![[jzoj 5664] [GDOI2018Day1模拟4.6] 凫趋雀跃 解题报告(容斥原理)](https://image.shishitao.com:8440/aHR0cHM6Ly9ia3FzaW1nLmlrYWZhbi5jb20vdXBsb2FkL2NoYXRncHQtcy5wbmc%2FIQ%3D%3D.png?!?w=700&webp=1 "[jzoj 5664] [GDOI2018Day1模拟4.6] 凫趋雀跃 解题报告(容斥原理)")
interlinkage:
https://jzoj.net/senior/#contest/show/2703/3
description:
![[jzoj 5664] [GDOI2018Day1模拟4.6] 凫趋雀跃 解题报告(容斥原理)](https://image.shishitao.com:8440/aHR0cHM6Ly9pbWcyMDE4LmNuYmxvZ3MuY29tL2Jsb2cvMTQxODM2My8yMDE5MDQvMTQxODM2My0yMDE5MDQwNjIxMjYzOTcyNy04NTg5ODA0NjYucG5n.png?w=700&webp=1 "[jzoj 5664] [GDOI2018Day1模拟4.6] 凫趋雀跃 解题报告(容斥原理)")
![[jzoj 5664] [GDOI2018Day1模拟4.6] 凫趋雀跃 解题报告(容斥原理)](https://image.shishitao.com:8440/aHR0cHM6Ly9pbWcyMDE4LmNuYmxvZ3MuY29tL2Jsb2cvMTQxODM2My8yMDE5MDQvMTQxODM2My0yMDE5MDQwNjIxMjcwOTI4OS0xOTkzMzA4NTQ4LnBuZw%3D%3D.png?w=700&webp=1 "[jzoj 5664] [GDOI2018Day1模拟4.6] 凫趋雀跃 解题报告(容斥原理)")
solution:
考虑容斥原理,枚举不合法的走的步数
$f_{p,x,y}$表示任意走$p$步走到$x$,$y$的方案数
$g_{p,x}$表示走不合法的步走$p$步走到$(10*x,10*x)$的方案数
$g$数组很好得到,发现$f$数组直接暴力转移时间复杂度不对
但是随意走在横轴和竖轴上是独立的,因此我们可以设$fx_{p,x}$表示在横轴上走$p$步走到位置$x$的方案数,同理得到$fy$数组
$f_{p,x,y}=fx_{p,x}*fy_{p,y}$
那么$ans=\sum_{i=0}^{R}\dbinom{R}{i}\sum_{z=0}^{min(Tx,Ty)/10}g_{i,z}*f_{R-i,Tx-10*z,Ty-10*z}$
注意因为零向量不可走,方便处理我们将它加入不可走的数组中即可,因为$0 \mod 10=0$也是成立的
code:
#include<iostream>
#include<cstring>
#include<cstdio>
#include<cmath>
#include<algorithm>
using namespace std;
typedef long long ll; const int M=+;
const int mo=1e4+;
int Tx,Ty,Mx,My,R,K;
int fx[M][M],fy[M][M],sum[M],kk[M],g[M][M],C[M][M];
int main()
{
freopen("jump.in","r",stdin);
freopen("jump.out","w",stdout);
scanf("%d%d%d%d%d%d",&Tx,&Ty,&Mx,&My,&R,&K);
for (int j=;j<=Tx;j++) sum[j]=;
for (int i=;i<=R;i++)
{
for (int j=;j<=Tx;j++)
{
if (j>Mx) fx[i][j]=((sum[j]-sum[j-Mx-])%mo+mo)%mo;
else fx[i][j]=sum[j];
}
sum[]=fx[i][];
for (int j=;j<=Tx;j++) sum[j]=(sum[j-]+fx[i][j])%mo;
}
for (int j=;j<=Ty;j++) sum[j]=;
for (int i=;i<=R;i++)
{
for (int j=;j<=Ty;j++)
{
if (j>My) fy[i][j]=((sum[j]-sum[j-My-])%mo+mo)%mo;
else fy[i][j]=sum[j];
}
sum[]=fy[i][];
for (int j=;j<=Ty;j++) sum[j]=(sum[j-]+fy[i][j])%mo;
}
for (int i=;i<=K;i++) scanf("%d",&kk[i]);kk[++K]=;
g[][]=;
for (int k=;k<=R;k++)
{
for (int i=;*i<=min(Tx,Ty);i++)
{
for (int j=;j<=K;j++)
if (i>=kk[j]/)
{
(g[k][i]+=g[k-][i-kk[j]/])%=mo;
}
}
}
C[][]=;
for (int i=;i<=R;i++)
{
C[i][]=;
for (int j=;j<=i;j++) C[i][j]=(C[i-][j-]+C[i-][j])%mo;
}
int ans=;
for (int i=;i<=R;i++)
{
if (i&)
{
for (int z=;z*<=min(Tx,Ty);z++) (ans-=1ll*C[R][i]*g[i][z]%mo*fx[R-i][Tx-*z]%mo*fy[R-i][Ty-*z]%mo)%=mo;
}
else
{
for (int z=;z*<=min(Tx,Ty);z++) (ans+=1ll*C[R][i]*g[i][z]%mo*fx[R-i][Tx-*z]%mo*fy[R-i][Ty-*z]%mo)%=mo;
}
}
ans=(ans%mo+mo)%mo;
printf("%d\n",ans);
return ;
}