poj 1696 Space Ant(计算几何)
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Space Ant
Time Limit: 1000MS Memory Limit: 10000KTotal Submissions: 2654 Accepted: 1681
Description
The most exciting space discovery occurred at the end of the 20th century. In 1999, scientists traced down an ant-like creature in the planet Y1999 and called it M11. It has only one eye on the left side of its head and just three feet all on the right side of its body and suffers from three walking limitations:
The pictures transmitted by the Discovery space ship depicts that plants in the Y1999 grow in special points on the planet. Analysis of several thousands of the pictures have resulted in discovering a magic coordinate system governing the grow points of the plants. In this coordinate system with x and y axes, no two plants share the same x or y.
An M11 needs to eat exactly one plant in each day to stay alive. When it eats one plant, it remains there for the rest of the day with no move. Next day, it looks for another plant to go there and eat it. If it can not reach any other plant it dies by the end of the day. Notice that it can reach a plant in any distance.
The problem is to find a path for an M11 to let it live longest.
Input is a set of (x, y) coordinates of plants. Suppose A with the coordinates (xA, yA) is the plant with the least y-coordinate. M11 starts from point (0,yA) heading towards plant A. Notice that the solution path should not cross itself and all of the turns should be counter-clockwise. Also note that the solution may visit more than two plants located on a same straight line.
- It can not turn right due to its special body structure.
- It leaves a red path while walking.
- It hates to pass over a previously red colored path, and never does that.
The pictures transmitted by the Discovery space ship depicts that plants in the Y1999 grow in special points on the planet. Analysis of several thousands of the pictures have resulted in discovering a magic coordinate system governing the grow points of the plants. In this coordinate system with x and y axes, no two plants share the same x or y.
An M11 needs to eat exactly one plant in each day to stay alive. When it eats one plant, it remains there for the rest of the day with no move. Next day, it looks for another plant to go there and eat it. If it can not reach any other plant it dies by the end of the day. Notice that it can reach a plant in any distance.
The problem is to find a path for an M11 to let it live longest.
Input is a set of (x, y) coordinates of plants. Suppose A with the coordinates (xA, yA) is the plant with the least y-coordinate. M11 starts from point (0,yA) heading towards plant A. Notice that the solution path should not cross itself and all of the turns should be counter-clockwise. Also note that the solution may visit more than two plants located on a same straight line.
Input
The first line of the input is M, the number of test cases to be solved (1 <= M <= 10). For each test case, the first line is N, the number of plants in that test case (1 <= N <= 50), followed by N lines for each plant data. Each plant data consists of three integers: the first number is the unique plant index (1..N), followed by two positive integers x and y representing the coordinates of the plant. Plants are sorted by the increasing order on their indices in the input file. Suppose that the values of coordinates are at most 100.
Output
Output should have one separate line for the solution of each test case. A solution is the number of plants on the solution path, followed by the indices of visiting plants in the path in the order of their visits.
Sample Input
2101 4 52 9 83 5 94 1 75 3 26 6 37 10 108 8 19 2 410 7 6141 6 112 11 93 8 74 12 85 9 206 3 27 1 68 2 139 15 110 14 1711 13 1912 5 1813 7 314 10 16
Sample Output
10 8 7 3 4 9 5 6 2 1 1014 9 10 11 5 12 8 7 6 13 4 14 1 3 2
Source
Tehran 1999
题意:逆时针将点包裹起来,并线段不能相交
题解:明显必定能将所有点连起来,顺序的话以某个点作为基点,利用叉积找到下一个最外的点就可以了,由于数据很细,直接暴力排序就可以了(ps:数据没有共线的情况)
#include<stdio.h>#include<math.h>#include<stdlib.h>#include<string.h>#define eps 1e-8struct point{ int id; double x,y;}p[58];double cross(struct point p1,struct point p2,struct point p3){ return (p2.x-p1.x)*(p3.y-p1.y)-(p2.y-p1.y)*(p3.x-p1.x);}int cmp(const void *a,const void *b){ struct point c=*(struct point *)a; struct point d=*(struct point *)b; double temp=cross(p[0],c,d); return temp>0?-1:1;}int cmp2(const void *a,const void *b){ struct point c=*(struct point *)a; struct point d=*(struct point *)b; if(fabs(c.y-d.y)<eps) return c.x<d.x?-1:1; else return c.y<d.y?-1:1;}int main(){ int t,i,n; scanf("%d",&t); while(t--) { scanf("%d",&n); for(i=1;i<=n;i++) scanf("%d%lf%lf",&p[i].id,&p[i].x,&p[i].y); qsort(p+1,n,sizeof(p[0]),cmp2); for(i=1;i<n;i++) { p[0]=p[i]; qsort(p+i+1,n-i,sizeof(p[0]),cmp); } printf("%d",n); for(i=1;i<=n;i++) printf(" %d",p[i].id); printf("\n"); } return 0;}
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