#include <math.h>
#include <sys/types.h>
+#include <sys/time.h>
+#include <unistd.h>
#include <dirent.h>
#include <errno.h>
#include <string.h>
/* Support sequential introduction of items from bin 0 */
category_order_t order;
+ /* Support categories where responses are timed (0.0 == disable). */
+ double time_limit;
int bin_zero_head;
} category_t;
category->num_items = 0;
category->items = NULL;
category->order = CATEGORY_ORDER_RANDOM;
+ category->time_limit = 0.0;
category->bin_zero_head = 0;
}
fprintf (file, "order = %s\n\n",
category->order == CATEGORY_ORDER_RANDOM ? "random" : "sequential");
+ fprintf (file, "time = %f\n\n",
+ category->time_limit);
for (i = 0; i < category->num_items; i++) {
item = &category->items[i];
/* An initial digit means we hit an item. Trigger the
* spaghetti machine. */
- if (*line >= '0' && *line <= '9')
+ if ((*line >= '0' && *line <= '9') || *line == '-')
goto PARSE_BIN;
equal = strchr (line, '=');
value, path, line_count);
exit (1);
}
+ } else if (strcmp (name, "time") == 0) {
+ double limit;
+ char *end;
+ limit = strtod (value, &end);
+ while (isspace (*end))
+ end++;
+ if (*end == '\0') {
+ category->time_limit = limit;
+ } else {
+ fprintf (stderr, "Failed to parse time value: %s at %s:%d\n",
+ value, path, line_count);
+ exit (1);
+ }
} else {
fprintf (stderr, "Unknown option %s at %s:%d\n",
name, path, line_count);
category_print (category, file);
+ fsync (fileno (file));
fclose (file);
err = rename (lock_filename, filename);
static void
mnemon_select_item (mnemon_t *mnemon,
bin_t **bin_ret,
- int *item_index_ret)
+ int *item_index_ret,
+ category_t **category_ret)
{
int bin_index, item_index;
bin_t *bin;
+ item_t *item;
+ category_t *category;
bin_index = rand_within_exponential (mnemon->num_bins);
-
bin = &mnemon->bins[bin_index];
- item_index = rand_within (bin->num_items);
-
- if (bin->score == 0) {
- category_t *category;
- item_t *item;
+ /* The most intuitive understanding of the to_introduce counter is
+ * that it's tracking never-before-learned items as they are
+ * pulled from the bin with score 0. But that bin can become
+ * empty. So the refined rule is that we decrement to_introduce
+ * whenever we pull from the lowest-indexed bin with a
+ * non-negative score. */
+ if (mnemon->to_introduce && bin->score >=0 &&
+ (bin_index == 0 || mnemon->bins[bin_index-1].score < 0))
+ {
+ mnemon->to_introduce--;
+ }
- item = bin->items[item_index];
+ item_index = rand_within (bin->num_items);
- category = mnemon_item_category (mnemon, item);
+ item = bin->items[item_index];
+ category = mnemon_item_category (mnemon, item);
+ if (bin->score == 0) {
if (category->order == CATEGORY_ORDER_SEQUENTIAL) {
item = category_next_bin_zero_item (category);
if (item)
*bin_ret = bin;
*item_index_ret = item_index;
+ *category_ret = category;
}
bin_t *bin,
int item_index,
item_t *item,
- const char *response)
+ const char *response,
+ double response_time,
+ double time_limit)
{
bool_t correct;
mnemon_remove_bin (mnemon, bin);
}
- if (correct) {
+ if (correct &&
+ (time_limit == 0.0 || response_time < time_limit))
+ {
item->score++;
mnemon->to_master--;
/* We reserve an item score of 0 for an item that has
printf ("Masterful (%dx).", item->score);
}
} else {
- printf (" %s is the correct answer.",
- item->response);
+ if (! correct)
+ printf (" %s is the correct answer.",
+ item->response);
+ else
+ printf ("Correct, but not quite quick enough (%0.2f seconds---needed %0.2f seconds)\n",
+ response_time, time_limit);
/* Penalize an incorrect response by forcing the score
* negative. */
if (item->score >= 0) {
bin_t *bin;
int item_index;
item_t *item;
+ category_t *category;
char *response;
int i;
printf ("\n");
do {
- mnemon_select_item (mnemon, &bin, &item_index);
+ struct timeval start, end;
+
+ mnemon_select_item (mnemon, &bin, &item_index, &category);
item = bin->items[item_index];
- if (bin->score == 0)
- mnemon->to_introduce--;
-
while (1) {
+ if (category->time_limit > 0.0) {
+ response = readline ("The next one is timed. Press enter when ready:");
+ free (response);
+ }
+
printf ("%s\n", item->challenge);
+ gettimeofday (&start, NULL);
response = readline ("> ");
+ gettimeofday (&end, NULL);
+
/* Terminate on EOF */
if (response == NULL) {
printf ("\n");
return;
}
- if (response[0] == '/')
+ if (response[0] == '/') {
mnemon_handle_command (mnemon, response + 1);
- else
+ free (response);
+ } else {
break;
+ }
}
mnemon_handle_response (mnemon, bin, item_index,
- item, response);
+ item, response,
+ (end.tv_sec + end.tv_usec / 1e6) -
+ (start.tv_sec + start.tv_usec / 1e6),
+ category->time_limit);
+ free (response);
} while (mnemon->to_introduce ||
mnemon->unlearned ||
mnemon->to_master > 0);
-
- printf ("Great job.\n");
}
int
main (int argc, char *argv[])
{
mnemon_t mnemon;
+ char *response;
srand (time (NULL));
mnemon_fini (&mnemon);
+ mnemon_init (&mnemon);
+ mnemon_load (&mnemon);
+
+ printf ("Great job.\nHere are your current results:\n");
+ mnemon_print_histogram (&mnemon, NULL, 0);
+ response = readline ("Press enter to quit.\n");
+ free (response);
+
+ mnemon_fini (&mnemon);
+
return 0;
}