题意:
韩信有若干个兵,给定你若干个模数和余数,再给你一个1e18以内的范围限制,求解同余方程组,如果无解,输出“他一定在撒谎”,如果最小解超出范围限制,输出“他可能在撒谎”,否则输出最小解
注意:不保证模数互质,也不保证“他可能在撒谎”的情况答案不爆long long
题解:
因为不保证模数互质,需要用excrt求解。
假算法:把excrt的板子翻译成python,然后一脸自闭地调程序
n=0 m=0 bi=[] ai=[] def ggcd(_m,_n): if _n == 0: _x = 1 _y = 0 return _m,_x _a1 = _b = 1 _a = _b1 = 0 _c = _m _d = _n _q = int(_c//_d) _r = _c%_d while _r: _c = _d _d = _r _t = _a1 _a1 = _a _a = _t-_q*_a _t = _b1 _b1 = _b _b = _t-_q*_b _q = int(_c//_d) _r = _c%_d _x = _a _y = _b return _d,_x def excrt(): x=0 y=0 k=0 gcd=0 M=bi[1] ans=ai[1] #print(ai[1],bi[1]) i=2 while(i<=n): a=M b=bi[i] c=(ai[i]-ans%b+b)%b gcd,x=ggcd(a,b) bg=b//gcd if(c%gcd!=0): return -1 x=(x*c//gcd)%bg ans=ans+(x*M) M=M*bg ans=(ans+M)%M #print(M,ans,a,b,c,gcd,bg,x) i=i+1 return (ans%M+M)%M #xx=0 #yy=0 #print(exgcd(3,6,xx,yy)) n,m = map(int,input().split()) i=1 ai.append(0) bi.append(0) while(i<=n): u,v=map(int,input().split()) bi.append(u) ai.append(v) i=i+1 anss=excrt() if(anss<0): print("he was definitely lying") elif(anss>m): print("he was probably lying") else: print(anss) #不要吐槽我的空格tab混用了
正解:先暴力枚举,计算两两模数的gcd,判断同余方程组是否有解,在保证有解的情况下,将excrt中的模乘过程改成暴力加(龟龟速乘?),一旦超出范围立刻停止运算。
此方法仅适用于同余方程数量和数值都较小的情况。
#include<bits/stdc++.h> using namespace std; typedef long long ll; ll ans,n,a[105],p[105],base,M; const char *definitely_lie = "he was definitely lying"; const char *probably_lie = "he was probably lying"; int main(){ cin >> n >> M; for (int i=0;i<n;i++) cin >> p[i] >> a[i]; for (int i=0;i<n;i++) for (int j=i+1;j<n;j++){ ll d=__gcd(p[i],p[j]); if (d!=1){ if (a[i]%d!=a[j]%d){ puts(definitely_lie); return 0; } } } ans=0; base=1; for (int i=0;i<n;i++){ while (ans%p[i]!=a[i]) { ans+=base; if (ans>M){ puts(probably_lie); return 0; } } ll gg=p[i]/__gcd(base,p[i]); if (M/base>=gg) base*=gg; else { for (int j=i+1;j<n;j++) if (ans%p[j]!=a[j]){ puts(probably_lie); return 0; } printf("%lld ",ans); return 0; } } for (int i=0; i<n; i++) assert(ans % p[i] == a[i]); printf("%lld ",ans); return 0; }