[BZOJ3080]Minimum Variance Spanning Tree/[BZOJ3754]Tree之最小方差树 [BZOJ3080]Minimum Variance Spanning Tree/[BZOJ3754]Tree之最小方差树
题目大意:
给定一个(n(nle50))个点,(m(mle1000))条边的带权无向图,每条边的边权为(w_i(w_ile50))。求最小方差生成树。
3080数据范围:(nle50,mle1000,w_ile50);
3754数据范围:(nle100,mle1000,w_ile100)。
其中3754询问的是最小标准差。
思路:
由于(w_i)很小,因此我们可以枚举树上的边权和(sum w_i),以((w_i-ar w)^2)为新的边权做最小生成树。若最后树上的(sum w_i=)一开始枚举的值,那么就更新答案。
源代码(3080):
#include<cstdio>
#include<cctype>
#include<algorithm>
inline int getint() {
register char ch;
while(!isdigit(ch=getchar()));
register int x=ch^'0';
while(isdigit(ch=getchar())) x=(((x<<2)+x)<<1)+(ch^'0');
return x;
}
const int N=51,M=1001;
double d;
inline double sqr(const double &x) {
return x*x;
}
struct Edge {
int u,v,w;
bool operator < (const Edge &rhs) const {
return sqr(w-d)<sqr(rhs.w-d);
}
};
Edge edge[M];
class DisjointSet {
private:
int anc[N];
int find(const int &x) {
return x==anc[x]?x:anc[x]=find(anc[x]);
}
public:
void reset(const int &n) {
for(register int i=1;i<=n;i++) anc[i]=i;
}
void merge(const int &x,const int &y) {
anc[find(x)]=find(y);
}
bool same(const int &x,const int &y) {
return find(x)==find(y);
}
};
DisjointSet djs;
int main() {
for(register int i=1;;i++) {
const int n=getint(),m=getint();
if(n==0&&m==0) return 0;
for(register int i=1;i<=m;i++) {
edge[i].u=getint();
edge[i].v=getint();
edge[i].w=getint();
}
d=0;
std::sort(&edge[1],&edge[m]+1);
int l=0,r=0;
for(register int i=1;i<n;i++) l+=edge[i].w;
for(register int i=m;i>m-n+1;i--) r+=edge[i].w;
double ans=1e18;
for(register int i=l;i<=r;i++) {
d=1.*i/(n-1);
std::sort(&edge[1],&edge[m]+1);
djs.reset(n);
int sum1=0;
double sum2=0;
for(register int i=1;i<=m;i++) {
const int &u=edge[i].u,&v=edge[i].v;
if(djs.same(u,v)) continue;
djs.merge(u,v);
sum1+=edge[i].w;
sum2+=sqr(edge[i].w-d);
}
if(sum1==i) {
ans=std::min(ans,sum2/(n-1));
}
}
printf("Case %d: %.2f
",i,ans);
}
}
源代码(3754):
#include<cmath>
#include<cstdio>
#include<cctype>
#include<algorithm>
inline int getint() {
register char ch;
while(!isdigit(ch=getchar()));
register int x=ch^'0';
while(isdigit(ch=getchar())) x=(((x<<2)+x)<<1)+(ch^'0');
return x;
}
const int N=101,M=2001;
double d;
inline double sqr(const double &x) {
return x*x;
}
struct Edge {
int u,v,w;
bool operator < (const Edge &rhs) const {
return sqr(w-d)<sqr(rhs.w-d);
}
};
Edge edge[M];
class DisjointSet {
private:
int anc[N];
int find(const int &x) {
return x==anc[x]?x:anc[x]=find(anc[x]);
}
public:
void reset(const int &n) {
for(register int i=1;i<=n;i++) anc[i]=i;
}
void merge(const int &x,const int &y) {
anc[find(x)]=find(y);
}
bool same(const int &x,const int &y) {
return find(x)==find(y);
}
};
DisjointSet djs;
int main() {
const int n=getint(),m=getint();
for(register int i=1;i<=m;i++) {
edge[i].u=getint();
edge[i].v=getint();
edge[i].w=getint();
}
std::sort(&edge[1],&edge[m]+1);
int l=0,r=0;
for(register int i=1;i<n;i++) l+=edge[i].w;
for(register int i=m;i>m-n+1;i--) r+=edge[i].w;
double ans=1e18;
for(register int i=l;i<=r;i++) {
d=1.*i/(n-1);
std::sort(&edge[1],&edge[m]+1);
djs.reset(n);
int sum1=0;
double sum2=0;
for(register int i=1;i<=m;i++) {
const int &u=edge[i].u,&v=edge[i].v;
if(djs.same(u,v)) continue;
djs.merge(u,v);
sum1+=edge[i].w;
sum2+=sqr(edge[i].w-d);
}
if(sum1==i) {
ans=std::min(ans,sum2/(n-1));
}
}
printf("%.4f
",sqrt(ans));
}