逆元
纯属复习
#include <cstdio>
#include <cstring>
#include <cmath>
#include <algorithm>
#include <stack>
using namespace std;
#define f(i,x,y) for(int (i)=x;(i)<=(y);(i)++)
#define fp(i,x,y) for(int (i)=x;(i)>=(y);(i)--)
long long read(){
long long op=1,a=0;char c=getchar();
while(c<'0'||c>'9') {if(c=='-') op=-1;c=getchar();}
while(c>='0'&&c<='9') {a*=10,a+=c^48,c=getchar();}
return a*op;
}
const int maxn=3e6+10;
#define int long long
int inv[maxn],mod,n;
//线性求逆元
void init_xianxing(){
inv[1]=1;
f(i,2,n) inv[i]=(long long)(mod-mod/i)*inv[mod%i]%mod;
return ;
}
//exgcd
void exgcd(int a,int b,int &x,int &y){
if(!b) x=1,y=0;
else exgcd(b,a%b,y,x),y-=a/b*x;
}
int get_exgcd_way(int a,int mod){
int x,y;
exgcd(a,mod,x,y);
x=(x%mod+mod)%mod;
return x;
}
//费马小定理
int fpm_get(int x,int p,int mod){
x%=mod;
int ans=1;
while(p){
if(p&1) (ans*=x)%=mod;
p>>=1;(x*=x)%=mod;
}
return ans;
}
#undef int
int main(){
#define int long long
n=read(),mod=read();
// init_xianxing();
// f(i,1,n) printf("%lld
",inv[i]);
// f(i,1,n) printf("%lld
",get_exgcd_way(i,mod));
f(i,1,n) printf("%lld
",fpm_get(i,mod-2,mod));
return 0;
}
裴蜀定理
关于(x,y)的不定方程(ax + by = c)有整数解的充要条件是(gcd(a, b)mid c)
#include <cstdio>
#include <cstring>
#include <cmath>
#include <algorithm>
#include <stack>
using namespace std;
#define f(i,x,y) for(int (i)=x;(i)<=(y);(i)++)
#define fp(i,x,y) for(int (i)=x;(i)>=(y);(i)--)
long long read(){
long long op=1,a=0;char c=getchar();
while(c<'0'||c>'9') {if(c=='-') op=-1;c=getchar();}
while(c>='0'&&c<='9') {a*=10,a+=c^48,c=getchar();}
return a*op;
}
const int maxn=25;
#define int long long
int n,ans;
int a[maxn];
int gcd(int x,int y){return !y?x:gcd(y,x%y);}
#undef int
int main(){
#define int long long
n=read();
f(i,1,n) {a[i]=read();if(a[i]<0) a[i]=-a[i];ans=gcd(ans,a[i]);}
printf("%lld",ans);
return 0;
}