POJ 2932 Coneology (平面扫描)
2016-05-15 14:08
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Coneology
Description
A student named Round Square loved to play with cones. He would arrange cones with different base radii arbitrarily on the floor and would admire the intrinsic beauty of the arrangement. The student even began theorizing about how some cones dominate other
cones: a cone A dominates another cone B when cone B is completely within the cone A. Furthermore, he noted that there are some cones that not only dominate others, but are themselves dominated, thus creating complex domination
relations. After studying the intricate relations of the cones in more depth, the student reached an important conclusion: there exist some cones, all-powerful cones, that have unique properties: an all-powerful cone is not dominated by any other
cone. The student became so impressed by the mightiness of the all-powerful cones that he decided to worship these all-powerful cones.
Unfortunately, after having arranged a huge number of cones and having worked hard on developing this grandiose cone theory, the student become quite confused with all these cones, and he now fears that he might worship the wrong cones (what if there is
an evil cone that tries to trick the student into worshiping it?). You need to help this student by finding the cones he should worship.
Input
The input le specifies an arrangement of the cones. There are in total N cones (1 ≤ N ≤ 40000). Cone i has radius and height equal to Ri, i = 1 … N. Each cone is hollow on the inside and has
no base, so it can be placed over another cone with smaller radius. No two cones touch.
The first line of the input contains the integer N. The next N lines each contain three real numbers Ri, xi, yi separated by spaces, where (xi, yi)
are the coordinates of the center of the base of cone i.
Output
The first line of the output le should contain the number of cones that the student should worship. The second line contains the indices of the cones that the student should worship in increasing order. Two consecutive numbers should be separated by a single
space.
Sample Input
Sample Output
题意:
平面上有N个两两没有公共点的圆,i号圆的圆心在(xi,yi),半径为ri。求所有最外层的,即不包含于其他圆内部的圆。
分析:
在几何问题中,我们经常利用平面扫描技术来降低算法的复杂度。所谓平面扫描,是指扫描线在平面上按给定的轨迹移动的同时,不断根据扫描线扫过的部分更新信息,从而得到整体所要求得结果的方法。扫描的方法,既可以从左向右平移与y轴平行的直线,也可以固定射线的端点逆时针转动。
对于这道题,我们从左向右平移与y轴平行的直线的同时,维护与扫描线相交的最外层的圆的集合。从左向右移动的过程中,只有扫描线移动到圆的左右两端时,圆与扫描线的相交关系才会发生变化,因此我们先将所有的这样的x坐标枚举出来并排好序。
首先,我们来看一下扫描线移动到某个圆的左端时的情况。此时,我们需要判断该圆是否包含在其他圆中。为此,我们只需从当前与扫描线相交的最外层的圆中,找到上下两侧y坐标方向距离最近的两个圆,并检查他们就足够了。这是因为,假设该圆被包含于更远的圆中,却不被包含于最近的圆中,就会如下图所示,得出两圆相交的结论。而这与题目所给的条件不符。于是,只要用二叉查找树来维护这些圆,就能够在O(logn)时间内取得待检查的圆了。
其次,我们看一下扫描线移动到某个圆的右端时的情形。此时的处理很简单,如果该圆已经包含于其他圆中就什么也不做,如果是最外层的圆就将它从二叉树中删去。综上,总的复杂度为O(nlogn)。
| Time Limit: 5000MS | Memory Limit: 65536K | |
| Total Submissions: 3713 | Accepted: 720 |
A student named Round Square loved to play with cones. He would arrange cones with different base radii arbitrarily on the floor and would admire the intrinsic beauty of the arrangement. The student even began theorizing about how some cones dominate other
cones: a cone A dominates another cone B when cone B is completely within the cone A. Furthermore, he noted that there are some cones that not only dominate others, but are themselves dominated, thus creating complex domination
relations. After studying the intricate relations of the cones in more depth, the student reached an important conclusion: there exist some cones, all-powerful cones, that have unique properties: an all-powerful cone is not dominated by any other
cone. The student became so impressed by the mightiness of the all-powerful cones that he decided to worship these all-powerful cones.
Unfortunately, after having arranged a huge number of cones and having worked hard on developing this grandiose cone theory, the student become quite confused with all these cones, and he now fears that he might worship the wrong cones (what if there is
an evil cone that tries to trick the student into worshiping it?). You need to help this student by finding the cones he should worship.
Input
The input le specifies an arrangement of the cones. There are in total N cones (1 ≤ N ≤ 40000). Cone i has radius and height equal to Ri, i = 1 … N. Each cone is hollow on the inside and has
no base, so it can be placed over another cone with smaller radius. No two cones touch.
The first line of the input contains the integer N. The next N lines each contain three real numbers Ri, xi, yi separated by spaces, where (xi, yi)
are the coordinates of the center of the base of cone i.
Output
The first line of the output le should contain the number of cones that the student should worship. The second line contains the indices of the cones that the student should worship in increasing order. Two consecutive numbers should be separated by a single
space.
Sample Input
5 1 0 -2 3 0 3 10 0 0 1 0 1.5 10 50 50
Sample Output
2 3 5
题意:
平面上有N个两两没有公共点的圆,i号圆的圆心在(xi,yi),半径为ri。求所有最外层的,即不包含于其他圆内部的圆。
分析:
在几何问题中,我们经常利用平面扫描技术来降低算法的复杂度。所谓平面扫描,是指扫描线在平面上按给定的轨迹移动的同时,不断根据扫描线扫过的部分更新信息,从而得到整体所要求得结果的方法。扫描的方法,既可以从左向右平移与y轴平行的直线,也可以固定射线的端点逆时针转动。
对于这道题,我们从左向右平移与y轴平行的直线的同时,维护与扫描线相交的最外层的圆的集合。从左向右移动的过程中,只有扫描线移动到圆的左右两端时,圆与扫描线的相交关系才会发生变化,因此我们先将所有的这样的x坐标枚举出来并排好序。
首先,我们来看一下扫描线移动到某个圆的左端时的情况。此时,我们需要判断该圆是否包含在其他圆中。为此,我们只需从当前与扫描线相交的最外层的圆中,找到上下两侧y坐标方向距离最近的两个圆,并检查他们就足够了。这是因为,假设该圆被包含于更远的圆中,却不被包含于最近的圆中,就会如下图所示,得出两圆相交的结论。而这与题目所给的条件不符。于是,只要用二叉查找树来维护这些圆,就能够在O(logn)时间内取得待检查的圆了。
其次,我们看一下扫描线移动到某个圆的右端时的情形。此时的处理很简单,如果该圆已经包含于其他圆中就什么也不做,如果是最外层的圆就将它从二叉树中删去。综上,总的复杂度为O(nlogn)。
#include <cstdio>
#include <vector>
#include <set>
#include <algorithm>
using namespace std;
const int maxn = 40000 + 10;
int n;
double x[maxn], y[maxn], r[maxn];
//判断圆i是否在圆j的内部
bool inside(int i, int j)
{
double dx = x[i] - x[j];
double dy = y[i] - y[j];
return dx * dx + dy * dy <= r[j] * r[j];
}
void solve()
{
//枚举关键点
vector<pair<double, int> > events; //圆的左右两端的x坐标
for (int i = 0; i < n; i++){
events.push_back(make_pair(x[i] - r[i], i)); //圆的左端
events.push_back(make_pair(x[i] + r[i], i + n)); //圆的右端
}
sort(events.begin(), events.end());
//平面扫描
set<pair<double, int> > outers; //与扫描线相交的最外层的圆的集合
vector<int> res; //最外层圆的列表
for (int i = 0; i < events.size(); i++){
int id = events[i].second % n;
if (events[i].second < n){ //扫描到左端
set<pair<double, int> > :: iterator it = outers.lower_bound(make_pair(y[id], id));
if (it != outers.end() && inside(id, it -> second))
continue;
if (it != outers.begin() && inside(id, (--it) -> second))
continue;
res.push_back(id);
outers.insert(make_pair(y[id], id));
}
else{ //扫描到右端
outers.erase(make_pair(y[id], id));
}
}
sort(res.begin(), res.end());
printf("%d\n", res.size());
for (int i = 0; i < res.size(); i++){
printf("%d%c", res[i] + 1, i + 1 == res.size() ? '\n' : ' ');
}
}
int main()
{
scanf("%d", &n);
for (int i = 0; i < n; i++){
scanf("%lf%lf%lf", &r[i], &x[i], &y[i]);
}
solve();
return 0;
}
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