Some Code Template Just for Fun.
View the Project on GitHub Yuri3-xr/CP-library
#include "Number_Theory/Prime_Sieve.hpp"
#pragma once #include "../Template/Template.hpp" std::vector<int> prime_sieve(int N) { std::vector<bool> sieve(N / 3 + 1, 1); for (int p = 5, d = 4, i = 1, sqn = sqrt(N); p <= sqn; p += d = 6 - d, i++) { if (!sieve[i]) continue; for (int q = p * p / 3, r = d * p / 3 + (d * p % 3 == 2), s = 2 * p, qe = sieve.size(); q < qe; q += r = s - r) sieve[q] = 0; } std::vector<int> ret{2, 3}; for (int p = 5, d = 4, i = 1; p <= N; p += d = 6 - d, i++) if (sieve[i]) ret.push_back(p); while (!ret.empty() && ret.back() > N) ret.pop_back(); return ret; }
#line 2 "Number_Theory/Prime_Sieve.hpp" #line 2 "Template/Template.hpp" #include <bits/stdc++.h> using i64 = std::int64_t; #line 4 "Number_Theory/Prime_Sieve.hpp" std::vector<int> prime_sieve(int N) { std::vector<bool> sieve(N / 3 + 1, 1); for (int p = 5, d = 4, i = 1, sqn = sqrt(N); p <= sqn; p += d = 6 - d, i++) { if (!sieve[i]) continue; for (int q = p * p / 3, r = d * p / 3 + (d * p % 3 == 2), s = 2 * p, qe = sieve.size(); q < qe; q += r = s - r) sieve[q] = 0; } std::vector<int> ret{2, 3}; for (int p = 5, d = 4, i = 1; p <= N; p += d = 6 - d, i++) if (sieve[i]) ret.push_back(p); while (!ret.empty() && ret.back() > N) ret.pop_back(); return ret; }