "Integer");
+ if (st->count <= 0) st->count = 1;
+ nlines = get_integer_resource (st->dpy, "segments", "Integer");
if (nlines <= 0) nlines = 20;
- get_geom (dpy, window);
- max_spread = get_integer_resource ("spread", "Integer");
- if (max_spread <= 0) max_spread = 10;
- max_size = get_integer_resource ("size", "Integer");
- if (max_size < 0) max_size = 0;
- random_p = get_boolean_resource ("random", "Boolean");
- solid_p = get_boolean_resource ("solid", "Boolean");
- xor_p = get_boolean_resource ("xor", "Boolean");
- transparent_p = get_boolean_resource ("transparent", "Boolean");
- delay = get_integer_resource ("delay", "Integer");
- color_shift = get_integer_resource ("colorShift", "Integer");
- if (color_shift < 0 || color_shift >= 360) color_shift = 5;
- if (delay < 0) delay = 0;
-
- if (count == 1 && transparent_p)
- transparent_p = False; /* it's a no-op */
-
- if (transparent_p && CellsOfScreen (DefaultScreenOfDisplay (dpy)) <= 2)
+ st->npoly = get_integer_resource(st->dpy, "poly", "Integer");
+ if (st->npoly <= 2) st->npoly = 2;
+ if (st->npoly > MAXPOLY) st->npoly = MAXPOLY;
+ get_geom (st);
+ st->max_spread = get_integer_resource (st->dpy, "spread", "Integer");
+ if (st->max_spread <= 0) st->max_spread = 10;
+ st->max_spread <<= SCALE;
+ st->max_size = get_integer_resource (st->dpy, "size", "Integer");
+ if (st->max_size < 0) st->max_size = 0;
+ st->max_size <<= SCALE;
+ st->random_p = get_boolean_resource (st->dpy, "random", "Boolean");
+ st->solid_p = get_boolean_resource (st->dpy, "solid", "Boolean");
+ st->xor_p = get_boolean_resource (st->dpy, "xor", "Boolean");
+ st->transparent_p = get_boolean_resource (st->dpy, "transparent", "Boolean");
+ st->gravity_p = get_boolean_resource(st->dpy, "gravity", "Boolean");
+ st->delay = get_integer_resource (st->dpy, "delay", "Integer");
+ st->color_shift = get_integer_resource (st->dpy, "colorShift", "Integer");
+ if (st->color_shift < 0 || st->color_shift >= 360) st->color_shift = 5;
+ if (st->delay < 0) st->delay = 0;
+
+ /* Clear up ambiguities regarding npoly */
+ if (st->solid_p)
+ {
+ if (st->npoly != 2)
+ fprintf(stderr, "%s: Can't have -solid and -poly; using -poly 2\n",
+ progname);
+ st->npoly = 2;
+ }
+ if (st->npoly > 2)
+ {
+ if (st->max_size)
+ fprintf(stderr, "%s: Can't have -poly and -size; using -size 0\n",
+ progname);
+ st->max_size = 0;
+ }
+
+ if (st->count == 1 && st->transparent_p)
+ st->transparent_p = False; /* it's a no-op */
+
+ if (st->transparent_p && CellsOfScreen (DefaultScreenOfDisplay (st->dpy)) <= 2)
{
fprintf (stderr, "%s: -transparent only works on color displays.\n",
progname);
- transparent_p = False;
+ st->transparent_p = False;
}
- if (xor_p && !transparent_p)
+ if (st->xor_p && !st->transparent_p)
mono_p = True;
- gcs[0] = gcs[1] = 0;
- gcv.foreground = default_fg_pixel =
- get_pixel_resource ("foreground", "Foreground", dpy, cmap);
+ st->gcs[0] = st->gcs[1] = 0;
+ gcv.foreground = st->default_fg_pixel =
+ get_pixel_resource (st->dpy, st->cmap, "foreground", "Foreground");
- if (transparent_p)
- {
- Bool increment_p = get_boolean_resource ("additive", "Boolean");
- unsigned long plane_masks [32];
- XColor *pcolors, *colors;
- int nplanes = count;
- int i, total_colors;
+ st->additive_p = get_boolean_resource (st->dpy, "additive", "Boolean");
+ st->cmap_p = has_writable_cells (xgwa.screen, xgwa.visual);
- /* permutations would be harder if the number of planes didn't fit
- in an int. Who has >32-bit displays anyway... */
- if (nplanes > 31) nplanes = 31;
+# ifndef HAVE_COCOA
+ if (st->transparent_p)
+ {
+ unsigned long *plane_masks = 0;
+ unsigned long base_pixel;
+ int nplanes = st->count;
+ int i;
- while (nplanes > 1 &&
- !XAllocColorCells (dpy, cmap, False, plane_masks, nplanes,
- &base_pixel, 1))
- nplanes--;
+ allocate_alpha_colors (xgwa.screen, xgwa.visual, st->cmap,
+ &nplanes, st->additive_p, &plane_masks,
+ &base_pixel);
if (nplanes <= 1)
{
fprintf (stderr,
"%s: couldn't allocate any color planes; turning -transparent off.\n",
progname);
- transparent_p = False;
- if (xor_p)
+ st->transparent_p = False;
+ if (st->xor_p)
goto NON_TRANSPARENT_XOR;
else
goto NON_TRANSPARENT;
}
- else if (nplanes != count)
+ else if (nplanes != st->count)
{
fprintf (stderr,
"%s: only allocated %d color planes (instead of %d).\n",
- progname, nplanes, count);
- count = nplanes;
+ progname, nplanes, st->count);
+ st->count = nplanes;
}
- gcs[0] = (GC *) malloc (count * sizeof (GC));
- gcs[1] = xor_p ? gcs[0] : (GC *) malloc (count * sizeof (GC));
- total_colors = i_exp (2, count);
- pcolors = (XColor *) calloc (count, sizeof (XColor));
- colors = (XColor *) calloc (total_colors, sizeof (XColor));
- for (i = 0; i < count; i++)
+ st->gcs[0] = (GC *) malloc (st->count * sizeof (GC));
+ st->gcs[1] = (st->xor_p
+ ? st->gcs[0]
+ : (GC *) malloc (st->count * sizeof (GC)));
+
+ for (i = 0; i < st->count; i++)
{
gcv.plane_mask = plane_masks [i];
gcv.foreground = ~0;
- if (xor_p)
+
+/* argh, I'm not sure how to make "-subtractive" work in truecolor...
+ if (!cmap_p && !additive_p)
+ gcv.function = GXclear;
+ */
+
+ if (st->xor_p)
{
gcv.function = GXxor;
- gcs [0][i] = XCreateGC (dpy, window,
- GCForeground|GCFunction|GCPlaneMask,
- &gcv);
+ st->gcs [0][i] = XCreateGC (st->dpy, st->window,
+ GCForeground|GCFunction|GCPlaneMask,
+ &gcv);
}
else
{
- gcs [0][i] = XCreateGC (dpy, window, GCForeground|GCPlaneMask,
- &gcv);
+ st->gcs [0][i] = XCreateGC (st->dpy, st->window,
+ GCForeground|GCPlaneMask,
+ &gcv);
gcv.foreground = 0;
- gcs [1][i] = XCreateGC (dpy, window, GCForeground|GCPlaneMask,
- &gcv);
+ st->gcs [1][i] = XCreateGC (st->dpy, st->window,
+ GCForeground|GCPlaneMask,
+ &gcv);
+# ifdef HAVE_COCOA
+ /* jwxyz_XSetAntiAliasing (st->dpy, st->gcs [0][i], False);
+ jwxyz_XSetAntiAliasing (st->dpy, st->gcs [1][i], False); */
+ if (st->transparent_p)
+ {
+ jwxyz_XSetAlphaAllowed (dpy, st->gcs [0][i], True);
+ jwxyz_XSetAlphaAllowed (dpy, st->gcs [1][i], True);
+ }
+# endif /* HAVE_COCOA */
}
+ }
- /* pick the "primary" (not in that sense) colors.
- If we are in subtractive mode, pick higher intensities. */
- hsv_to_rgb (random () % 360, frand (1.0),
- frand (0.5) + (increment_p ? 0.2 : 0.5),
- &pcolors[i].red, &pcolors[i].green, &pcolors[i].blue);
+ if (plane_masks)
+ free (plane_masks);
- pcolors [i].flags = DoRed | DoGreen | DoBlue;
- pcolors [i].pixel = base_pixel | plane_masks [i];
- }
- permute_colors (pcolors, colors, count, plane_masks, increment_p);
- /* clone the default background of the window into our "base" pixel */
- colors [total_colors - 1].pixel =
- get_pixel_resource ("background", "Background", dpy, cmap);
- XQueryColor (dpy, cmap, &colors [total_colors - 1]);
- colors [total_colors - 1].pixel = base_pixel;
- XStoreColors (dpy, cmap, colors, total_colors);
- XSetWindowBackground (dpy, window, base_pixel);
- XClearWindow (dpy, window);
+ XSetWindowBackground (st->dpy, st->window, base_pixel);
+ XClearWindow (st->dpy, st->window);
}
- else if (xor_p)
+ else
+#endif /* !HAVE_COCOA */
+ if (st->xor_p)
{
+#ifndef HAVE_COCOA
NON_TRANSPARENT_XOR:
+#endif
gcv.function = GXxor;
gcv.foreground =
- (default_fg_pixel ^ get_pixel_resource ("background", "Background",
- dpy, cmap));
- draw_gc = erase_gc = XCreateGC(dpy,window,GCForeground|GCFunction,&gcv);
+ (st->default_fg_pixel /* ^ get_pixel_resource (st->dpy, st->cmap,
+ "background", "Background")*/);
+ st->draw_gc = st->erase_gc = XCreateGC(st->dpy,st->window,GCForeground|GCFunction,&gcv);
}
else
{
+#ifndef HAVE_COCOA
NON_TRANSPARENT:
- draw_gc = XCreateGC (dpy, window, GCForeground, &gcv);
- gcv.foreground = get_pixel_resource ("background", "Background",
- dpy, cmap);
- erase_gc = XCreateGC (dpy, window, GCForeground, &gcv);
+#endif
+ st->draw_gc = XCreateGC (st->dpy, st->window, GCForeground, &gcv);
+ gcv.foreground = get_pixel_resource (st->dpy, st->cmap,
+ "background", "Background");
+ st->erase_gc = XCreateGC (st->dpy, st->window, GCForeground, &gcv);
}
- qixes = (struct qix **) malloc ((count + 1) * sizeof (struct qix *));
- qixes [count] = 0;
- while (count--)
+#ifdef HAVE_COCOA
+ if (st->transparent_p)
+ jwxyz_XSetAlphaAllowed (dpy, st->draw_gc, True);
+#endif
+
+ st->qixes = (struct qix **) malloc ((st->count + 1) * sizeof (struct qix *));
+ st->qixes [st->count] = 0;
+ while (st->count--)
{
- qixes [count] = init_one_qix (dpy, window, nlines);
- qixes [count]->id = count;
+ st->qixes [st->count] = init_one_qix (st, nlines);
+ st->qixes [st->count]->id = st->count;
}
- return qixes;
+
+# ifdef HAVE_COCOA
+ /* line-mode leaves turds without this. */
+ jwxyz_XSetAntiAliasing (st->dpy, st->erase_gc, False);
+ jwxyz_XSetAntiAliasing (st->dpy, st->draw_gc, False);
+# endif
+
+ return st;
}
static void
-free_qline (dpy, window, cmap, qline, prev, qix)
- Display *dpy;
- Window window;
- Colormap cmap;
- struct qline *qline, *prev;
- struct qix *qix;
+free_qline (struct state *st,
+ struct qline *qline,
+ struct qline *prev,
+ struct qix *qix)
{
+ int i;
if (qline->dead || !prev)
;
- else if (solid_p)
+ else if (st->solid_p)
{
XPoint points [4];
- points [0].x = qline->p1.x; points [0].y = qline->p1.y;
- points [1].x = qline->p2.x; points [1].y = qline->p2.y;
- points [2].x = prev->p2.x; points [2].y = prev->p2.y;
- points [3].x = prev->p1.x; points [3].y = prev->p1.y;
- XFillPolygon (dpy, window, (transparent_p ? gcs[1][qix->id] : erase_gc),
+ /*assert(qix->npoly == 2);*/
+ points [0].x = qline->p[0].x >> SCALE;
+ points [0].y = qline->p[0].y >> SCALE;
+ points [1].x = qline->p[1].x >> SCALE;
+ points [1].y = qline->p[1].y >> SCALE;
+ points [2].x = prev->p[1].x >> SCALE;
+ points [2].y = prev->p[1].y >> SCALE;
+ points [3].x = prev->p[0].x >> SCALE;
+ points [3].y = prev->p[0].y >> SCALE;
+ XFillPolygon (st->dpy, st->window,
+ (st->transparent_p && st->gcs[1]
+ ? st->gcs[1][qix->id]
+ : st->erase_gc),
points, 4, Complex, CoordModeOrigin);
}
else
- XDrawLine (dpy, window, (transparent_p ? gcs[1][qix->id] : erase_gc),
- qline->p1.x, qline->p1.y, qline->p2.x, qline->p2.y);
+ {
+ /* XDrawLine (dpy, window, (transparent_p ? gcs[1][qix->id] : erase_gc),
+ qline->p1.x, qline->p1.y, qline->p2.x, qline->p2.y);*/
+ XPoint points[MAXPOLY+1];
+ for(i = 0; i < qix->npoly; i++)
+ {
+ points[i].x = qline->p[i].x >> SCALE;
+ points[i].y = qline->p[i].y >> SCALE;
+ }
+ points[qix->npoly] = points[0];
+ XDrawLines(st->dpy, st->window,
+ (st->transparent_p && st->gcs[1]
+ ? st->gcs[1][qix->id]
+ : st->erase_gc),
+ points, qix->npoly+1, CoordModeOrigin);
+ }
- if (!mono_p && !transparent_p)
- XFreeColors (dpy, cmap, &qline->color.pixel, 1, 0);
+ if (!mono_p && !st->transparent_p)
+ XFreeColors (st->dpy, st->cmap, &qline->color.pixel, 1, 0);
qline->dead = True;
}
static void
-add_qline (dpy, window, cmap, qline, prev_qline, qix)
- Display *dpy;
- Window window;
- Colormap cmap;
- struct qline *qline, *prev_qline;
- struct qix *qix;
+add_qline (struct state *st,
+ struct qline *qline,
+ struct qline *prev_qline,
+ struct qix *qix)
{
- *qline = *prev_qline;
+ int i;
+
+ for(i=0; i<qix->npoly; i++)
+ qline->p[i] = prev_qline->p[i];
+ qline->color = prev_qline->color;
+ qline->dead = prev_qline->dead;
#define wiggle(point,delta,max) \
- if (random_p) delta += (random () % 3) - 1; \
- if (delta > max_spread) delta = max_spread; \
- else if (delta < -max_spread) delta = -max_spread; \
+ if (st->random_p) delta += (random () % (1 << (SCALE+1))) - (1 << SCALE); \
+ if (delta > st->max_spread) delta = st->max_spread; \
+ else if (delta < -st->max_spread) delta = -st->max_spread; \
point += delta; \
if (point < 0) point = 0, delta = -delta, point += delta<<1; \
else if (point > max) point = max, delta = -delta, point += delta<<1;
-
- wiggle (qline->p1.x, qline->p1.dx, maxx);
- wiggle (qline->p1.y, qline->p1.dy, maxy);
- wiggle (qline->p2.x, qline->p2.dx, maxx);
- wiggle (qline->p2.y, qline->p2.dy, maxy);
- if (max_size)
+ if (st->gravity_p)
+ for(i=0; i<qix->npoly; i++)
+ qline->p[i].dy += 3;
+
+ for (i = 0; i < qix->npoly; i++)
+ {
+ wiggle (qline->p[i].x, qline->p[i].dx, st->maxx);
+ wiggle (qline->p[i].y, qline->p[i].dy, st->maxy);
+ }
+
+ if (st->max_size)
{
- if (qline->p1.x - qline->p2.x > max_size)
- qline->p1.x = qline->p2.x + max_size
- - (random_p ? random() % max_spread : 0);
- else if (qline->p2.x - qline->p1.x > max_size)
- qline->p2.x = qline->p1.x + max_size
- - (random_p ? random() % max_spread : 0);
- if (qline->p1.y - qline->p2.y > max_size)
- qline->p1.y = qline->p2.y + max_size
- - (random_p ? random() % max_spread : 0);
- else if (qline->p2.y - qline->p1.y > max_size)
- qline->p2.y = qline->p1.y + max_size
- - (random_p ? random() % max_spread : 0);
+ /*assert(qix->npoly == 2);*/
+ if (qline->p[0].x - qline->p[1].x > st->max_size)
+ qline->p[0].x = qline->p[1].x + st->max_size
+ - (st->random_p ? random() % st->max_spread : 0);
+ else if (qline->p[1].x - qline->p[0].x > st->max_size)
+ qline->p[1].x = qline->p[0].x + st->max_size
+ - (st->random_p ? random() % st->max_spread : 0);
+ if (qline->p[0].y - qline->p[1].y > st->max_size)
+ qline->p[0].y = qline->p[1].y + st->max_size
+ - (st->random_p ? random() % st->max_spread : 0);
+ else if (qline->p[1].y - qline->p[0].y > st->max_size)
+ qline->p[1].y = qline->p[0].y + st->max_size
+ - (st->random_p ? random() % st->max_spread : 0);
}
- if (!mono_p && !transparent_p)
+#ifndef HAVE_COCOA
+ if (!mono_p && !st->transparent_p)
+#endif
{
- cycle_hue (&qline->color, color_shift);
+ XColor desired;
+
+ int h;
+ double s, v;
+ rgb_to_hsv (qline->color.red, qline->color.green, qline->color.blue,
+ &h, &s, &v);
+ h = (h + st->color_shift) % 360;
+ hsv_to_rgb (h, s, v,
+ &qline->color.red, &qline->color.green, &qline->color.blue);
+
qline->color.flags = DoRed | DoGreen | DoBlue;
- if (!XAllocColor (dpy, cmap, &qline->color))
+ desired = qline->color;
+ if (XAllocColor (st->dpy, st->cmap, &qline->color))
+ {
+ /* XAllocColor returns the actual RGB that the hardware let us
+ allocate. Restore the requested values into the XColor struct
+ so that limited-resolution hardware doesn't cause the cycle to
+ get "stuck". */
+ qline->color.red = desired.red;
+ qline->color.green = desired.green;
+ qline->color.blue = desired.blue;
+ }
+ else
{
qline->color = prev_qline->color;
- if (!XAllocColor (dpy, cmap, &qline->color))
+ if (!XAllocColor (st->dpy, st->cmap, &qline->color))
abort (); /* same color should work */
}
- XSetForeground (dpy, draw_gc, qline->color.pixel);
+
+# ifdef HAVE_COCOA
+ if (st->transparent_p)
+ {
+ /* give a non-opaque alpha to the color */
+ unsigned long pixel = qline->color.pixel;
+ unsigned long amask = BlackPixelOfScreen (0);
+ unsigned long a = (0xBBBBBBBB & amask);
+ pixel = (pixel & (~amask)) | a;
+ qline->color.pixel = pixel;
+ }
+# endif /* HAVE_COCOA */
+
+ XSetForeground (st->dpy, st->draw_gc, qline->color.pixel);
+ }
+ if (! st->solid_p)
+ {
+ /* XDrawLine (dpy, window, (transparent_p ? gcs[0][qix->id] : draw_gc),
+ qline->p1.x, qline->p1.y, qline->p2.x, qline->p2.y);*/
+ XPoint points[MAXPOLY+1];
+ for (i = 0; i < qix->npoly; i++)
+ {
+ points[i].x = qline->p[i].x >> SCALE;
+ points[i].y = qline->p[i].y >> SCALE;
+ }
+ points[qix->npoly] = points[0];
+ XDrawLines(st->dpy, st->window,
+ (st->transparent_p && st->gcs[0]
+ ? st->gcs[0][qix->id]
+ : st->draw_gc),
+ points, qix->npoly+1, CoordModeOrigin);
}
- if (! solid_p)
- XDrawLine (dpy, window, (transparent_p ? gcs[0][qix->id] : draw_gc),
- qline->p1.x, qline->p1.y, qline->p2.x, qline->p2.y);
else if (!prev_qline->dead)
{
XPoint points [4];
- points [0].x = qline->p1.x; points [0].y = qline->p1.y;
- points [1].x = qline->p2.x; points [1].y = qline->p2.y;
- points [2].x = prev_qline->p2.x; points [2].y = prev_qline->p2.y;
- points [3].x = prev_qline->p1.x; points [3].y = prev_qline->p1.y;
- XFillPolygon (dpy, window, (transparent_p ? gcs[0][qix->id] : draw_gc),
+ points [0].x = qline->p[0].x >> SCALE;
+ points [0].y = qline->p[0].y >> SCALE;
+ points [1].x = qline->p[1].x >> SCALE;
+ points [1].y = qline->p[1].y >> SCALE;
+ points [2].x = prev_qline->p[1].x >> SCALE;
+ points [2].y = prev_qline->p[1].y >> SCALE;
+ points [3].x = prev_qline->p[0].x >> SCALE;
+ points [3].y = prev_qline->p[0].y >> SCALE;
+ XFillPolygon (st->dpy, st->window,
+ (st->transparent_p && st->gcs[0]
+ ? st->gcs[0][qix->id]
+ : st->draw_gc),
points, 4, Complex, CoordModeOrigin);
}
}
static void
-qix1 (dpy, window, qix)
- Display *dpy;
- Window window;
- struct qix *qix;
+qix1 (struct state *st, struct qix *qix)
{
int ofp = qix->fp - 1;
- static int gtick = 0;
- if (gtick++ == 500)
- get_geom (dpy, window), gtick = 0;
if (ofp < 0) ofp = qix->nlines - 1;
- free_qline (dpy, window, cmap, &qix->lines [qix->fp],
+ if (st->gtick++ == 500)
+ get_geom (st), st->gtick = 0;
+ free_qline (st, &qix->lines [qix->fp],
&qix->lines[(qix->fp + 1) % qix->nlines], qix);
- add_qline (dpy, window, cmap, &qix->lines[qix->fp], &qix->lines[ofp], qix);
+ add_qline (st, &qix->lines[qix->fp], &qix->lines[ofp], qix);
if ((++qix->fp) >= qix->nlines)
qix->fp = 0;
}
-\f
-char *progclass = "Qix";
-char *defaults [] = {
- "Qix.background: black", /* to placate SGI */
- "Qix.foreground: white",
- "*count: 1",
- "*segments: 50",
+static unsigned long
+qix_draw (Display *dpy, Window window, void *closure)
+{
+ struct state *st = (struct state *) closure;
+ struct qix **q1 = st->qixes;
+ struct qix **qn;
+ for (qn = q1; *qn; qn++)
+ qix1 (st, *qn);
+ return st->delay;
+}
+
+static void
+qix_reshape (Display *dpy, Window window, void *closure,
+ unsigned int w, unsigned int h)
+{
+ struct state *st = (struct state *) closure;
+ get_geom (st);
+}
+
+static Bool
+qix_event (Display *dpy, Window window, void *closure, XEvent *event)
+{
+ return False;
+}
+
+static void
+qix_free (Display *dpy, Window window, void *closure)
+{
+ struct state *st = (struct state *) closure;
+ if (st->gcs[0])
+ free (st->gcs[0]);
+ if (st->gcs[1] && st->gcs[0] != st->gcs[1])
+ free (st->gcs[1]);
+ free (st->qixes);
+ free (st);
+}
+
+\f
+static const char *qix_defaults [] = {
+ ".background: black",
+ ".foreground: white",
+ "*fpsSolid: true",
+ "*count: 4",
+ "*segments: 250",
+ "*poly: 2",
"*spread: 8",
- "*size: 0",
+ "*size: 200",
"*colorShift: 3",
- "*solid: false",
+ "*solid: true",
"*delay: 10000",
- "*random: true",
+ "*random: false",
"*xor: false",
- "*transparent:false",
+ "*transparent:true",
+ "*gravity: false",
"*additive: true",
+#ifdef USE_IPHONE
+ "*ignoreRotation: True",
+#endif
0
};
-XrmOptionDescRec options [] = {
+static XrmOptionDescRec qix_options [] = {
{ "-count", ".count", XrmoptionSepArg, 0 },
{ "-segments", ".segments", XrmoptionSepArg, 0 },
+ { "-poly", ".poly", XrmoptionSepArg, 0 },
{ "-spread", ".spread", XrmoptionSepArg, 0 },
{ "-size", ".size", XrmoptionSepArg, 0 },
{ "-delay", ".delay", XrmoptionSepArg, 0 },
{ "-no-xor", ".xor", XrmoptionNoArg, "false" },
{ "-transparent", ".transparent", XrmoptionNoArg, "true" },
{ "-non-transparent", ".transparent", XrmoptionNoArg, "false" },
+ { "-gravity", ".gravity", XrmoptionNoArg, "true" },
+ { "-no-gravity", ".gravity", XrmoptionNoArg, "false" },
{ "-additive", ".additive", XrmoptionNoArg, "true" },
{ "-subtractive", ".additive", XrmoptionNoArg, "false" },
+ { 0, 0, 0, 0 }
};
-int options_size = (sizeof (options) / sizeof (options[0]));
-void
-screenhack (dpy, window)
- Display *dpy;
- Window window;
-{
- struct qix **q1 = init_qix (dpy, window);
- struct qix **qn;
- while (1)
- for (qn = q1; *qn; qn++)
- {
- qix1 (dpy, window, *qn);
- XSync (dpy, True);
- if (delay) usleep (delay);
- }
-}
+XSCREENSAVER_MODULE ("Qix", qix)