题目大意
给出一个数 (n),你要构造一个数列,满足里面每个数都是 (n) 的因子,且每一个数与前面不互质的个数不超过 (1)。问有多少种合法方案。
保证 (n) 的不同质因子个数 (le 6)。
思路
这个题不是很难,只是比较难写。不过 (Theta(6 imes 3^6)) 的做法感觉比较有意思,但是我写的是玄学时间复杂度的做法。
我们可以看出数列长度最大也就 (12),而且质因子个数也很少,不难想到状压 dp,我们发现这个状压 dp 完全没有什么难点,直接 (f_{S,x}) 表示当前状态为 (S),已经填了 (x) 位的方案数。对于一个状态,肯定是每个质因子的状态组合起来,你发现重要的不过就是这个质因子出现了几次,如果只出现一次是哪些质因子一起出现的。你把这个压进状态就好了。
似乎预处理了之后转移可以更快,但是懒得了。
( exttt{Code})
#include <bits/stdc++.h>
using namespace std;
#define Int register int
#define mod 1000000007
#define ll long long
template <typename T> inline void read (T &t){t = 0;char c = getchar();int f = 1;while (c < '0' || c > '9'){if (c == '-') f = -f;c = getchar();}while (c >= '0' && c <= '9'){t = (t << 3) + (t << 1) + c - '0';c = getchar();} t *= f;}
template <typename T,typename ... Args> inline void read (T &t,Args&... args){read (t);read (args...);}
template <typename T> inline void write (T x){if (x < 0){x = -x;putchar ('-');}if (x > 9) write (x / 10);putchar (x % 10 + '0');}
ll N;
int cnt,yz[15],pw[15];
int mul (int a,int b){return 1ll * a * b % mod;}
int dec (int a,int b){return a >= b ? a - b : a + mod - b;}
int add (int a,int b){return a + b >= mod ? a + b - mod : a + b;}
void Mul (int &a,int b){a = mul (a,b);}
void Dec (int &a,int b){a = dec (a,b);}
void Add (int &a,int b){a = add (a,b);}
void Makeyz (ll n){
for (Int i = 2;1ll * i * i <= n;++ i){
if (n % i == 0){
yz[++ cnt] = i;
while (n % i == 0) n /= i,pw[cnt] ++;
}
}
if (n > 1) yz[++ cnt] = n,pw[cnt] = 1;
}
int f[1 << 19][15];
signed main(){
read (N),Makeyz (N);
f[0][0] = 1;int ans = 0;
for (Int x = 0;x < cnt * 2;++ x){
for (Int nowS = 0;nowS < (1 << cnt * 3);++ nowS){
if (!f[nowS][x]) continue;
vector <int> unused,cho;
bool used[12] = {};
for (Int i = 1;i <= cnt;++ i){
int k = nowS >> (i - 1) * 3 & 7;
if (!k) unused.push_back (i);
else if (k < 7 && !used[k]) cho.push_back (i),used[k] = 1;
}
int siz1 = unused.size(),siz2 = cho.size();
for (Int S = 0;S < (1 << siz1);++ S){
int kase = 1,S1 = 0,fir = 0;
for (Int i = 0;i < siz1;++ i) if (S >> i & 1)
fir = fir ? fir : unused[i],Mul (kase,pw[unused[i]]),S1 |= (1 << (unused[i] - 1) * 3) * fir;
if (S) Add (f[nowS | S1][x + 1],mul (kase,f[nowS][x]));
if (!cho.size()) continue;
for (Int u : cho){
int k = nowS >> (u - 1) * 3 & 7,siz2 = 0;
vector <int> uni;
for (Int i = 1;i <= cnt;++ i) if ((nowS >> (i - 1) * 3 & 7) == k) uni.push_back (i);
siz2 = uni.size();
for (Int choS = 1;choS < (1 << siz2);++ choS){
int newS = nowS | S1,fir = 0x7f7f7f7f,kase1 = 1;
for (Int i = 0;i < siz2;++ i)
if (choS >> i & 1) newS -= (1 << (uni[i] - 1) * 3) * (k - 7),Mul (kase1,pw[uni[i]]);
else fir = min (fir,uni[i]);
for (Int i = 0;i < siz2;++ i) if (!(choS >> i & 1)) newS -= (1 << (uni[i] - 1) * 3) * (k - fir);
Add (f[newS][x + 1],mul (f[nowS][x],mul (kase,kase1)));
}
}
}
}
}
for (Int x = 1;x <= cnt * 2;++ x) for (Int nowS = 0;nowS < (1 << cnt * 3);++ nowS) Add (ans,f[nowS][x]);
write (ans),putchar ('
');
return 0;
}