/* erase.c: Erase the screen in various more or less interesting ways.
- * Copyright (c) 1997-2001 Jamie Zawinski <jwz@jwz.org>
+ * Copyright (c) 1997-2001, 2006 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 "yarandom.h"
#include "usleep.h"
#include "resources.h"
+#include "erase.h"
+#include <sys/time.h> /* for gettimeofday() */
extern char *progname;
#undef countof
#define countof(x) (sizeof(x)/sizeof(*(x)))
-#define LITTLE_NAP 5000 /* 1/200th sec */
+typedef void (*Eraser) (eraser_state *);
-typedef void (*Eraser) (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs);
+struct eraser_state {
+ Display *dpy;
+ Window window;
+ GC fg_gc, bg_gc;
+ int width, height;
+ Eraser fn;
+ double start_time, stop_time;
+ double ratio, prev_ratio;
-static unsigned long
-millitime (void)
+ /* data for random_lines, venetian, random_squares */
+ Bool horiz_p;
+ Bool flip_p;
+ int nlines, *lines;
+
+ /* data for triple_wipe, quad_wipe */
+ Bool flip_x, flip_y;
+
+ /* data for circle_wipe, three_circle_wipe */
+ int start;
+
+ /* data for random_squares */
+ int cols;
+
+};
+
+
+static double
+double_time (void)
{
- struct timeval tt;
+ struct timeval now;
# ifdef GETTIMEOFDAY_TWO_ARGS
- struct timezone tz;
- gettimeofday (&tt, &tz);
+ struct timezone tzp;
+ gettimeofday(&now, &tzp);
# else
- gettimeofday (&tt);
+ gettimeofday(&now);
# endif
- return (tt.tv_sec * 1000) + (tt.tv_usec / 1000);
+
+ return (now.tv_sec + ((double) now.tv_usec * 0.000001));
}
static void
-random_lines (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+random_lines (eraser_state *st)
{
- int granularity = 50;
-
- Bool horiz_p = (random() & 1);
- int max = (horiz_p ? height : width);
- int *lines = (int *) calloc(max, sizeof(*lines));
- int oi = -1;
int i;
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
- for (i = 0; i < max; i++)
- lines[i] = i;
-
- for (i = 0; i < max; i++)
+ if (! st->lines) /* first time */
{
- int t, r;
- t = lines[i];
- r = random() % max;
- lines[i] = lines[r];
- lines[r] = t;
- }
+ st->horiz_p = (random() & 1);
+ st->nlines = (st->horiz_p ? st->height : st->width);
+ st->lines = (int *) calloc (st->nlines, sizeof(*st->lines));
- while (tick < end_tick)
- {
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
+ for (i = 0; i < st->nlines; i++) /* every line */
+ st->lines[i] = i;
- i /= granularity;
-
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
+ for (i = 0; i < st->nlines; i++) /* shuffle */
{
- int j;
- for (j = 0; j < granularity; j++)
- {
- int ii = i * granularity + j;
-
- if (ii >= horiz_p ? height : width) /* don't go off array */
- break;
-
- if (horiz_p)
- XDrawLine (dpy, window, gc, 0, lines[ii], width, lines[ii]);
- else
- XDrawLine (dpy, window, gc, lines[ii], 0, lines[ii], height);
- hits++;
- }
- XSync (dpy, False);
+ int t, r;
+ t = st->lines[i];
+ r = random() % st->nlines;
+ st->lines[i] = st->lines[r];
+ st->lines[r] = t;
}
+ }
- oi = i;
- tick = millitime();
+ for (i = st->nlines * st->prev_ratio;
+ i < st->nlines * st->ratio;
+ i++)
+ {
+ if (st->horiz_p)
+ XDrawLine (st->dpy, st->window, st->bg_gc,
+ 0, st->lines[i], st->width, st->lines[i]);
+ else
+ XDrawLine (st->dpy, st->window, st->bg_gc,
+ st->lines[i], 0, st->lines[i], st->height);
}
- free(lines);
+ if (st->ratio >= 1.0)
+ {
+ free (st->lines);
+ st->lines = 0;
+ }
}
static void
-venetian (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+venetian (eraser_state *st)
{
- Bool horiz_p = (random() & 1);
- Bool flip_p = (random() & 1);
- int max = (horiz_p ? height : width);
- int *lines = (int *) calloc(max, sizeof(*lines));
- int i, j;
- int oi = -1;
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = (start_tick +
- (1.5 * total_msecs)); /* this one needs more */
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
-
- j = 0;
- for (i = 0; i < max*2; i++)
- {
- int line = ((i / 16) * 16) - ((i % 16) * 15);
- if (line >= 0 && line < max)
- lines[j++] = (flip_p ? max - line : line);
- }
-
- while (tick < end_tick)
+ int i;
+ if (st->ratio == 0.0)
{
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
+ int j = 0;
+ st->horiz_p = (random() & 1);
+ st->flip_p = (random() & 1);
+ st->nlines = (st->horiz_p ? st->height : st->width);
+ st->lines = (int *) calloc (st->nlines, sizeof(*st->lines));
- if (i == oi)
+ for (i = 0; i < st->nlines * 2; i++)
{
- usleep (LITTLE_NAP);
- nonhits++;
+ int line = ((i / 16) * 16) - ((i % 16) * 15);
+ if (line >= 0 && line < st->nlines)
+ st->lines[j++] = (st->flip_p ? st->nlines - line : line);
}
+ }
+
+
+ for (i = st->nlines * st->prev_ratio;
+ i < st->nlines * st->ratio;
+ i++)
+ {
+ if (st->horiz_p)
+ XDrawLine (st->dpy, st->window, st->bg_gc,
+ 0, st->lines[i], st->width, st->lines[i]);
else
- {
- int k;
- for (k = oi; k <= i; k++)
- {
- if (horiz_p)
- XDrawLine(dpy,window, gc, 0, lines[k], width, lines[k]);
- else
- XDrawLine(dpy,window, gc, lines[k], 0, lines[k], height);
- hits++;
- }
- XSync (dpy, False);
- }
+ XDrawLine (st->dpy, st->window, st->bg_gc,
+ st->lines[i], 0, st->lines[i], st->height);
+ }
- oi = i;
- tick = millitime();
+ if (st->ratio >= 1.0)
+ {
+ free (st->lines);
+ st->lines = 0;
}
- free(lines);
}
static void
-triple_wipe (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+triple_wipe (eraser_state *st)
{
- Bool flip_x = random() & 1;
- Bool flip_y = random() & 1;
- int max = width + (height / 2);
- int *lines = (int *)calloc(max, sizeof(int));
int i;
- int oi = -1;
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
-
- for(i = 0; i < width/2; i++)
- lines[i] = i*2+height;
- for(i = 0; i < height/2; i++)
- lines[i+width/2] = i*2;
- for(i = 0; i < width/2; i++)
- lines[i+width/2+height/2] = width-i*2-(width%2?0:1)+height;
-
- while (tick < end_tick)
+ if (st->ratio == 0.0)
+ {
+ st->flip_x = random() & 1;
+ st->flip_y = random() & 1;
+ st->nlines = st->width + (st->height / 2);
+ st->lines = (int *) calloc (st->nlines, sizeof(*st->lines));
+
+ for (i = 0; i < st->width / 2; i++)
+ st->lines[i] = i * 2 + st->height;
+ for (i = 0; i < st->height / 2; i++)
+ st->lines[i + st->width / 2] = i*2;
+ for (i = 0; i < st->width / 2; i++)
+ st->lines[i + st->width / 2 + st->height / 2] =
+ st->width - i * 2 - (st->width % 2 ? 0 : 1) + st->height;
+ }
+
+ for (i = st->nlines * st->prev_ratio;
+ i < st->nlines * st->ratio;
+ i++)
{
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
int x, y, x2, y2;
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
+ if (st->lines[i] < st->height)
+ x = 0, y = st->lines[i], x2 = st->width, y2 = y;
else
- {
- int k;
- for (k = oi; k <= i; k++)
- {
- if (lines[k] < height)
- x = 0, y = lines[k], x2 = width, y2 = y;
- else
- x = lines[k]-height, y = 0, x2 = x, y2 = height;
-
- if (flip_x)
- x = width-x, x2 = width-x2;
- if (flip_y)
- y = height-y, y2 = height-y2;
-
- XDrawLine (dpy, window, gc, x, y, x2, y2);
- hits++;
- }
- XSync (dpy, False);
- }
+ x = st->lines[i]-st->height, y = 0, x2 = x, y2 = st->height;
+
+ if (st->flip_x)
+ x = st->width - x, x2 = st->width - x2;
+ if (st->flip_y)
+ y = st->height - y, y2 = st->height - y2;
- oi = i;
- tick = millitime();
+ XDrawLine (st->dpy, st->window, st->bg_gc, x, y, x2, y2);
+ }
+
+ if (st->ratio >= 1.0)
+ {
+ free (st->lines);
+ st->lines = 0;
}
- free(lines);
}
static void
-quad_wipe (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+quad_wipe (eraser_state *st)
{
- Bool flip_x = random() & 1;
- Bool flip_y = random() & 1;
- int max = width + height;
- int *lines = (int *)calloc(max, sizeof(int));
int i;
- int oi = -1;
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
-
- for (i = 0; i < max/4; i++)
+ if (st->ratio == 0.0)
{
- lines[i*4] = i*2;
- lines[i*4+1] = height-i*2-(height%2?0:1);
- lines[i*4+2] = height+i*2;
- lines[i*4+3] = height+width-i*2-(width%2?0:1);
- }
-
- while (tick < end_tick)
- {
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
+ st->flip_x = random() & 1;
+ st->flip_y = random() & 1;
+ st->nlines = st->width + st->height;
+ st->lines = (int *) calloc (st->nlines, sizeof(*st->lines));
- if (i == oi)
+ for (i = 0; i < st->nlines/4; i++)
{
- usleep (LITTLE_NAP);
- nonhits++;
+ st->lines[i*4] = i*2;
+ st->lines[i*4+1] = st->height - i*2 - (st->height % 2 ? 0 : 1);
+ st->lines[i*4+2] = st->height + i*2;
+ st->lines[i*4+3] = st->height + st->width - i*2
+ - (st->width % 2 ? 0 : 1);
}
+ }
+
+ for (i = st->nlines * st->prev_ratio;
+ i < st->nlines * st->ratio;
+ i++)
+ {
+ int x, y, x2, y2;
+ if (st->lines[i] < st->height)
+ x = 0, y = st->lines[i], x2 = st->width, y2 = y;
else
- {
- int k;
- for (k = oi; k <= i; k++)
- {
- int x, y, x2, y2;
- if (lines[k] < height)
- x = 0, y = lines[k], x2 = width, y2 = y;
- else
- x = lines[k]-height, y = 0, x2 = x, y2 = height;
-
- if (flip_x)
- x = width-x, x2 = width-x2;
- if (flip_y)
- y = height-y, y2 = height-y2;
-
- XDrawLine (dpy, window, gc, x, y, x2, y2);
- hits++;
- }
- XSync (dpy, False);
- }
+ x = st->lines[i] - st->height, y = 0, x2 = x, y2 = st->height;
- oi = i;
- tick = millitime();
+ if (st->flip_x)
+ x = st->width-x, x2 = st->width-x2;
+ if (st->flip_y)
+ y = st->height-y, y2 = st->height-y2;
+
+ XDrawLine (st->dpy, st->window, st->bg_gc, x, y, x2, y2);
}
- free(lines);
+ if (st->ratio >= 1.0)
+ {
+ free (st->lines);
+ st->lines = 0;
+ }
}
-
static void
-circle_wipe (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+circle_wipe (eraser_state *st)
{
+ int rad = (st->width > st->height ? st->width : st->height);
int max = 360 * 64;
- int start = random() % max;
- int rad = (width > height ? width : height);
- int flip_p = random() & 1;
- int oth;
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
-
- int hits = 0;
- int nonhits = 0;
+ int th, oth;
- oth = (flip_p ? max : 0);
- while (tick < end_tick)
+ if (st->ratio == 0.0)
{
- int th = (max * (tick - start_tick)) / (end_tick - start_tick);
- if (flip_p)
- th = (360 * 64) - th;
-
- if (th == oth)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
- {
- XFillArc(dpy, window, gc,
- (width/2)-rad, (height/2)-rad, rad*2, rad*2,
- (start+oth)%(360*64),
- (th-oth));
- hits++;
- XSync (dpy, False);
- }
+ st->flip_p = random() & 1;
+ st->start = random() % max;
+ }
- oth = th;
- tick = millitime();
+ th = max * st->ratio;
+ oth = max * st->prev_ratio;
+ if (st->flip_p)
+ {
+ th = max - th;
+ oth = max - oth;
}
+ XFillArc (st->dpy, st->window, st->bg_gc,
+ (st->width / 2) - rad,
+ (st->height / 2) - rad,
+ rad*2, rad*2,
+ (st->start + oth) % max,
+ th-oth);
}
static void
-three_circle_wipe (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+three_circle_wipe (eraser_state *st)
{
- int max = (360 * 64) / 6;
- int start = random() % max;
- int rad = (width > height ? width : height);
- int oth;
+ int rad = (st->width > st->height ? st->width : st->height);
+ int max = 360 * 64;
+ int th, oth;
+ int i;
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
+ if (st->ratio == 0.0)
+ st->start = random() % max;
- int hits = 0;
- int nonhits = 0;
+ th = max/6 * st->ratio;
+ oth = max/6 * st->prev_ratio;
- oth = 0;
- while (tick < end_tick)
+ for (i = 0; i < 3; i++)
{
- int th = (max * (tick - start_tick)) / (end_tick - start_tick);
+ int off = i * max / 3;
+ XFillArc (st->dpy, st->window, st->bg_gc,
+ (st->width / 2) - rad,
+ (st->height / 2) - rad,
+ rad*2, rad*2,
+ (st->start + off + oth) % max,
+ th-oth);
+ XFillArc (st->dpy, st->window, st->bg_gc,
+ (st->width / 2) - rad,
+ (st->height / 2) - rad,
+ rad*2, rad*2,
+ (st->start + off - oth) % max,
+ oth-th);
+ }
+}
- if (th == oth)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
- {
- int off = 0;
- XFillArc(dpy, window, gc,
- (width/2)-rad, (height/2)-rad, rad*2, rad*2,
- (start+off+oth)%(360*64),
- (th-oth));
- XFillArc(dpy, window, gc,
- (width/2)-rad, (height/2)-rad, rad*2, rad*2,
- ((start+off-oth))%(360*64),
- -(th-oth));
-
- off += max + max;
- XFillArc(dpy, window, gc,
- (width/2)-rad, (height/2)-rad, rad*2, rad*2,
- (start+off+oth)%(360*64),
- (th-oth));
- XFillArc(dpy, window, gc,
- (width/2)-rad, (height/2)-rad, rad*2, rad*2,
- ((start+off-oth))%(360*64),
- -(th-oth));
-
- off += max + max;
- XFillArc(dpy, window, gc,
- (width/2)-rad, (height/2)-rad, rad*2, rad*2,
- (start+off+oth)%(360*64),
- (th-oth));
- XFillArc(dpy, window, gc,
- (width/2)-rad, (height/2)-rad, rad*2, rad*2,
- ((start+off-oth))%(360*64),
- -(th-oth));
-
- hits++;
- XSync (dpy, False);
- }
- oth = th;
- tick = millitime();
- }
+static void
+squaretate (eraser_state *st)
+{
+ int max = ((st->width > st->height ? st->width : st->height) * 2);
+ XPoint points [3];
+ int i = max * st->ratio;
+
+ if (st->ratio == 0.0)
+ st->flip_p = random() & 1;
+
+# define DRAW() \
+ if (st->flip_p) { \
+ points[0].x = st->width - points[0].x; \
+ points[1].x = st->width - points[1].x; \
+ points[2].x = st->width - points[2].x; \
+ } \
+ XFillPolygon (st->dpy, st->window, st->bg_gc, \
+ points, 3, Convex, CoordModeOrigin)
+
+ points[0].x = 0;
+ points[0].y = 0;
+ points[1].x = st->width;
+ points[1].y = 0;
+ points[2].x = 0;
+ points[2].y = points[0].y + ((i * st->height) / max);
+ DRAW();
+
+ points[0].x = 0;
+ points[0].y = 0;
+ points[1].x = 0;
+ points[1].y = st->height;
+ points[2].x = ((i * st->width) / max);
+ points[2].y = st->height;
+ DRAW();
+
+ points[0].x = st->width;
+ points[0].y = st->height;
+ points[1].x = 0;
+ points[1].y = st->height;
+ points[2].x = st->width;
+ points[2].y = st->height - ((i * st->height) / max);
+ DRAW();
+
+ points[0].x = st->width;
+ points[0].y = st->height;
+ points[1].x = st->width;
+ points[1].y = 0;
+ points[2].x = st->width - ((i * st->width) / max);
+ points[2].y = 0;
+ DRAW();
+# undef DRAW
}
static void
-squaretate (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+fizzle (eraser_state *st)
{
- int max = ((width > height ? width : width) * 2);
- int oi = -1;
- Bool flip = random() & 1;
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
-
-#define DRAW() \
- if (flip) { \
- points[0].x = width-points[0].x; \
- points[1].x = width-points[1].x; \
- points[2].x = width-points[2].x; } \
- XFillPolygon (dpy, window, gc, points, 3, Convex, CoordModeOrigin)
-
- while (tick < end_tick)
- {
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
+ XPoint *points;
+ int chunk = 20000;
+ int npoints = st->width * st->height * 4;
+ npoints *= (st->ratio - st->prev_ratio);
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
+ points = (XPoint *) malloc (chunk * sizeof(*points));
+ if (! points) return;
+
+ while (npoints > 0)
+ {
+ int remain = (chunk > npoints ? npoints : chunk);
+ int i;
+ for (i = 0; i < remain; i++)
{
- XPoint points [3];
- points[0].x = 0;
- points[0].y = 0;
- points[1].x = width;
- points[1].y = 0;
- points[2].x = 0;
- points[2].y = points[0].y + ((i * height) / max);
- DRAW();
-
- points[0].x = 0;
- points[0].y = 0;
- points[1].x = 0;
- points[1].y = height;
- points[2].x = ((i * width) / max);
- points[2].y = height;
- DRAW();
-
- points[0].x = width;
- points[0].y = height;
- points[1].x = 0;
- points[1].y = height;
- points[2].x = width;
- points[2].y = height - ((i * height) / max);
- DRAW();
-
- points[0].x = width;
- points[0].y = height;
- points[1].x = width;
- points[1].y = 0;
- points[2].x = width - ((i * width) / max);
- points[2].y = 0;
- DRAW();
- hits++;
- XSync (dpy, True);
+ int r = random();
+ points[i].x = r % st->width;
+ points[i].y = (r >> 16) % st->height;
}
-
- oi = i;
- tick = millitime();
+ XDrawPoints (st->dpy, st->window, st->bg_gc,
+ points, remain, CoordModeOrigin);
+ npoints -= remain;
}
-#undef DRAW
+ free (points);
}
-/* from Frederick Roeber <roeber@netscape.com> */
static void
-fizzle (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+spiral (eraser_state *st)
{
- /* These dimensions must be prime numbers. They should be roughly the
- square root of the width and height. */
-# define BX 41
-# define BY 31
-# define SIZE (BX*BY)
-
- int array[SIZE];
- int i, j;
- int oi = -1;
- XPoint *skews;
- XPoint points[250];
- int npoints = 0;
- int nx, ny;
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = (start_tick +
- (2.5 * total_msecs)); /* this one needs more */
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
-
- /* Distribute the numbers [0,SIZE) randomly in the array */
- {
- int indices[SIZE];
-
- for( i = 0; i < SIZE; i++ ) {
- array[i] = -1;
- indices[i] = i;
- }
-
- for( i = 0; i < SIZE; i++ ) {
- j = random()%(SIZE-i);
- array[indices[j]] = i;
- indices[j] = indices[SIZE-i-1];
- }
- }
-
- /* nx, ny are the number of cells across and down, rounded up */
- nx = width / BX + (0 == (width %BX) ? 0 : 1);
- ny = height / BY + (0 == (height%BY) ? 0 : 1);
- skews = (XPoint *)malloc(sizeof(XPoint) * (nx*ny));
- if( (XPoint *)0 != skews ) {
- for( i = 0; i < nx; i++ ) {
- for( j = 0; j < ny; j++ ) {
- skews[j * nx + i].x = random()%BX;
- skews[j * nx + i].y = random()%BY;
- }
+ int max_radius = (st->width > st->height ? st->width : st->height) * 0.7;
+ int loops = 10;
+ float max_th = M_PI * 2 * loops;
+ int i;
+ int steps = 360 * loops / 4;
+ float off;
+
+ if (st->ratio == 0.0)
+ {
+ st->flip_p = random() & 1;
+ st->start = random() % 360;
}
- }
-# define SKEWX(cx, cy) (((XPoint *)0 == skews)?0:skews[cy*nx + cx].x)
-# define SKEWY(cx, cy) (((XPoint *)0 == skews)?0:skews[cy*nx + cx].y)
+ off = st->start * M_PI / 180;
- while (tick < end_tick)
+ for (i = steps * st->prev_ratio;
+ i < steps * st->ratio;
+ i++)
{
- int i = (SIZE * (tick - start_tick)) / (end_tick - start_tick);
+ float th1 = i * max_th / steps;
+ float th2 = (i+1) * max_th / steps;
+ int r1 = i * max_radius / steps;
+ int r2 = (i+1) * max_radius / steps;
+ XPoint points[3];
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
+ if (st->flip_p)
{
- int j;
- for (j = oi; j < i; j++)
- {
- int x = array[j] % BX;
- int y = array[j] / BX;
- int iy, cy;
- for (iy = 0, cy = 0; iy < height; iy += BY, cy++)
- {
- int ix, cx;
- for( ix = 0, cx = 0; ix < width; ix += BX, cx++ ) {
- int xx = ix + (SKEWX(cx, cy) + x*((cx%(BX-1))+1))%BX;
- int yy = iy + (SKEWY(cx, cy) + y*((cy%(BY-1))+1))%BY;
- if (xx < width && yy < height)
- {
- points[npoints].x = xx;
- points[npoints].y = yy;
- if (++npoints == countof(points))
- {
- XDrawPoints(dpy, window, gc, points, npoints,
- CoordModeOrigin);
- XSync (dpy, False);
- npoints = 0;
- }
- }
- }
- }
- }
- hits++;
+ th1 = max_th - th1;
+ th2 = max_th - th2;
}
- oi = i;
- tick = millitime();
- }
-
- if (npoints > 100)
- {
- XDrawPoints(dpy, window, gc, points, npoints, CoordModeOrigin);
- XSync (dpy, False);
- usleep (10000);
+ points[0].x = st->width / 2;
+ points[0].y = st->height / 2;
+ points[1].x = points[0].x + r1 * cos (off + th1);
+ points[1].y = points[0].y + r1 * sin (off + th1);
+ points[2].x = points[0].x + r2 * cos (off + th2);
+ points[2].y = points[0].y + r2 * sin (off + th2);
+/* XFillRectangle(st->dpy, st->window, st->fg_gc,0,0,st->width, st->height);*/
+ XFillPolygon (st->dpy, st->window, st->bg_gc,
+ points, 3, Convex, CoordModeOrigin);
}
-
-# undef SKEWX
-# undef SKEWY
-# undef BX
-# undef BY
-# undef SIZE
-
- if (skews) free(skews);
}
-/* from Rick Campbell <rick@campbellcentral.org> */
static void
-spiral (Display *dpy, Window window, GC context,
- int width, int height, int total_msecs)
+random_squares (eraser_state *st)
{
- int granularity = 1; /* #### */
-
- double pi2 = (M_PI + M_PI);
- int loop_count = 10;
- int angle_step = 1000 / 8; /* disc granularity is 8 degrees */
- int max = pi2 * angle_step;
- double angle;
- int arc_limit;
- int arc_max_limit;
- int length_step;
- XPoint points [3];
+ int i, size, rows;
- total_msecs *= 2.5; /* this one needs more */
-
- angle = 0.0;
- arc_limit = 1;
- arc_max_limit = (ceil (sqrt ((width * width) + (height * height))) / 2.0);
- length_step = ((arc_max_limit + loop_count - 1) / loop_count);
- arc_max_limit += length_step;
- points [0].x = width / 2;
- points [0].y = height / 2;
- points [1].x = points [0].x + length_step;
- points [1].y = points [0].y;
- points [2].x = points [1].x;
- points [2].y = points [1].y;
-
- for (arc_limit = length_step;
- arc_limit < arc_max_limit;
- arc_limit += length_step)
+ if (st->ratio == 0.0)
{
- int arc_length = length_step;
- int length_base = arc_limit;
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + (total_msecs /
- (arc_max_limit / length_step));
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
- int i = 0;
- int oi = -1;
-
-#if 0
- int max2 = max / granularity;
- while (i < max2)
-#else
- while (tick < end_tick)
-#endif
+ st->cols = 10 + random() % 30;
+ size = st->width / st->cols;
+ rows = (st->height / size) + 1;
+ st->nlines = st->cols * rows;
+ st->lines = (int *) calloc (st->nlines, sizeof(*st->lines));
+
+ for (i = 0; i < st->nlines; i++) /* every square */
+ st->lines[i] = i;
+
+ for (i = 0; i < st->nlines; i++) /* shuffle */
{
- i = (max * (tick - start_tick)) / (end_tick - start_tick);
- if (i > max) i = max;
-
- i /= granularity;
-
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
- {
- int j, k;
-#if 0
- for (k = oi; k <= i; k++)
-#else
- k = i;
-#endif
- {
- for (j = 0; j < granularity; j++)
- {
- int ii = k * granularity + j;
- angle = ii / (double) angle_step;
- arc_length = length_base + ((length_step * angle) / pi2);
- points [1].x = points [2].x;
- points [1].y = points [2].y;
- points [2].x = points [0].x +
- (int)(cos(angle) * arc_length);
- points [2].y = points [0].y +
- (int)(sin(angle) * arc_length);
- XFillPolygon (dpy, window, context, points, 3, Convex,
- CoordModeOrigin);
- hits++;
- }
- }
- XSync (dpy, False);
- }
-
- oi = i;
- tick = millitime();
+ int t, r;
+ t = st->lines[i];
+ r = random() % st->nlines;
+ st->lines[i] = st->lines[r];
+ st->lines[r] = t;
}
}
-}
-
-#undef MAX
-#undef MIN
-#define MAX(a,b) ((a)>(b)?(a):(b))
-#define MIN(a,b) ((a)<(b)?(a):(b))
-
-/* from David Bagley <bagleyd@tux.org> */
-static void
-random_squares(Display * dpy, Window window, GC gc,
- int width, int height, int total_msecs)
-{
- int granularity = 20;
+ size = st->width / st->cols;
+ rows = (st->height / size) + 1;
- int randsize = MAX(1, MIN(width, height) / (16 + (random() % 32)));
- int max = (height / randsize + 1) * (width / randsize + 1);
- int *squares = (int *) calloc(max, sizeof (*squares));
- int i;
- int columns = width / randsize + 1; /* Add an extra for roundoff */
-
- int oi = -1;
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
-
- for (i = 0; i < max; i++)
- squares[i] = i;
-
- for (i = 0; i < max; i++)
+ for (i = st->nlines * st->prev_ratio;
+ i < st->nlines * st->ratio;
+ i++)
{
- int t, r;
- t = squares[i];
- r = random() % max;
- squares[i] = squares[r];
- squares[r] = t;
+ int x = st->lines[i] % st->cols;
+ int y = st->lines[i] / st->cols;
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ st->width * x / st->cols,
+ st->height * y / rows,
+ size+1, size+1);
}
- while (tick < end_tick)
+ if (st->ratio >= 1.0)
{
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
-
- i /= granularity;
-
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
- {
- int j;
- for (j = 0; j < granularity; j++)
- {
- int ii = i * granularity + j;
-
- XFillRectangle(dpy, window, gc,
- (squares[ii] % columns) * randsize,
- (squares[ii] / columns) * randsize,
- randsize, randsize);
- hits++;
- }
- }
- XSync (dpy, False);
-
- oi = i;
- tick = millitime();
+ free (st->lines);
+ st->lines = 0;
}
- free(squares);
}
+
/* I first saw something like this, albeit in reverse, in an early Tetris
implementation for the Mac.
-- Torbjörn Andersson <torbjorn@dev.eurotime.se>
*/
static void
-slide_lines (Display *dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+slide_lines (eraser_state *st)
{
- int max = width;
- int dy = MAX (10, height/40);
+ int max = st->width * 1.1;
+ int nlines = 40;
+ int h = st->height / nlines;
+ int y, step;
+ int tick = 0;
- int oi = 0;
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + total_msecs;
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
+ if (h < 10)
+ h = 10;
- while (tick < end_tick)
- {
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
+ step = (max * st->ratio) - (max * st->prev_ratio);
+ if (step <= 0)
+ step = 1;
- if (i == oi)
+ for (y = 0; y < st->height; y += h)
+ {
+ if (tick & 1)
{
- usleep (LITTLE_NAP);
- nonhits++;
+ XCopyArea (st->dpy, st->window, st->window, st->fg_gc,
+ 0, y, st->width-step, h, step, y);
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ 0, y, step, h);
}
else
{
- int y;
- int tick = 0;
- int from1 = oi;
- int to1 = i;
- int w = width-to1;
- int from2 = width - oi - w;
- int to2 = width - i - w;
-
- for (y = 0; y < height; y += dy)
- {
- if (++tick & 1)
- {
- XCopyArea (dpy, window, window, gc, from1, y, w, dy, to1, y);
- XFillRectangle (dpy, window, gc, from1, y, to1-from1, dy);
- }
- else
- {
- XCopyArea (dpy, window, window, gc, from2, y, w, dy, to2, y);
- XFillRectangle (dpy, window, gc, from2+w, y, to2-from2, dy);
- }
- }
-
- hits++;
- XSync (dpy, False);
+ XCopyArea (st->dpy, st->window, st->window, st->fg_gc,
+ step, y, st->width-step, h, 0, y);
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ st->width-step, y, step, h);
}
- oi = i;
- tick = millitime();
+ tick++;
}
}
/* from Frederick Roeber <roeber@xigo.com> */
static void
-losira (Display * dpy, Window window, GC gc,
- int width, int height, int total_msecs)
+losira (eraser_state *st)
{
- XGCValues gcv;
- XWindowAttributes wa;
- XColor white;
- GC white_gc;
- XArc arc[2][8];
- double xx[8], yy[8], dx[8], dy[8];
+ double mode1 = 0.55;
+ double mode2 = mode1 + 0.30;
+ double mode3 = 1.0;
+ int radius = 10;
- int i;
- int oi = 0;
-
- int max = width/2;
- int max_off = MAX(1, max / 12);
-
- int msecs1 = (0.55 * total_msecs);
- int msecs2 = (0.30 * total_msecs);
- int msecs3 = (0.15 * total_msecs);
-
- unsigned long start_tick = millitime();
- unsigned long end_tick = start_tick + msecs1;
- unsigned long tick = start_tick;
- int hits = 0;
- int nonhits = 0;
-
- XGetWindowAttributes(dpy, window, &wa);
- white.flags = DoRed|DoGreen|DoBlue;
- white.red = white.green = white.blue = 65535;
- XAllocColor(dpy, wa.colormap, &white);
- gcv.foreground = white.pixel;
- white_gc = XCreateGC(dpy, window, GCForeground, &gcv);
-
- /* Squeeze in from the sides */
- while (tick < end_tick)
+ if (st->ratio < mode1) /* squeeze from the sides */
{
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
-
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
- {
- int off = (max_off * (tick - start_tick)) / (end_tick - start_tick);
-
- int from1 = oi;
- int to1 = i;
- int w = max - to1 - off/2 + 1;
- int from2 = max+(to1-from1)+off/2;
- int to2 = max+off/2;
-
- if (w < 0)
- break;
-
- XCopyArea (dpy, window, window, gc, from1, 0, w, height, to1, 0);
- XCopyArea (dpy, window, window, gc, from2, 0, w, height, to2, 0);
- XFillRectangle (dpy, window, gc, from1, 0, (to1-from1), height);
- XFillRectangle (dpy, window, gc, to2+w, 0, from2+w, height);
- XFillRectangle (dpy, window, white_gc, max-off/2, 0, off, height);
- hits++;
- XSync(dpy, False);
- }
-
- oi = i;
- tick = millitime();
+ double ratio = st->ratio / mode1;
+ double prev_ratio = st->prev_ratio / mode1;
+ int max = st->width / 2;
+ int step = (max * ratio) - (max * prev_ratio);
+
+ if (step <= 0)
+ step = 1;
+
+ /* pull from left */
+ XCopyArea (st->dpy, st->window, st->window, st->fg_gc,
+ 0, 0, max - step, st->height, step, 0);
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ 0, 0, max * ratio, st->height);
+
+ /* pull from right */
+ XCopyArea (st->dpy, st->window, st->window, st->fg_gc,
+ max+step, 0, max - step, st->height, max, 0);
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ max + max*(1-ratio), 0, max, st->height);
+
+ /* expand white from center */
+ XFillRectangle (st->dpy, st->window, st->fg_gc,
+ max - (radius * ratio), 0,
+ radius * ratio * 2, st->height);
}
-
-
- XFillRectangle(dpy, window, white_gc, max-max_off/2, 0, max_off, height);
-
- /* Cap the top and bottom of the line */
- XFillRectangle(dpy, window, gc, max-max_off/2, 0, max_off, max_off/2);
- XFillRectangle(dpy, window, gc, max-max_off/2, height-max_off/2,
- max_off, max_off/2);
- XFillArc(dpy, window, white_gc, max-max_off/2-1, 0,
- max_off-1, max_off-1, 0, 180*64);
- XFillArc(dpy, window, white_gc, max-max_off/2-1, height-max_off,
- max_off-1, max_off-1,
- 180*64, 360*64);
-
- XFillRectangle(dpy, window, gc, 0, 0, max-max_off/2, height);
- XFillRectangle(dpy, window, gc, max+max_off/2-1, 0, max-max_off/2, height);
- XSync(dpy, False);
-
- /* Collapse vertically */
- start_tick = millitime();
- end_tick = start_tick + msecs2;
- tick = start_tick;
-
- max = height/2;
- oi = 0;
- while (tick < end_tick)
+ else if (st->ratio < mode2) /* squeeze from the top/bottom */
{
- int i = (max * (tick - start_tick)) / (end_tick - start_tick);
- int x = (width-max_off)/2;
- int w = max_off;
-
- if (i == oi)
- {
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
- {
- int off = (max_off * (tick - start_tick)) / (end_tick - start_tick);
-
- int from1 = oi;
- int to1 = i;
- int h = max - to1 - off/2;
- int from2 = max+(to1-from1)+off/2;
- int to2 = max+off/2;
-
- if (h < max_off/2)
- break;
-
- XCopyArea (dpy, window, window, gc, x, from1, w, h, x, to1);
- XCopyArea (dpy, window, window, gc, x, from2, w, h, x, to2);
- XFillRectangle(dpy, window, gc, x, from1, w, (to1 - from1));
- XFillRectangle(dpy, window, gc, x, to2+h, w, (to2 - from2));
- hits++;
- XSync(dpy, False);
- }
-
- oi = i;
- tick = millitime();
+ double ratio = (st->ratio - mode1) / (mode2 - mode1);
+ double prev_ratio = (st->prev_ratio - mode1) / (mode2 - mode1);
+ int max = st->height / 2;
+ int step = (max * ratio) - (max * prev_ratio);
+
+ if (step <= 0)
+ step = 1;
+
+ /* fill middle */
+ XFillRectangle (st->dpy, st->window, st->fg_gc,
+ st->width/2 - radius,
+ max * ratio,
+ radius*2, st->height * (1 - ratio));
+
+ /* fill left and right */
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ 0, 0, st->width/2 - radius, st->height);
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ st->width/2 + radius, 0, st->width/2, st->height);
+
+ /* fill top and bottom */
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ 0, 0, st->width, max * ratio);
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ 0, st->height - (max * ratio),
+ st->width, max);
+
+ /* cap top */
+ XFillArc (st->dpy, st->window, st->fg_gc,
+ st->width/2 - radius,
+ max * ratio - radius,
+ radius*2, radius*2,
+ 0, 180*64);
+
+ /* cap bottom */
+ XFillArc (st->dpy, st->window, st->fg_gc,
+ st->width/2 - radius,
+ st->height - (max * ratio + radius),
+ radius*2, radius*2,
+ 180*64, 180*64);
}
-
- /* "This is Sci-Fi" */
- for( i = 0; i < 8; i++ ) {
- arc[0][i].width = arc[0][i].height = max_off;
- arc[1][i].width = arc[1][i].height = max_off;
- arc[0][i].x = arc[1][i].x = width/2;
- arc[0][i].y = arc[1][i].y = height/2;
- xx[i] = (double)(width/2) - max_off/2;
- yy[i] = (double)(height/2) - max_off/2;
- }
-
- arc[0][0].angle1 = arc[1][0].angle1 = 0*64; arc[0][0].angle2 = arc[1][0].angle2 = 45*64;
- arc[0][1].angle1 = arc[1][1].angle1 = 45*64; arc[0][1].angle2 = arc[1][1].angle2 = 45*64;
- arc[0][2].angle1 = arc[1][2].angle1 = 90*64; arc[0][2].angle2 = arc[1][2].angle2 = 45*64;
- arc[0][3].angle1 = arc[1][3].angle1 = 135*64; arc[0][3].angle2 = arc[1][3].angle2 = 45*64;
- arc[0][4].angle1 = arc[1][4].angle1 = 180*64; arc[0][4].angle2 = arc[1][4].angle2 = 45*64;
- arc[0][5].angle1 = arc[1][5].angle1 = 225*64; arc[0][5].angle2 = arc[1][5].angle2 = 45*64;
- arc[0][6].angle1 = arc[1][6].angle1 = 270*64; arc[0][6].angle2 = arc[1][6].angle2 = 45*64;
- arc[0][7].angle1 = arc[1][7].angle1 = 315*64; arc[0][7].angle2 = arc[1][7].angle2 = 45*64;
-
- for( i = 0; i < 8; i++ ) {
- dx[i] = cos((i*45 + 22.5)/360 * 2*M_PI);
- dy[i] = -sin((i*45 + 22.5)/360 * 2*M_PI);
- }
-
- gcv.line_width = 3;
- XChangeGC(dpy, gc, GCLineWidth, &gcv);
-
- XClearWindow (dpy, window);
- XFillArc(dpy, window, white_gc,
- width/2-max_off/2-1, height/2-max_off/2-1,
- max_off-1, max_off-1,
- 0, 360*64);
- XDrawLine(dpy, window, gc, 0, height/2-1, width, height/2-1);
- XDrawLine(dpy, window, gc, width/2-1, 0, width/2-1, height);
- XDrawLine(dpy, window, gc, width/2-1-max_off, height/2-1-max_off,
- width/2+max_off, height/2+max_off);
- XDrawLine(dpy, window, gc, width/2+max_off, height/2-1-max_off,
- width/2-1-max_off, height/2+max_off);
-
- XSync(dpy, False);
-
-
- /* Fan out */
- start_tick = millitime();
- end_tick = start_tick + msecs3;
- tick = start_tick;
- oi = 0;
- while (tick < end_tick)
+ else /* starburst */
{
- int i = (max_off * (tick - start_tick)) / (end_tick - start_tick);
+ double ratio = (st->ratio - mode2) / (mode3 - mode2);
+ double r2 = ratio * radius * 4;
+ XArc arc[9];
+ int i;
+ int angle = 360*64/countof(arc);
- if (i == oi)
+ for (i = 0; i < countof(arc); i++)
{
- usleep (LITTLE_NAP);
- nonhits++;
- }
- else
- {
- int j;
- for (j = 0; j < 8; j++)
- {
- xx[j] += 2*dx[j];
- yy[j] += 2*dy[j];
- arc[(i+1)%2][j].x = xx[j];
- arc[(i+1)%2][j].y = yy[j];
- }
-
- XFillRectangle (dpy, window, gc,
- (width-max_off*5)/2, (height-max_off*5)/2,
- max_off*5, max_off*5);
- XFillArcs(dpy, window, white_gc, arc[(i+1)%2], 8);
- XSync(dpy, False);
- hits++;
+ double th;
+ arc[i].angle1 = angle * i;
+ arc[i].angle2 = angle;
+ arc[i].width = radius*2 * (1 + ratio);
+ arc[i].height = radius*2 * (1 + ratio);
+ arc[i].x = st->width / 2 - radius;
+ arc[i].y = st->height / 2 - radius;
+
+ th = ((arc[i].angle1 + (arc[i].angle2 / 2)) / 64.0 / 180 * M_PI);
+
+ arc[i].x += r2 * cos (th);
+ arc[i].y -= r2 * sin (th);
}
- oi = i;
- tick = millitime();
+ XFillRectangle (st->dpy, st->window, st->bg_gc,
+ 0, 0, st->width, st->height);
+ XFillArcs (st->dpy, st->window, st->fg_gc, arc, countof(arc));
}
-
- XSync (dpy, False);
-
- /*XFreeColors(dpy, wa.colormap, &white.pixel, 1, 0);*/
- XFreeGC(dpy, white_gc);
}
-
static Eraser erasers[] = {
random_lines,
venetian,
};
-static void
-erase_window (Display *dpy, Window window, GC gc,
- int width, int height, int mode, int total_msecs)
+static eraser_state *
+eraser_init (Display *dpy, Window window)
{
- Bool verbose_p = False;
- unsigned long start = millitime();
+ eraser_state *st = (eraser_state *) calloc (1, sizeof(*st));
+ XWindowAttributes xgwa;
+ XGCValues gcv;
+ unsigned long fg, bg;
+ double duration;
+ int which;
+ char *s;
- if (mode < 0 || mode >= countof(erasers))
- mode = random() % countof(erasers);
+ st->dpy = dpy;
+ st->window = window;
- (*(erasers[mode])) (dpy, window, gc, width, height, total_msecs);
+ XGetWindowAttributes (dpy, window, &xgwa);
+ st->width = xgwa.width;
+ st->height = xgwa.height;
+
+ bg = get_pixel_resource (dpy, xgwa.colormap, "background", "Background");
+ fg = get_pixel_resource (dpy, xgwa.colormap, "foreground", "Foreground");
+
+ gcv.foreground = fg;
+ gcv.background = bg;
+ st->fg_gc = XCreateGC (dpy, window, GCForeground|GCBackground, &gcv);
+ gcv.foreground = bg;
+ gcv.background = fg;
+ st->bg_gc = XCreateGC (dpy, window, GCForeground|GCBackground, &gcv);
+
+# ifdef HAVE_COCOA
+ /* Pretty much all of these leave turds if AA is on. */
+ jwxyz_XSetAntiAliasing (st->dpy, st->fg_gc, False);
+ jwxyz_XSetAntiAliasing (st->dpy, st->bg_gc, False);
+# endif
+
+ s = get_string_resource (dpy, "eraseMode", "Integer");
+ if (!s || !*s)
+ which = -1;
+ else
+ which = get_integer_resource(dpy, "eraseMode", "Integer");
+
+ if (which < 0 || which >= countof(erasers))
+ which = random() % countof(erasers);
+ st->fn = erasers[which];
+
+ duration = get_float_resource (dpy, "eraseSeconds", "Float");
+ if (duration < 0.1 || duration > 10)
+ duration = 1;
+
+ st->start_time = double_time();
+ st->stop_time = st->start_time + duration;
- if (verbose_p)
- fprintf(stderr, "%s: eraser %d time: %4.2f sec\n",
- progname, mode, (millitime() - start) / 1000.0);
+ XSync (st->dpy, False);
- XClearWindow (dpy, window);
- XSync(dpy, False);
- usleep (333333); /* 1/3 sec */
+ return st;
}
-void
-erase_full_window(Display *dpy, Window window)
+static Bool
+eraser_draw (eraser_state *st, Bool first_p)
{
- XWindowAttributes xgwa;
- XGCValues gcv;
- GC erase_gc;
- XColor black;
- int erase_msecs, erase_mode;
- char *s;
+ double now = (first_p ? st->start_time : double_time());
+ double duration = st->stop_time - st->start_time;
- s = get_string_resource("eraseSeconds", "Integer");
- if (s && *s)
- erase_msecs = 1000 * get_float_resource("eraseSeconds", "Float");
- else
- erase_msecs = 1000;
+ st->prev_ratio = st->ratio;
+ st->ratio = (now - st->start_time) / duration;
- if (erase_msecs < 10 || erase_msecs > 10000)
- erase_msecs = 1000;
+ if (st->ratio > 1.0)
+ st->ratio = 1.0;
- if (s) free(s);
+ st->fn (st);
+ XSync (st->dpy, False);
- s = get_string_resource("eraseMode", "Integer");
- if (s && *s)
- erase_mode = get_integer_resource("eraseMode", "Integer");
- else
- erase_mode = -1;
- if (s) free(s);
+ return (st->ratio < 1.0);
+}
- XGetWindowAttributes (dpy, window, &xgwa);
- black.flags = DoRed|DoGreen|DoBlue;
- black.red = black.green = black.blue = 0;
- XAllocColor(dpy, xgwa.colormap, &black);
- gcv.foreground = black.pixel;
- erase_gc = XCreateGC (dpy, window, GCForeground, &gcv);
- erase_window (dpy, window, erase_gc, xgwa.width, xgwa.height,
- erase_mode, erase_msecs);
- XFreeColors(dpy, xgwa.colormap, &black.pixel, 1, 0);
- XFreeGC(dpy, erase_gc);
+static void
+eraser_free (eraser_state *st)
+{
+ XClearWindow (st->dpy, st->window);
+ XFreeGC (st->dpy, st->fg_gc);
+ XFreeGC (st->dpy, st->bg_gc);
+ free (st);
+}
+
+eraser_state *
+erase_window (Display *dpy, Window window, eraser_state *st)
+{
+ Bool first_p = False;
+ if (! st)
+ {
+ first_p = True;
+ st = eraser_init (dpy, window);
+ }
+ if (! eraser_draw (st, first_p))
+ {
+ eraser_free (st);
+ st = 0;
+ }
+ return st;
}