Number of Proper Fractions with Denominator d
If n is the numerator and d the denominator of a fraction, that fraction is defined a (reduced) proper fraction if and only if GCD(n,d)==1.
For example 5/16 is a proper fraction, while 6/16 is not, as both 6 and 16 are divisible by 2, thus the fraction can be reduced to 3/8.
Now, if you consider a given number d, how many proper fractions can be built using d as a denominator?
For example, let's assume that d is 15: you can build a total of 8 different proper fractions between 0 and 1 with it: 1/15, 2/15, 4/15, 7/15, 8/15, 11/15, 13/15 and 14/15.
You are to build a function that computes how many proper fractions you can build with a given denominator:
proper_fractions(1)==0
proper_fractions(2)==1
proper_fractions(5)==4
proper_fractions(15)==8
proper_fractions(25)==20Be ready to handle big numbers.
Edit: to be extra precise, the term should be "reduced" fractions, thanks to girianshiido for pointing this out and sorry for the use of an improper word :)
自己刚刚开始是暴利求解,发现复杂度太高了,不行,最后网上一查 才知道有欧拉函数的存在
对正整数n,欧拉函数是少于或等于n的数中与n互质的数的数目
public class ProperFractions {
public static long properFractions(long n) {
// good luck
if (n==1) return 0;
long res=n,a=n;
for (long i=2;i<=Math.sqrt(a);i++)
{
if (a%i==0)
{
res=res/i*(i-1);
while (a%i==0)
a/=i;
}
}
if (a>1) res=res/a*(a-1);
return res;
}
}
了解欧拉函数可以查看
浅谈欧拉函数
欧拉函数
https://blog.csdn.net/sentimental_dog/article/details/52002608