// aoc5.cpp : This file contains the 'main' function. Program execution begins and ends there. // #include #include #include #include #include #include #include #include #include typedef uint32_t Numero; struct MapEntry { Numero src_start; Numero dest_start; Numero size; }; int main() { std::vector maps[7]; std::vector tovjemam; std::ifstream ifs("input_richaj"); std::string hovno; std::string line; std::getline(ifs, line); std::istringstream iss(line); std::vector seeds; iss >> hovno; Numero seed; while (iss >> seed) seeds.push_back(seed); int map_idx = -1; while (std::getline(ifs, line)) { if (line == "") { map_idx++; std::getline(ifs, line); continue; } std::istringstream iss(line); MapEntry ent; iss >> ent.dest_start >> ent.src_start >> ent.size; maps[map_idx].push_back(ent); } auto start_time = std::chrono::system_clock::now(); int num_ranges = seeds.size() / 2; std::vector min_locs; min_locs.resize(num_ranges); std::atomic_int progress[32]; std::thread progress_thread([num_ranges, &progress]() { while (true) { bool finished = true; std::this_thread::sleep_for(std::chrono::milliseconds(500)); for (int i = 0; i < num_ranges; ++i) { int p = progress[i].load(); if (p != 100) finished = false; char pb[] = " "; for (int c = 0; c < p; ++c) pb[c] = '#'; printf("%6d%% [%s]\n", p, pb); } printf("\n\n"); if (finished) break; } }); //progress_thread.detach(); omp_set_num_threads(8); //#pragma omp parallel for for (int r = 0; r < num_ranges; r++) { Numero min_loc = UINT32_MAX; Numero start = seeds[r * 2]; Numero end = start + seeds[r * 2 + 1]; for (Numero seed = start; seed < end; ++seed) { Numero find_what = seed; Numero skip = end - start; for (int i = 0; i < 7; ++i) { const auto& map = maps[i]; for (const auto& range : map) { if (range.src_start <= find_what && (range.src_start + range.size) > find_what) { find_what = find_what - range.src_start + range.dest_start; skip = std::min(skip, (range.src_start + range.size) - find_what); //printf("-> %lu\n", find_what); break; } } } min_loc = std::min(min_loc, find_what); if (seed % 1000000 == 0) progress[r] = (float)(seed - start) / (float)(end - start) * 100.0f; //printf("r %d/%d seed %llu (%.2f%%) min_loc %llu\n", r + 1, num_ranges, seed, (float)(seed - start) / (float)(end - start) * 100.0f, min_loc); seed += skip - 1; } progress[r] = 100; min_locs[r] = min_loc; } auto end_time = std::chrono::system_clock::now(); progress_thread.join(); Numero min_loc = UINT32_MAX; for (int i = 0; i < num_ranges; ++i) { printf("vysledek range %d: %u\n", i, min_locs[i]); min_loc = std::min(min_loc, min_locs[i]); } printf("=======\nvysledek: %u\n", min_loc); auto time_total = end_time - start_time; printf("time total: %lld s\n", std::chrono::duration_cast(time_total).count()); std::cout << "Hello World!\n"; } // Run program: Ctrl + F5 or Debug > Start Without Debugging menu // Debug program: F5 or Debug > Start Debugging menu // Tips for Getting Started: // 1. Use the Solution Explorer window to add/manage files // 2. Use the Team Explorer window to connect to source control // 3. Use the Output window to see build output and other messages // 4. Use the Error List window to view errors // 5. Go to Project > Add New Item to create new code files, or Project > Add Existing Item to add existing code files to the project // 6. In the future, to open this project again, go to File > Open > Project and select the .sln file