UVa 10392 Factoring Large Numbers:素因子分解2014-07-18 csdn博客 synapse710392 - Factoring Large NumbersTime limit: 3.000 secondshttp://uva.onlinejudge.org/index.php?option=com_onlinejudge&Itemid=8&category=100&page=show_problem&problem=1333One of the central ideas behind much cryptography is that factoring large numbers is computationally intensive. In this context one might use a 100 digit number that was a product of two 50 digit prime numbers. Even with the fastest projected computers this factorization will take hundreds of years.You don"t have those computers available, but if you are clever you can still factor fairly large numbers.InputThe input will be a sequence of integer values, one per line, terminated by a negative number. The numbers will fit in gcc"s long long int datatype. You may assume that there will be at most one factor more than 1000000.OutputEach positive number from the input must be factored and all factors (other than 1) printed out. The factors must be printed in ascending order with 4 leading spaces preceding a left justified number, and followed by a single blank line.Sample Input9012345678911899132545313912745267386521023-1Sample Output2335123456789133131792711381242330971411522630413water.完整代码:
/*0.016s*/#include<cstdio>#include<cstring>#include<cmath>typedef long long LL;const int maxn = 100000;LL prime[maxn], c;bool vis[maxn];inline void make_prime(){LL i, j;for (i = 2; i < maxn; i++)if (!vis[i]){prime[c++] = i;for (j = i * i; j < maxn; j += i)vis[j] = true;}}int main(){LL n, i, x;make_prime();while (scanf("%lld", &n), ~n){x = sqrt(n);for (i = 0; prime[i] <= x && i < c;){if (n % prime[i] == 0){printf("%lld
", prime[i]);n /= prime[i];if (n == 1) break;}else ++i;}if (n != 1) printf("%lld
", n);///there will be at most one factor more than 1000000putchar("
");}return 0;} 
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