X-Git-Url: http://git.subgeniuskitty.com/screensavers/.git/blobdiff_plain/3093467611b471a707bc567e8d56ef3aeadc6b4f..89ff0c45f60d0ed38e6bcd67b8925b0dee7cecc0:/hacks/WolframAutomata/WolframAutomata.c diff --git a/hacks/WolframAutomata/WolframAutomata.c b/hacks/WolframAutomata/WolframAutomata.c index 36f1c05..01246f2 100644 --- a/hacks/WolframAutomata/WolframAutomata.c +++ b/hacks/WolframAutomata/WolframAutomata.c @@ -51,8 +51,8 @@ struct state { size_t admiration_delay; /* ...in seconds. */ /* The following values correspond directly to independent CLI options. */ - Bool rule_random; - uint8_t rule_requested; /* Note: Repurposing Rule 0 as null value. */ + Bool random_rule; + int requested_rule; int cell_size; /* If cell_size=N then draw NxN pixels per cell. */ int delay_microsec; /* ...between calls to WolframAutomata_draw(). */ int num_generations; /* Reset simulation after this many generations. */ @@ -353,13 +353,13 @@ WolframAutomata_init(Display * dpy, Window win) /* the exponent in '2^11'. */ state->delay_microsec = 1 << ((random() % 3) + 11 + pixel_shift_range); } else { - state->delay_microsec = get_integer_resource(state->dpy, "delay-usec", "Integer"); + state->delay_microsec = get_integer_resource(state->dpy, "delay", "Integer"); } if (state->delay_microsec < 0) state->delay_microsec = 0; /* Set the number of generations to simulate before wiping the simulation */ /* and re-running with new settings. */ - if (get_boolean_resource(state->dpy, "random-num-generations", "Boolean")) { + if (get_boolean_resource(state->dpy, "random-length", "Boolean")) { /* By empirical observation, keep the product */ /* state->num_generations * state->cell_size */ /* below 10,000 to avoid BadAlloc errors from the X server due to */ @@ -372,7 +372,7 @@ WolframAutomata_init(Display * dpy, Window win) state->num_generations = (state->dpy_height / state->cell_size) + 1; } } else { - state->num_generations = get_integer_resource(state->dpy, "num-generations", "Integer"); + state->num_generations = get_integer_resource(state->dpy, "length", "Integer"); } /* The minimum number of generations is 2 since we must allocate enough */ /* space to hold the seed generation and at least one pass through */ @@ -387,21 +387,19 @@ WolframAutomata_init(Display * dpy, Window win) } /* Time to figure out which rule to use for this simulation. */ - /* We ignore any weirdness resulting from the following cast since every */ + /* We ignore any weirdness resulting from the following casts since every */ /* bit pattern is also a valid rule; if the user provides weird input, */ /* then we'll return weird (but well-defined!) output. */ - state->rule_requested = (uint8_t) get_integer_resource(state->dpy, "rule-requested", "Integer"); - state->rule_random = get_boolean_resource(state->dpy, "rule-random", "Boolean"); + state->requested_rule = get_integer_resource(state->dpy, "rule", "Integer"); + state->random_rule = get_boolean_resource(state->dpy, "random-rule", "Boolean"); /* Through the following set of branches, we enforce CLI flag precedence. */ - if (state->rule_random) { + if (state->random_rule) { /* If this flag is set, the user wants truly random rules rather than */ /* random rules from a curated list. */ state->rule_number = (uint8_t) random(); - } else if (state->rule_requested != 0) { - /* Rule 0 is terribly uninteresting, so we are reusing it as a 'null' */ - /* value and hoping nobody notices. Finding a non-zero value means */ - /* the user requested a specific rule. Use it. */ - state->rule_number = state->rule_requested; + } else if (state->requested_rule != -1) { + /* The user requested a specific rule. Use it. */ + state->rule_number = (uint8_t) state->requested_rule; } else { /* No command-line options were specified, so select rules randomly */ /* from a curated list. */ @@ -502,9 +500,9 @@ WolframAutomata_draw(Display * dpy, Window win, void * closure) } static const char * WolframAutomata_defaults[] = { - "*delay-usec: 25000", + "*delay: 25000", "*admiration-delay: 5", - "*num-generations: 5000", + "*length: 5000", "*cell-size: 2", "*color-index: -1", "*population-density: 50", @@ -513,23 +511,23 @@ static const char * WolframAutomata_defaults[] = { "*random-delay: False", "*random-length: False", "*random-rule: False", - "*rule-requested: 0", + "*rule: -1", 0 }; static XrmOptionDescRec WolframAutomata_options[] = { - { "-delay-usec", ".delay-usec", XrmoptionSepArg, 0 }, + { "-delay", ".delay", XrmoptionSepArg, 0 }, { "-admiration-delay", ".admiration-delay", XrmoptionSepArg, 0 }, - { "-num-generations", ".num-generations", XrmoptionSepArg, 0 }, + { "-length", ".length", 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-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" }, - { "-rule", ".rule-requested", XrmoptionSepArg, 0 }, + { "-random-length", ".random-length", XrmoptionNoArg, "True" }, + { "-random-rule", ".random-rule", XrmoptionNoArg, "True" }, + { "-rule", ".rule", XrmoptionSepArg, 0 }, { 0, 0, 0, 0 } };