X-Git-Url: http://git.subgeniuskitty.com/screensavers/.git/blobdiff_plain/39e6fe44effdfb443b1b9766b31803dd173eb1be..004edcbf9babe16297ca24ba9df71ca8ae91370a:/hacks/WolframAutomata/WolframAutomata.c diff --git a/hacks/WolframAutomata/WolframAutomata.c b/hacks/WolframAutomata/WolframAutomata.c index e84ba44..36f1c05 100644 --- a/hacks/WolframAutomata/WolframAutomata.c +++ b/hacks/WolframAutomata/WolframAutomata.c @@ -46,9 +46,9 @@ struct state { uint8_t rule_number; /* At the end of the simulation, the user is given time to admire the */ - /* output. Delay is available to user as CLI option. */ + /* output. Delay is available to user as CLI option '-admiration-delay'. */ Bool admiration_in_progress; - size_t admiration_delay; /* ...in microseconds. */ + size_t admiration_delay; /* ...in seconds. */ /* The following values correspond directly to independent CLI options. */ Bool rule_random; @@ -276,7 +276,7 @@ WolframAutomata_init(Display * dpy, Window win) state->dpy_height = xgwa.height; state->ypos = 0; - state->admiration_delay = 5000000; + state->admiration_delay = get_integer_resource(state->dpy, "admiration-delay", "Integer"); state->admiration_in_progress = False; /* Set foreground and background colors for active/inactive cells. Either */ @@ -307,14 +307,14 @@ WolframAutomata_init(Display * dpy, Window win) state->gc = XCreateGC(state->dpy, state->win, GCForeground, &gcv); /* Set the size of each simulated cell to NxN pixels for cell_size=N. */ - if (get_boolean_resource(state->dpy, "random-pixel-size", "Boolean")) { + if (get_boolean_resource(state->dpy, "random-cell-size", "Boolean")) { /* Although we are choosing the pixel size 'randomly', a truly random */ /* selection would bias toward large numbers since there are more of */ /* them. To avoid this, we select a random number for a bit shift, */ /* resulting in a pixel size of 1, 2, 4, 8, 16 or 32, equally likely. */ state->cell_size = 1 << (random() % 6); } else { - state->cell_size = get_integer_resource(state->dpy, "pixel-size", "Integer"); + state->cell_size = get_integer_resource(state->dpy, "cell-size", "Integer"); } if (state->cell_size < 1) state->cell_size = 1; if (state->cell_size > state->dpy_width) state->cell_size = state->dpy_width; @@ -482,7 +482,7 @@ WolframAutomata_draw(Display * dpy, Window win, void * closure) closure = WolframAutomata_init(dpy, win); } else { state->admiration_in_progress = True; - return state->admiration_delay; + return 1000000 * state->admiration_delay; } } @@ -503,12 +503,13 @@ WolframAutomata_draw(Display * dpy, Window win, void * closure) static const char * WolframAutomata_defaults[] = { "*delay-usec: 25000", + "*admiration-delay: 5", "*num-generations: 5000", - "*pixel-size: 2", + "*cell-size: 2", "*color-index: -1", "*population-density: 50", "*population-single: False", - "*random-cellsize: False", + "*random-cell-size: False", "*random-delay: False", "*random-length: False", "*random-rule: False", @@ -518,12 +519,13 @@ static const char * WolframAutomata_defaults[] = { static XrmOptionDescRec WolframAutomata_options[] = { { "-delay-usec", ".delay-usec", XrmoptionSepArg, 0 }, + { "-admiration-delay", ".admiration-delay", XrmoptionSepArg, 0 }, { "-num-generations", ".num-generations", XrmoptionSepArg, 0 }, - { "-pixel-size", ".pixel-size", XrmoptionSepArg, 0 }, + { "-cell-size", ".cell-size", XrmoptionSepArg, 0 }, { "-color-index", ".color-index", XrmoptionSepArg, 0 }, { "-population-density", ".population-density", XrmoptionSepArg, 0 }, { "-population-single", ".population-single", XrmoptionNoArg, "True" }, - { "-random-cellsize", ".random-pixel-size", XrmoptionNoArg, "True" }, + { "-random-cell-size", ".random-cell-size", XrmoptionNoArg, "True" }, { "-random-delay", ".random-delay", XrmoptionNoArg, "True" }, { "-random-length", ".random-num-generations", XrmoptionNoArg, "True" }, { "-random-rule", ".rule-random", XrmoptionNoArg, "True" },