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Diffstat (limited to 'utils/erase.c')
| -rw-r--r-- | utils/erase.c | 811 |
1 files changed, 811 insertions, 0 deletions
diff --git a/utils/erase.c b/utils/erase.c new file mode 100644 index 0000000..ae15ac8 --- /dev/null +++ b/utils/erase.c @@ -0,0 +1,811 @@ +/* erase.c: Erase the screen in various more or less interesting ways. + * Copyright (c) 1997-2008 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 + * the above copyright notice appear in all copies and that both that + * copyright notice and this permission notice appear in supporting + * documentation. No representations are made about the suitability of this + * software for any purpose. It is provided "as is" without express or + * implied warranty. + * + * Portions (c) 1997 by Johannes Keukelaar <johannes@nada.kth.se>: + * Permission to use in any way granted. Provided "as is" without expressed + * or implied warranty. NO WARRANTY, NO EXPRESSION OF SUITABILITY FOR ANY + * PURPOSE. (I.e.: Use in any way, but at your own risk!) + */ + +#include "utils.h" +#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))) + +typedef void (*Eraser) (eraser_state *); + +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; + + /* 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; + + /* data for fizzle */ + unsigned short *fizzle_rnd; + +}; + + +static double +double_time (void) +{ + struct timeval now; +# ifdef GETTIMEOFDAY_TWO_ARGS + struct timezone tzp; + gettimeofday(&now, &tzp); +# else + gettimeofday(&now); +# endif + + return (now.tv_sec + ((double) now.tv_usec * 0.000001)); +} + + +static void +random_lines (eraser_state *st) +{ + int i; + + if (! st->lines) /* first time */ + { + st->horiz_p = (random() & 1); + st->nlines = (st->horiz_p ? st->height : st->width); + st->lines = (int *) calloc (st->nlines, sizeof(*st->lines)); + + for (i = 0; i < st->nlines; i++) /* every line */ + st->lines[i] = i; + + for (i = 0; i < st->nlines; i++) /* shuffle */ + { + int t, r; + t = st->lines[i]; + r = random() % st->nlines; + st->lines[i] = st->lines[r]; + st->lines[r] = t; + } + } + + 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); + } + + if (st->ratio >= 1.0) + { + free (st->lines); + st->lines = 0; + } +} + + +static void +venetian (eraser_state *st) +{ + int i; + if (st->ratio == 0.0) + { + 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)); + + for (i = 0; i < st->nlines * 2; i++) + { + 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 + XDrawLine (st->dpy, st->window, st->bg_gc, + st->lines[i], 0, st->lines[i], st->height); + } + + if (st->ratio >= 1.0) + { + free (st->lines); + st->lines = 0; + } +} + + +static void +triple_wipe (eraser_state *st) +{ + int i; + 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 x, y, x2, y2; + + if (st->lines[i] < st->height) + x = 0, y = st->lines[i], x2 = st->width, y2 = y; + else + 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; + + XDrawLine (st->dpy, st->window, st->bg_gc, x, y, x2, y2); + } + + if (st->ratio >= 1.0) + { + free (st->lines); + st->lines = 0; + } +} + + +static void +quad_wipe (eraser_state *st) +{ + int i; + if (st->ratio == 0.0) + { + 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)); + + for (i = 0; i < st->nlines/4; i++) + { + 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 + 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; + + XDrawLine (st->dpy, st->window, st->bg_gc, x, y, x2, y2); + } + + if (st->ratio >= 1.0) + { + free (st->lines); + st->lines = 0; + } +} + + +static void +circle_wipe (eraser_state *st) +{ + int rad = (st->width > st->height ? st->width : st->height); + int max = 360 * 64; + int th, oth; + + if (st->ratio == 0.0) + { + st->flip_p = random() & 1; + st->start = random() % max; + } + + 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 (eraser_state *st) +{ + int rad = (st->width > st->height ? st->width : st->height); + int max = 360 * 64; + int th, oth; + int i; + + if (st->ratio == 0.0) + st->start = random() % max; + + th = max/6 * st->ratio; + oth = max/6 * st->prev_ratio; + + for (i = 0; i < 3; i++) + { + 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); + } +} + + +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 +fizzle (eraser_state *st) +{ + const double overshoot = 1.0625; + + unsigned int x, y, i; + const unsigned int size = 256; + unsigned short *rnd; + XPoint *points; + unsigned int npoints = + (unsigned int)(size * size * st->ratio * overshoot) - + (unsigned int)(size * size * st->prev_ratio * overshoot); + + if (st->ratio >= 1.0) + { + free (st->fizzle_rnd); + st->fizzle_rnd = NULL; + return; + } + + if (! st->fizzle_rnd) + { + unsigned int chunks = + ((st->width + size - 1) / size) * ((st->height + size - 1) / size); + unsigned int i; + + st->fizzle_rnd = + (unsigned short *) malloc (sizeof(unsigned short) * chunks); + + if (! st->fizzle_rnd) + return; + + for (i = 0; i != chunks; i++) + st->fizzle_rnd[i] = NRAND(0x10000) | 1; /* Seed can't be 0. */ + } + + points = (XPoint *) malloc ((npoints + 1) * sizeof(*points)); + if (! points) return; + + rnd = st->fizzle_rnd; + + for (y = 0; y < st->height; y += 256) + { + for (x = 0; x < st->width; x += 256) + { + unsigned int need0 = 0; + unsigned short r = *rnd; + for (i = 0; i != npoints; i++) + { + points[i].x = r % size + x; + points[i].y = (r >> 8) % size + y; + + /* Xorshift. This has a period of 2^16, which exactly matches + the number of pixels in each 256x256 chunk. + + Other shift constants are possible, but it's hard to say + which constants are best: a 2^16 period PRNG will never score + well on BigCrush. + */ + r = (r ^ (r << 3)) & 0xffff; + r = r ^ (r >> 5); + r = (r ^ (r << 11)) & 0xffff; + need0 |= (r == 0x8080); /* Can be anything, really. */ + } + + if (need0) + { + points[npoints].x = x; + points[npoints].y = y; + } + + XDrawPoints (st->dpy, st->window, st->bg_gc, + points, npoints + need0, CoordModeOrigin); + *rnd = r; + rnd++; + } + } + free (points); +} + + +static void +spiral (eraser_state *st) +{ + 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; + } + + off = st->start * M_PI / 180; + + for (i = steps * st->prev_ratio; + i < steps * st->ratio; + i++) + { + 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 (st->flip_p) + { + th1 = max_th - th1; + th2 = max_th - th2; + } + + 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); + } +} + + +static void +random_squares (eraser_state *st) +{ + int i, size, rows; + + if (st->ratio == 0.0) + { + st->cols = 10 + random() % 30; + size = st->width / st->cols; + rows = (size ? (st->height / size) : 0) + 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 */ + { + int t, r; + t = st->lines[i]; + r = random() % st->nlines; + st->lines[i] = st->lines[r]; + st->lines[r] = t; + } + } + + size = st->width / st->cols; + rows = (size ? (st->height / size) : 0) + 1; + + for (i = st->nlines * st->prev_ratio; + i < st->nlines * st->ratio; + i++) + { + 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); + } + + if (st->ratio >= 1.0) + { + free (st->lines); + st->lines = 0; + } +} + + +/* 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 (eraser_state *st) +{ + int max = st->width * 1.1; + int nlines = 40; + int h = st->height / nlines; + int y, step; + int tick = 0; + + if (h < 10) + h = 10; + + step = (max * st->ratio) - (max * st->prev_ratio); + if (step <= 0) + step = 1; + + for (y = 0; y < st->height; y += h) + { + if (st->width <= step) + ; + else if (tick & 1) + { + 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 + { + 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); + } + + tick++; + } +} + + +/* from Frederick Roeber <roeber@xigo.com> */ +static void +losira (eraser_state *st) +{ + double mode1 = 0.55; + double mode2 = mode1 + 0.30; + double mode3 = 1.0; + int radius = 10; + + if (st->ratio < mode1) /* squeeze from the sides */ + { + 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); + } + else if (st->ratio < mode2) /* squeeze from the top/bottom */ + { + double ratio = (st->ratio - mode1) / (mode2 - mode1); + int max = st->height / 2; + + /* 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); + } + else if (st->ratio < mode3) /* starburst */ + { + double ratio = (st->ratio - mode2) / (mode3 - mode2); + double r2 = ratio * radius * 4; + XArc arc[9]; + int i; + int angle = 360*64/countof(arc); + + for (i = 0; i < countof(arc); i++) + { + 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); + } + + 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)); + } +} + + +static Eraser erasers[] = { + random_lines, + venetian, + triple_wipe, + quad_wipe, + circle_wipe, + three_circle_wipe, + squaretate, + fizzle, + spiral, + random_squares, + slide_lines, + losira, +}; + + +static eraser_state * +eraser_init (Display *dpy, Window window) +{ + eraser_state *st = (eraser_state *) calloc (1, sizeof(*st)); + XWindowAttributes xgwa; + XGCValues gcv; + unsigned long fg, bg; + double duration; + int which; + char *s; + + st->dpy = dpy; + st->window = window; + + 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"); + free (s); + + 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; + + XSync (st->dpy, False); + + return st; +} + + +void +eraser_free (eraser_state *st) +{ + XClearWindow (st->dpy, st->window); /* Final draw is black-on-black. */ + st->ratio = 1.0; + st->fn (st); /* Free any memory. May also draw, but that doesn't matter. */ + 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) +{ + double now, duration; + Bool first_p = False; + if (! st) + { + first_p = True; + st = eraser_init (dpy, window); + } + + now = (first_p ? st->start_time : double_time()); + duration = st->stop_time - st->start_time; + + st->prev_ratio = st->ratio; + st->ratio = (now - st->start_time) / duration; + + if (st->ratio < 1.0) + { + st->fn (st); + XSync (st->dpy, False); + } + else + { + eraser_free (st); + st = 0; + } + return st; +} |