static uint8_t nr_one[8];
static uint8_t nr_2d_11[8][8];
static uint8_t nr_2d_10[8][8];
+static uint8_t nr_2d_01[8][8];
+static uint8_t nr_2d_00[8][8];
static int global_max_minsubclass_len = 0;
+static int global_max_best_distance = 0;
static unsigned int subclass_len_distrib[256];
memset(nr_one, 0, sizeof(nr_one));
memset(nr_2d_11, 0, sizeof(nr_2d_11));
memset(nr_2d_10, 0, sizeof(nr_2d_10));
+ memset(nr_2d_01, 0, sizeof(nr_2d_01));
+ memset(nr_2d_00, 0, sizeof(nr_2d_00));
+
for (i = 0; i < sel_pool_len; i++) {
if (nr_distrib == 2) {
int j;
}
if (nr_distrib == 4) {
- int j, k;
-
- for (j = 0; j < 8; j++) {
- for (k = 0; k < j; k++) {
- if ((pool[i] & (1U << j)) && (pool[i] & (1U << k))) {
- nr_2d_11[j][k]++;
- }
- if ((pool[i] & (1U << j)) && !(pool[i] & (1U << k))) {
- nr_2d_10[j][k]++;
+ int bit_i, bit_j;
+
+ for (bit_i = 0; bit_i < 8; bit_i++) {
+ for (bit_j = 0; bit_j < bit_i; bit_j++) {
+ if (pool[i] & (1U << bit_i)) {
+ if (pool[i] & (1U << bit_j)) {
+ nr_2d_11[bit_i][bit_j]++;
+ } else {
+ nr_2d_10[bit_i][bit_j]++;
+ }
+ } else {
+ if (pool[i] & (1U << bit_j)) {
+ nr_2d_01[bit_i][bit_j]++;
+ } else {
+ nr_2d_00[bit_i][bit_j]++;
+ }
}
}
}
void stat_count(void)
{
int minsubclass_len = INT_MAX;
+ int overall_best_distance = INT_MAX;
if (nr_distrib == 2) {
int i;
minsubclass_len = diff >> 1;
}
}
+ if (minsubclass_len > global_max_minsubclass_len) {
+ global_max_minsubclass_len = minsubclass_len;
+ }
+ subclass_len_distrib[minsubclass_len]++;
}
if (nr_distrib == 4) {
- int j, k;
-
- for (j = 0; j < 8; j++) {
- for (k = 0; k < j; k++) {
- int diff[2];
-
- diff[0] = (int) nr_2d_11[j][k] * 4 - sel_pool_len;
- if (diff[0] < 0)
- diff[0] = -diff[0];
-
- diff[1] = (int) nr_2d_10[j][k] * 4 - sel_pool_len;
- if (diff[1] < 0)
- diff[1] = -diff[1];
- /* Get max linear array size */
- if (diff[1] > diff[0])
- diff[0] = diff[1];
- if ((diff[0] >> 2) < minsubclass_len) {
- minsubclass_len = diff[0] >> 2;
+ int bit_i, bit_j;
+
+ for (bit_i = 0; bit_i < 8; bit_i++) {
+ for (bit_j = 0; bit_j < bit_i; bit_j++) {
+ int distance_to_best[4], subclass_len[4];
+
+ distance_to_best[0] = (nr_2d_11[bit_i][bit_j] << 2U) - sel_pool_len;
+ distance_to_best[1] = (nr_2d_10[bit_i][bit_j] << 2U) - sel_pool_len;
+ distance_to_best[2] = (nr_2d_01[bit_i][bit_j] << 2U) - sel_pool_len;
+ distance_to_best[3] = (nr_2d_00[bit_i][bit_j] << 2U) - sel_pool_len;
+
+ subclass_len[0] = nr_2d_11[bit_i][bit_j];
+ subclass_len[1] = nr_2d_10[bit_i][bit_j];
+ subclass_len[2] = nr_2d_01[bit_i][bit_j];
+ subclass_len[3] = nr_2d_00[bit_i][bit_j];
+
+ /* Consider worse distance above best */
+ if (distance_to_best[1] > 0 && distance_to_best[1] > distance_to_best[0]) {
+ distance_to_best[0] = distance_to_best[1];
+ subclass_len[0] = subclass_len[1];
+ }
+ if (distance_to_best[2] > 0 && distance_to_best[2] > distance_to_best[0]) {
+ distance_to_best[0] = distance_to_best[2];
+ subclass_len[0] = subclass_len[2];
+ }
+ if (distance_to_best[3] > 0 && distance_to_best[3] > distance_to_best[0]) {
+ distance_to_best[0] = distance_to_best[3];
+ subclass_len[0] = subclass_len[3];
+ }
+
+ /*
+ * If our worse distance is better than overall,
+ * we become new best candidate.
+ */
+ if (distance_to_best[0] < overall_best_distance) {
+ overall_best_distance = distance_to_best[0];
+ minsubclass_len = subclass_len[0];
}
}
}
+ if (overall_best_distance > global_max_best_distance) {
+ global_max_best_distance = overall_best_distance;
+ }
+ subclass_len_distrib[minsubclass_len]++;
}
-
- if (minsubclass_len > global_max_minsubclass_len) {
- global_max_minsubclass_len = minsubclass_len;
- }
- subclass_len_distrib[minsubclass_len]++;
}
static
static
void print_stat(uint64_t i)
{
- printf("after %llu pools, global_max_minsubclass_len extra: %d\n",
- (unsigned long long) i, global_max_minsubclass_len);
+ printf("after %llu pools, global_max_minsubclass_len extra: %d global_max_best_distance %d\n",
+ (unsigned long long) i, global_max_minsubclass_len,
+ global_max_best_distance);
print_distrib();
}
projects / urcu.git / commitdiff
