/* aoc-c.c: Advent of Code 2021, day 19 parts 1 & 2 * * Copyright (C) 2022 Bruno Raoult ("br") * Licensed under the GNU General Public License v3.0 or later. * Some rights reserved. See COPYING. * * You should have received a copy of the GNU General Public License along with this * program. If not, see . * * SPDX-License-Identifier: GPL-3.0-or-later */ #include #include #include #include #include "pool.h" #include "debug.h" #include "bits.h" #include "list.h" #define MAX_SCANNERS 32 /* I know, I know... */ typedef struct vector { s64 x, y, z; } vector_t; typedef struct beacon { u64 manhattan; /* manhattan distance from scanner */ int scanner; /* original scanner for beacon */ int num; /* original # in original scanner */ int common; /* has common distance with 1st scanner */ vector_t vec; /* beacon coordinates */ struct list_head list_beacons; } beacon_t; typedef struct dist { u64 dist; /* square distance... */ beacon_t *beacon1, *beacon2; /* ... between these beacons */ struct list_head list_dists; } dist_t; typedef struct scanner { int nbeacons, ndists; int adjusted; struct list_head list_beacons; struct list_head list_dists; beacon_t *ref[3]; /* reference beacons */ //vector_t ref[3]; } scanner_t; static pool_t *pool_beacon; static pool_t *pool_dist; static scanner_t scanners[MAX_SCANNERS]; static int nscanners; static void scanners_print_dists() { dist_t *cur; beacon_t *beacon1, *beacon2; log_f(1, "nscanners: %d\n", nscanners); for (int i = 0; i < nscanners; ++i) { log(1, "scanner %d: %d dists\n", i, scanners[i].ndists); list_for_each_entry(cur, &scanners[i].list_dists, list_dists) { beacon1 = cur->beacon1; beacon2 = cur->beacon2; log_i(3, "%lu : %d-%d (%ld,%ld,%ld)-(%ld,%ld,%ld)\n", cur->dist, beacon1->num, beacon2->num, beacon1->vec.x, beacon1->vec.y, beacon1->vec.z, beacon2->vec.x, beacon2->vec.y, beacon2->vec.z); } } } static void scanners_print_refs(scanner_t *s1, scanner_t *s2) { log_f(1, "s1:%ld s2:%ld\n", s1 - scanners, s2 - scanners); log_i(2, "scanner %ld:", s1 - scanners); for (int i = 0; i < 3; ++i) { beacon_t *beacon = s1->ref[i]; log(1, " (%ld,%ld,%ld)", beacon->vec.x, beacon->vec.y, beacon->vec.z); } log(1, "\n"); log_i(2, "\nscanner %ld:", s2 - scanners); for (int i = 0; i < 3; ++i) { beacon_t *beacon = s2->ref[i]; log(1, " (%ld,%ld,%ld)", beacon->vec.x, beacon->vec.y, beacon->vec.z); } log(1, "\n"); } static void scanner_print(scanner_t *s) { beacon_t *cur; log(1, "scanner %ld: %d beacons\n", s - scanners, s->nbeacons); list_for_each_entry(cur, &s->list_beacons, list_beacons) { log_i(3, " m=%lu %ld/%ld/%ld\n", cur->manhattan, cur->vec.x, cur->vec.y, cur->vec.z); } //log(1, "\n"); } static void scanners_print() { log_f(1, "nscanners: %d\n", nscanners); for (int i = 0; i < nscanners; ++i) { scanner_print(scanners + i); } } /* Thanks to: * http://www.euclideanspace.com/maths/algebra/matrix/transforms/examples/index.htm */ vector_t rotations[] = { { 1, 0, 0}, { 0, 1, 0}, { 0, 0, 1}, { 0, 0, 1}, { 0, 1, 0}, {-1, 0, 0}, {-1, 0, 0}, { 0, 1, 0}, { 0, 0, -1}, { 0, 0, -1}, { 0, 1, 0}, { 1, 0, 0}, { 0, -1, 0}, { 1, 0, 0}, { 0, 0, 1}, { 0, 0, 1}, { 1, 0, 0}, { 0, 1, 0}, { 0, 1, 0}, { 1, 0, 0}, { 0, 0, -1}, { 0, 0, -1}, { 1, 0, 0}, { 0, -1, 0}, { 0, 1, 0}, {-1, 0, 0}, { 0, 0, 1}, { 0, 0, 1}, {-1, 0, 0}, { 0, -1, 0}, { 0, -1, 0}, {-1, 0, 0}, { 0, 0, -1}, { 0, 0, -1}, {-1, 0, 0}, { 0, 1, 0}, { 1, 0, 0}, { 0, 0, -1}, { 0, 1, 0}, { 0, 1, 0}, { 0, 0, -1}, {-1, 0, 0}, {-1, 0, 0}, { 0, 0, -1}, { 0, -1, 0}, { 0, -1, 0}, { 0, 0, -1}, { 1, 0, 0}, { 1, 0, 0}, { 0, -1, 0}, { 0, 0, -1}, { 0, 0, -1}, { 0, -1, 0}, {-1, 0, 0}, {-1, 0, 0}, { 0, -1, 0}, { 0, 0, 1}, { 0, 0, 1}, { 0, -1, 0}, { 1, 0, 0}, { 1, 0, 0}, { 0, 0, 1}, { 0, -1, 0}, { 0, -1, 0}, { 0, 0, 1}, {-1, 0, 0}, {-1, 0, 0}, { 0, 0, 1}, { 0, 1, 0}, { 0, 1, 0}, { 0, 0, 1}, { 1, 0, 0}, }; #define NROTATIONS (sizeof(rotations) / sizeof(*rotations) / 3) /* vector_rotate: returns vector rotation vector by "nrot"th rotations matrix */ static vector_t vector_rotate(const vector_t *vector, int nrot) { vector_t *rot = &rotations[nrot*3], res; res.x = vector->x * rot[0].x + vector->y * rot[0].y + vector->z * rot[0].z; res.y = vector->x * rot[1].x + vector->y * rot[1].y + vector->z * rot[1].z; res.z = vector->x * rot[2].x + vector->y * rot[2].y + vector->z * rot[2].z; return res; } /* beacon_diff: returns difference between 2 vectors */ static vector_t vector_diff(const vector_t *vec1, vector_t *vec2) { vector_t res; res.x = vec1->x - vec2->x; res.y = vec1->y - vec2->y; res.z = vec1->z - vec2->z; return res; } /* beacon_diff: calculate sum of two vectors */ static vector_t vector_add(const vector_t *vec1, vector_t *vec2) { vector_t res; res.x = vec1->x + vec2->x; res.y = vec1->y + vec2->y; res.z = vec1->z + vec2->z; return res; } /* insert a new distance in scanner's (sorted) distances list */ static int insert_dist(scanner_t *scanner, dist_t *dist) { dist_t *cur; uint newdist = dist->dist; log_f(7, "dist=%u\n", newdist); cur = list_first_entry_or_null(&scanner->list_dists, dist_t, list_dists); /* special case: first distance or new dist lower than first dist */ if (!cur || newdist < cur->dist) { list_add(&dist->list_dists, &scanner->list_dists); log_i(7, "first entry\n"); goto end; } /* normal case: insert before current when new dist is lower than current dist */ list_for_each_entry(cur, &scanner->list_dists, list_dists) { log_i(7, "comp=%lu\n", cur->dist); if (newdist < cur->dist) { list_add_tail(&dist->list_dists, &cur->list_dists); log_i(7, "add before\n"); goto end; } } /* special case: we went to end, insert at list's tail */ list_add_tail(&dist->list_dists, &scanner->list_dists); log_i(7, "add end\n"); end: return ++scanner->ndists; } /* add distances between beacon and all others */ static int add_beacon_dists1(scanner_t *scanner, beacon_t *beacon) { beacon_t *cur; dist_t *dist; int count = 0; list_for_each_entry(cur, &scanner->list_beacons, list_beacons) { if (cur == beacon) continue; dist = pool_get(pool_dist); dist->dist = (beacon->vec.x - cur->vec.x) * (beacon->vec.x - cur->vec.x) + (beacon->vec.y - cur->vec.y) * (beacon->vec.y - cur->vec.y) + (beacon->vec.z - cur->vec.z) * (beacon->vec.z - cur->vec.z); dist->beacon1 = beacon; dist->beacon2 = cur; log_f(7, "scanner %lu new dist : %lu (%ld,%ld,%ld) / (%ld,%ld,%ld)\n", scanner - scanners, dist->dist, beacon->vec.x, beacon->vec.y, beacon->vec.z, cur->vec.x, cur->vec.y, cur->vec.z); insert_dist(scanner, dist); count++; } log_f(3, "scanner %lu : %d new dists\n", scanner - scanners, count); return count; } /* compare two beacons by manhattan distance, then x, y, and z. */ static inline int compare_beacons(beacon_t *b1, beacon_t *b2) { vector_t *v1 = &b1->vec, *v2 = &b2->vec; u64 m1 = b1->manhattan, m2 = b2->manhattan; if (m1 < m2 || (m1 == m2 && (v1->x < v2->x || (v1->x == v2->x && v1->y < v2->y) || ((v1->x == v2->x && v1->y == v2->y) && v1->z < v2->z)))) { return -1; } else if (m1 == m2 && v1->x == v2->x && v1->y == v2->y && v1->z == v2->z) { return 0; } return 1; } /* insert a new beacon in scanner's list. * keep the list ordered by: * 1) manhattan distance * 2) x, then y, then z */ static int insert_unique_beacon(scanner_t *scanner, beacon_t *beacon) { vector_t *vec = &beacon->vec; beacon_t *cur; u64 manhattan = labs(vec->x) + labs(vec->y) + labs(vec->z); beacon->manhattan = manhattan; log_f(3, "manhattan=%lu\n", manhattan); cur = list_first_entry_or_null(&scanner->list_beacons, beacon_t, list_beacons); /* special case: first beacon or new beacon lower than first beacon */ if (!cur || compare_beacons(beacon, cur) < 0) { list_add(&beacon->list_beacons, &scanner->list_beacons); log_i(7, "first entry\n"); goto end; } /* normal case: insert before current when new dist is lower than current dist */ list_for_each_entry(cur, &scanner->list_beacons, list_beacons) { log_i(7, "comp=%lu\n", cur->manhattan); switch (compare_beacons(beacon, cur)) { case -1: list_add_tail(&beacon->list_beacons, &cur->list_beacons); log_i(7, "add before\n"); goto end; case 0: return -1; } } /* special case: we went to end, insert at list's tail */ list_add_tail(&beacon->list_beacons, &scanner->list_beacons); log_i(7, "add end\n"); end: return ++scanner->nbeacons; } /* return 1 if b exists in s beacons's list, 0 otherwise. */ static int beacon_exists(scanner_t *s, beacon_t *b) { beacon_t *cur; list_for_each_entry(cur, &s->list_beacons, list_beacons) { if (b->vec.x == cur->vec.x && b->vec.y == cur->vec.y && b->vec.z == cur->vec.z) { return 1; } } return 0; } /* using scanner's reference points, find the correct rotation and translation */ static int adjust_scanner(scanner_t *ref, scanner_t *s) { beacon_t *beacon_ref[3], *beacon[3], *cur; int error = -1; //log_f(1, "sizeof(rotations)=%lu\n", NROTATIONS); for (uint i = 0; i < 3; ++i) { beacon_ref[i] = ref->ref[i]; beacon[i] = s->ref[i]; } for (uint rotnum = 0; rotnum < NROTATIONS; ++rotnum) { vector_t rot[3], diff[3]; //int match = 1; /* rotate the first beacon and translate to match ref's (x, y, z) */ for (int bref = 0; bref < 3; ++bref) { rot[bref] = vector_rotate(&beacon[bref]->vec, rotnum); diff[bref] = vector_diff(&beacon_ref[bref]->vec, rot + bref); log(2, "ref %d diff=(%ld,%ld,%ld)\n", bref, diff[bref].x, diff[bref].y, diff[bref].z); /* check that rotation/translation works for the 3 reference points */ if (bref > 0 && (diff[bref].x != diff[0].x || diff[bref].y != diff[0].y || diff[bref].z != diff[0].z)) { log(2, "skipping this translation\n"); goto next_rot; } } log(2, "Got it: scanner %lu is (%ld,%ld,%ld) from reference\n", s - scanners, diff[0].x, diff[0].y, diff[0].z); error = 0; /* adjust all beacons */ list_for_each_entry(cur, &s->list_beacons, list_beacons) { //vector_t tmp; log(2, "translating beacon: (%ld,%ld,%ld) ->", cur->vec.x, cur->vec.y, cur->vec.z); cur->vec = vector_rotate(&cur->vec, rotnum); cur->vec = vector_add(&cur->vec, &diff[0]); //cur->vec.y = tmp.y + diff[0].y; //cur->vec.z = tmp.z + diff[0].z; log(2, " (%ld,%ld,%ld)\n", cur->vec.x, cur->vec.y, cur->vec.z); } scanner_print(s); s->adjusted = 1; break; next_rot: log(2, "\n"); } if (error) { log_f(1, "BUG!!\n"); } return error; } /* add distances between b1 and all following beacons in scanner's list */ static int add_beacon_dists(scanner_t *scanner, beacon_t *b1) { beacon_t *b2 = b1; dist_t *dist; int count = 0; list_for_each_entry_continue(b2, &scanner->list_beacons, list_beacons) { dist = pool_get(pool_dist); dist->dist = (b1->vec.x - b2->vec.x) * (b1->vec.x - b2->vec.x) + (b1->vec.y - b2->vec.y) * (b1->vec.y - b2->vec.y) + (b1->vec.z - b2->vec.z) * (b1->vec.z - b2->vec.z); dist->beacon1 = b1; dist->beacon2 = b2; log_f(1, "scanner %lu new dist : %lu (%ld,%ld,%ld) / (%ld,%ld,%ld)\n", scanner - scanners, dist->dist, b1->vec.x, b1->vec.y, b1->vec.z, b2->vec.x, b2->vec.y, b2->vec.z); insert_dist(scanner, dist); count++; } return count; } /* merge scanner s2 (already translated) beacons into scanner s1. * - ignore duplicate beacons * - recalculate all distances for new beacons */ static int merge_scanner(scanner_t *s1, scanner_t *s2) { struct list_head *cur, *tmp; beacon_t *beacon; dist_t *dist; int count = 0; //log_f(1, "merging scanner %lu into %lu\n", s2 - scanners, s1 - scanners); log_f(3, "before(%lu -> %lu): count1=%d count2=%d dist1=%d dist2=%d\n\n", s2 - scanners, s1 - scanners, s1->nbeacons, s2->nbeacons, s1->ndists, s2->ndists); list_for_each_safe(cur, tmp, &s2->list_beacons) { beacon = list_entry(cur, beacon_t, list_beacons); list_del(cur); s2->nbeacons--; if (insert_unique_beacon(s1, beacon) > 0) add_beacon_dists1(s1, beacon); } /* if (beacon->common) { if (!beacon_exists(s1, beacon)) log(2, "BUG 1\n"); log(2, "common beacon ignored (%ld,%ld,%ld) - count=%d\n", beacon->vec.x, beacon->vec.y, beacon->vec.z, beacon->common); pool_add(pool_beacon, beacon); } else { if (beacon_exists(s1, beacon)) log(2, "BUG 2\n"); log(2, "add new beacon (%ld,%ld,%ld) - count=%d\n", beacon->vec.x, beacon->vec.y, beacon->vec.z, beacon->common); list_add(cur, &s1->list_beacons); s1->nbeacons++; add_beacon_dists(s1, beacon); count++; } } */ /* free all dists */ list_for_each_safe(cur, tmp, &s2->list_dists) { dist = list_entry(cur, dist_t, list_dists); list_del(cur); s2->ndists--; pool_add(pool_dist, dist); } log_f(3, "after(%lu -> %lu): count1=%d count2=%d dist1=%d dist2=%d added=%d\n", s2 - scanners, s1 - scanners, s1->nbeacons, s2->nbeacons, s1->ndists, s2->ndists, count); return count; } /* For each scanner, calculate square distances between every beacon, * and generate corresponding list. * For N beacons, we will get (N) * (N-1) / 2 distances. * * Note: To find 12 matching beacons between scanners later, we will need * 66 matching distances (12 * 11 / 2). */ static int count_common_distances(scanner_t *s1, scanner_t *s2) { struct list_head *plist1, *plist2; dist_t *pdist1, *pdist2; beacon_t *tmpbeacon; int cur1 = 0, cur2 = 0; u64 dist1, dist2; int ref_triangle = 0, nref = 0; uint count = 0; log_f(1, "(%ld, %ld): \n", s1 - scanners, s2 - scanners); /* We need to find common references A, B, C such as: * * d1 * A------------------B * \ / * d2\ +----------/ * \ / (d3) * C * To do so, we find common d1 and d2 such as both have * a common A point. */ if (list_empty(&s1->list_dists) || list_empty(&s2->list_dists)) return 0; plist1 = s1->list_dists.next; plist2 = s2->list_dists.next; /* initialize second scanner common beacons */ list_for_each_entry(tmpbeacon, &s2->list_beacons, list_beacons) { tmpbeacon->common = 0; } while (plist1 != &s1->list_dists && plist2 != &s2->list_dists) { pdist1 = list_entry(plist1, dist_t, list_dists); pdist2 = list_entry(plist2, dist_t, list_dists); dist1 = pdist1->dist; dist2 = pdist2->dist; if (dist1 == dist2) { log(1, " %lu: (%d,%d)= %d-%d %d-%d triangle=%d\n", dist1, cur1, cur2, pdist1->beacon1->num, pdist1->beacon2->num, pdist2->beacon1->num, pdist2->beacon2->num, ref_triangle); plist1 = plist1->next; plist2 = plist2->next; cur1++; cur2++; count++; pdist2->beacon1->common++; /* mark beacons as common in 2nd scanner */ pdist2->beacon2->common++; switch (nref) { case 0: /* first 2 reference points */ s1->ref[0] = pdist1->beacon1; s1->ref[1] = pdist1->beacon2; s2->ref[0] = pdist2->beacon1; s2->ref[1] = pdist2->beacon2; nref = 2; log_i(3, "s1_ref=%d,%d,-1 s2_ref=%d,%d,-1\n", s1->ref[0]->num, s1->ref[1]->num, s2->ref[0]->num, s2->ref[1]->num); break; case 2: /* third reference point */ beacon_t *beacon1 , *beacon2; scanner_t *scanner; /* we need to adjust references for the two pairs of * 2 beacons having same distance, for both scanners. */ for (int i = 0; i < 2; i++) { if (i == 0) { beacon1 = pdist1->beacon1; beacon2 = pdist1->beacon2; scanner = s1; } else { beacon1 = pdist2->beacon1; beacon2 = pdist2->beacon2; scanner = s2; } log(1, "s%c: beacon1=%p beacon2=%p\n", i + '1', beacon1, beacon2); log(1, " ref1 =%p ref2 =%p\n", scanner->ref[0], scanner->ref[1]); if (beacon1 == scanner->ref[0]) { /* ref0----------ref1 * ref0----------ref2 */ scanner->ref[2] = beacon2; nref++; } else if (beacon1 == scanner->ref[1]) { /* ref1----------ref0 * ref0----------ref2 * first & second reference beacons must be reversed, * second is ok */ beacon_t *tmp = scanner->ref[0]; scanner->ref[0] = scanner->ref[1]; scanner->ref[1] = tmp; scanner->ref[2] = beacon2; nref++; } else if (beacon2 == scanner->ref[0]) { /* ref0----------ref1 * ref2----------ref0 */ scanner->ref[2] = beacon1; nref++; } else if (beacon2 == scanner->ref[1]) { /* ref1----------ref0 * ref2----------ref0 */ beacon_t *tmp = scanner->ref[0]; scanner->ref[0] = scanner->ref[1]; scanner->ref[1] = tmp; scanner->ref[2] = beacon1; nref++; } /*else { log_f(1, "BUG!!\n"); } */ } log_i(3, "nref=%d s1_ref=%d,%d,%d s2_ref=%d,%d,%d\n", nref, s1->ref[0]->num, s1->ref[1]->num, s1->ref[2]? s1->ref[2]->num: -1, s2->ref[0]->num, s2->ref[1]->num, s2->ref[2]? s2->ref[2]->num: -1); break; } } else if (dist1 < dist2) { log(7, " dist1=%lu < dist2=%lu : (%d,%d)= %d-%d %d-%d triangle=%d\n", dist1, dist2, cur1, cur2, pdist1->beacon1->num, pdist1->beacon2->num, pdist2->beacon1->num, pdist2->beacon2->num, ref_triangle); plist1 = plist1->next; cur1++; } else { /* dist1 > dist2 */ log(7, " dist1=%lu > dist2=%lu : (%d,%d)= %d-%d %d-%d triangle=%d\n", dist1, dist2, cur1, cur2, pdist1->beacon1->num, pdist1->beacon2->num, pdist2->beacon1->num, pdist2->beacon2->num, ref_triangle); plist2 = plist2->next; cur2++; } } return count; } /* For each scanner, calculate square distances between every beacon, * and generate corresponding list. * For N beacons, we will get (N) * (N-1) / 2 distances. * * Note: To find 12 matching beacons between scanners later, we will need * 66 matching distances (= 12 * 11 / 2). */ static void calc_square_distances() { scanner_t *scanner; beacon_t *beacon; log_f(1, "nscanners: %d\n", nscanners); for (int i = 0; i < nscanners; ++i) { scanner = scanners + i; list_for_each_entry(beacon, &scanner->list_beacons, list_beacons) { add_beacon_dists(scanner, beacon); } } scanners_print_dists(); } /* match all scanners */ static void match_scanners() { int finished = 0; scanners[0].adjusted = 1; log_f(1, "nscanners=%d\n", nscanners); while (!finished) { finished = 1; for (int j = 1; j < nscanners; ++j) { if (scanners[j].adjusted) /* already translated */ continue; int count = count_common_distances(scanners, scanners + j); log(1, "common(%d, %d) = %d\n\n", 0, j, count); if (count >= 66) { adjust_scanner(scanners, scanners + j); scanners_print_refs(scanners, scanners + j); merge_scanner(scanners, scanners + j); finished = 0; } } } scanners_print_dists(); } static void match_scanners1() { int finished = 0; scanners[0].adjusted = 1; log_f(1, "nscanners=%d\n", nscanners); while (!finished) { finished = 1; for (int i = 0; i < nscanners - 1; ++i) { if (!scanners[i].adjusted) /* skip un-translated scanners */ continue; for (int j = i+1; j < nscanners; ++j) { if (i == j || scanners[j].adjusted) /* already translated */ continue; int count = count_common_distances(scanners + i, scanners + j); log(1, "common(%d, %d) = %d\n", i, j, count); if (count >= 66) { adjust_scanner(scanners + i, scanners + j); scanners_print_refs(scanners + i, scanners + j); //merge_scanner(scanners + i, scanners + j); finished = 0; } } } } scanners_print_dists(); //scanners_print_dists(scanners + 2); } /* read input */ static int scanners_read() { size_t alloc = 0; ssize_t buflen; char *buf = NULL; beacon_t *beacon; scanner_t *scanner = NULL; while ((buflen = getline(&buf, &alloc, stdin)) > 0) { switch (buf[1]) { case '-': scanner = scanners + nscanners; log_f(9, "[%c] nscanners = %d %p/%p\n", *buf, nscanners, scanner, scanners); INIT_LIST_HEAD(&scanner->list_beacons); INIT_LIST_HEAD(&scanner->list_dists); nscanners++; scanner->nbeacons = 0; break; case '\0': log_f(9, "NULL line\n"); break; default: //log_f(2, "[%c] beacon = %d\n", *buf, nscanners); beacon = pool_get(pool_beacon); beacon->scanner = nscanners; beacon->num = scanner->nbeacons; sscanf(buf, "%ld,%ld,%ld", &beacon->vec.x, &beacon->vec.y, &beacon->vec.z); if (insert_unique_beacon(scanner, beacon) > 0) add_beacon_dists1(scanner, beacon); //log(1, "zobi\n"); //list_add_tail(&beacon->list_beacons, &scanner->list_beacons); } } free(buf); scanners_print(); return nscanners; } static s64 part1() { return (*scanners).nbeacons; } static s64 part2() { return list_last_entry(&(*scanners).list_beacons, beacon_t, list_beacons)->manhattan; } static int usage(char *prg) { fprintf(stderr, "Usage: %s [-d debug_level] [-p part]\n", prg); return 1; } int main(int ac, char **av) { int opt, part = 1; while ((opt = getopt(ac, av, "d:p:")) != -1) { switch (opt) { case 'd': debug_level_set(atoi(optarg)); break; case 'p': /* 1 or 2 */ part = atoi(optarg); if (part < 1 || part > 2) return usage(*av); break; default: return usage(*av); } } if (optind < ac) return usage(*av); log_f(1, "sizeof(rotations)=%lu, sizeof2=%lu sizeof3=%lu rot=%lu\n", sizeof(rotations), sizeof(*rotations), sizeof(rotations) / sizeof(*rotations), NROTATIONS); if (!(pool_beacon = pool_create("beacons", 1024, sizeof(beacon_t)))) { log(1, "pool create error, errno=%d\n", errno); exit(1); } if (!(pool_dist = pool_create("dists", 1024, sizeof(dist_t)))) { log(1, "pool create error, errno=%d\n", errno); exit(1); } scanners_read(); //calc_square_distances(); match_scanners(); scanners_print(); printf("%s : res=%ld\n", *av, part == 1? part1(): part2()); pool_stats(pool_beacon); pool_destroy(pool_beacon); pool_stats(pool_dist); pool_destroy(pool_dist); exit(0); }