2618: [Cqoi2006]凸多边形
Time Limit: 5 Sec Memory Limit: 128 MB
Submit: 959 Solved: 489
[Submit][Status][Discuss]
Description
逆时针给出n个凸多边形的顶点坐标,求它们交的面积。例如n=2时,两个凸多边形如下图:
则相交部分的面积为5.233。
Input
第一行有一个整数n,表示凸多边形的个数,以下依次描述各个多边形。第i个多边形的第一行包含一个整数mi,表示多边形的边数,以下mi行每行两个整数,逆时针给出各个顶点的坐标。
Output
输出文件仅包含一个实数,表示相交部分的面积,保留三位小数。
Sample Input
2
6
-2 0
-1 -2
1 -2
2 0
1 2
-1 2
4
0 -3
1 -1
2 2
-1 0
6
-2 0
-1 -2
1 -2
2 0
1 2
-1 2
4
0 -3
1 -1
2 2
-1 0
Sample Output
5.233
HINT
100%的数据满足:2<=n<=10,3<=mi<=50,每维坐标为[-1000,1000]内的整数
Source
Solution
裸半平面交
这里用的O(n^{2})的增量法,求完半平面交后再求多边形面积就好了,三角剖分一下就可以
一个不错的讲解
具体的做法:
•初始化时加上一个范围巨大的“框”
•每次拿一个新的半平面切割原先的凸集
•保留在新加直线左边的点,删除右边的,有向直线与多边形相交产生的新的点加入到新多边形内
Code
#include<cstdio>
#include<iostream>
#include<algorithm>
#include<cstring>
#include<cmath>
#include<vector>
#include<cstdlib>
using namespace std;
struct Vector
{
double x,y;
Vector(double X=,double Y=) {x=X,y=Y;}
};
typedef Vector Point;
typedef vector<Point> Polygon;
Polygon polygon;
#define MAXN 20
#define MAXM 100
Point P[MAXN][MAXM];
#define eps 1e-8
#define INF 1000
const double pi= acos(-1.0);
Vector operator + (Vector A,Vector B) {return ((Vector){A.x+B.x,A.y+B.y});}
Vector operator - (Vector A,Vector B) {return ((Vector){A.x-B.x,A.y-B.y});}
Vector operator * (Vector A,double p) {return ((Vector){A.x*p,A.y*p});}
Vector operator / (Vector A,double p) {return ((Vector){A.x/p,A.y/p});}
int dcmp(double x) {if(fabs(x)<eps) return ; else return x<? -:;}
bool operator == (const Vector& a,const Vector& b) {return dcmp(a.x-b.x)==&&dcmp(a.y-b.y)==;}
double Dot(Vector A,Vector B) {return A.x*B.x+A.y*B.y;}
double Len(Vector A) {return sqrt(Dot(A,A));}
double Cross(Vector A,Vector B) {return A.x*B.y-A.y*B.x;}
Point GLI(Point P,Vector v,Point Q,Vector w) {Vector u=P-Q; double t=Cross(w,u)/Cross(v,w); return P+v*t;}
double DisTL(Point P,Point A,Point B) {Vector v1=B-A,v2=P-A; return fabs(Cross(v1,v2)/Len(v1));}
bool OnSegment(Point P,Point A,Point B) {return dcmp(DisTL(P,A,B))==&&dcmp(Dot(P-A,P-B))<&&!(P==A)&&!(P==B);}
double PolygonArea(Polygon p)
{
double area=;
int n=p.size();
for(int i=;i<n-;i++)
area+=Cross(p[i]-p[],p[i+]-p[]);
return area/;
}
Polygon CutPolygon(Polygon poly,Point A,Point B)
{
Polygon newpoly;
Point C,D,ip;
int n=poly.size(),i;
for(i=;i<n;i++)
{
C=poly[i];
D=poly[(i+)%n];
if(dcmp(Cross(B-A,C-A))>=)
newpoly.push_back(C);
if(dcmp(Cross(B-A,D-C))!=)
{
ip=GLI(A,B-A,C,D-C);
if(OnSegment(ip,C,D))
newpoly.push_back(ip);
}
}
return newpoly;
}
void InitPolygon(Polygon &poly,double inf)
{
poly.clear();
poly.push_back((Point){-inf,-inf});
poly.push_back((Point){inf,-inf});
poly.push_back((Point){inf,inf});
poly.push_back((Point){-inf,inf});
}
void Debug()
{
for (int j=; j<polygon.size(); j++)
printf("(%.1lf,%.1lf)-->",polygon[j].x,polygon[j].y);
printf("(%.1lf,%.1lf)",polygon[].x,polygon[].y);
puts("");
}
int main()
{
int N,M;
scanf("%d",&N);
InitPolygon(polygon,INF);
for (int i=; i<=N; i++)
{
scanf("%d",&M);
for (int j=; j<=M; j++)
scanf("%lf%lf",&P[i][j].x,&P[i][j].y);
P[i][M+]=P[i][];
for (int j=; j<=M; j++)
{polygon=CutPolygon(polygon,P[i][j],P[i][j+]); /*Debug();*/}
}
printf("%.3lf\n",PolygonArea(polygon));
return ;
}
自己调个模板,p事怎么这么多QAQ