http://www.lydsy.com/JudgeOnline/problem.php?id=3051

http://uoj.ac/problem/57

这道题需要平面图转对偶图，点定位，最小生成树上的倍增(NOIP2013货车运输)3个步骤。

最后一个很简单了，前两个比较麻烦。。

点定位可以用玄学的梯形剖分(并不会orz)，但这里可以离线用扫描线，类似圆的异或并那道题。

平面图转对偶图要把一条边拆成两条有向边，把每条有向边<u,v>找出和它夹角最小的<v,x>，这个过程要。。。。。。。。

算了不说了，网上的题解比我说得绝对要好得多，他们的题解也十分清晰：vfk的题解，ydc的题解，zky学长的题解。

这道题细节巨多，我在set的重载运算符上坑了好久，还有set的判重机制。

据yveh说：在set里判断\(A=B\)为真要满足\(A<B\)为假且\(B<A\)为假。

一开始没注意这个，只是比较和横坐标全局变量的交点的高低，结果扫描线扫到一个点时先加进去了一些从这个点出发的向量，后来扫到进入这个点的向量时把从这个点出发的向量删除了QAQ。最后把删除和插入分开写了，惨啊。。。

代码有272行，好长啊。。

好久没写这么长的代码了。。

或者说从来没写过这么长的代码。。。。。

#include<set>

#include<cmath>

#include<vector>

#include<cstdio>

#include<cstring>

#include<algorithm>

using namespace std;

const int N = 100003;

typedef long long ll;

int in() {

	int k = 0, fh = 1; char c = getchar();

	for(; c < '0' || c > '9'; c = getchar())

		if (c == '-') fh = -1;

	for(; c >= '0' && c <= '9'; c = getchar())

		k = k * 10 + c - 48;

	return k * fh;

}

int n, M, Areanum;

struct Point {

	int x, y;

	Point(int _x = 0, int _y = 0)

		: x(_x), y(_y) {}

	Point operator + (const Point &A) const {

		return Point(x + A.x, y + A.y);

	}

	Point operator - (const Point &A) const {

		return Point(x - A.x, y - A.y);

	}

} P[N * 3];

int tot = 0;

namespace INIT {

	struct node {int nxt, to, h, from;} E[N << 1];

	int cnt = 1, nt[N << 1], mark[N << 1], st[N << 1], point[N];

	struct data {

		int id; double num;

		data(int _id = 0, double _num = 0) : id(_id), num(_num) {}

		bool operator < (const data &A) const {

			return num < A.num;

		}

	} D[N];

	void ins(int u, int v, int w) {E[++cnt] = (node) {point[u], v, w, u}; point[u] = cnt;}

	ll Cross(int a, int b) {

		return (ll) P[a].x * P[b].y - (ll) P[a].y * P[b].x;

	}

	void init() {

		int m, top, tmp, from;

		ll Cro;

		for (int i = 1; i <= n; ++i) {

			m = 0;

			for (int j = point[i]; j; j = E[j].nxt)

				D[++m] = data(j, atan2(double(P[E[j].to].y - P[i].y), double(P[E[j].to].x - P[i].x)));

			stable_sort(D + 1, D + m + 1);

			for (int j = 1; j < m; ++j)

				nt[D[j].id] = D[j + 1].id;

			nt[D[m].id] = D[1].id;

//			printf("---PointID = %d---m = %d---\n", i, m);

//			for(int j = 1; j <= m; ++j) printf("%d ", E[D[j].id].to);

//			puts("");

		}

		m = 0;

		for (int i = 2; i <= cnt; ++i)

			if (!mark[i]) {

				from = E[i].from;

				top = 1;

				st[1] = i;

				Cro = Cross(from, E[i].to);

				tmp = nt[i ^ 1];

				while (E[tmp].to != from) {

					st[++top] = tmp;

					Cro += Cross(E[tmp].from, E[tmp].to);

					tmp = nt[tmp ^ 1];

				}

				Cro += Cross(E[tmp].from, from);

				if (Cro > 0) {

					mark[tmp] = -1;

					while (top) mark[st[top--]] = -1;

				} else {

					mark[tmp] = ++m;

					while (top) mark[st[top--]] = m;

				}

			}

//		for (int i = 2; i <= cnt; ++i)

//			printf("%d ---> %d RightSide : %d\n", E[i].from, E[i].to, mark[i]);

		Areanum = m;

	}

}

namespace MST {

	struct Ed {

		int u, v, w;

		bool operator < (const Ed &A) const {

			return w < A.w;

		}

	} EDGE[N << 1];

	struct node {int nxt, to, w;} E[N << 1];

	int tot2 = 0, cnt = 0, deep[N], f[N][18], c[N][18], point[N], fa[N];

	void add(int u, int v, int w) {

		EDGE[++tot2] = (Ed) {u, v, w};

//		printf("%d <===dis = %d===> %d\n", u, w, v);

	}

	void ins(int u, int v, int w) {E[++cnt] = (node) {point[u], v, w}; point[u] = cnt;}

	int find(int x) {return fa[x] == x ? x : fa[x] = find(fa[x]);}

	void dfs(int x) {

		for (int i = point[x]; i; i = E[i].nxt)

			if (E[i].to != f[x][0]) {

				f[E[i].to][0] = x;// printf("%d --fadis = %d--> %d\n", E[i].to, E[i].w, x);

				c[E[i].to][0] = E[i].w;

				deep[E[i].to] = deep[x] + 1;

				dfs(E[i].to);

			}

	}

	void init() {

		stable_sort(EDGE + 1, EDGE + tot2 + 1);

		for (int i = 1; i <= Areanum; ++i)

			fa[i] = i;

		int x, y, fx, fy, con = 0;

		for (int i = 1; i <= tot2; ++i) {

			x = EDGE[i].u; y = EDGE[i].v;

			fx = find(x); fy = find(y);

			if (fx != fy) {

				++con;

				if (con == Areanum)	break;

				fa[fx] = fy;

				ins(x, y, EDGE[i].w);

				ins(y, x, EDGE[i].w);

			}

		}

		for (int i = 1; i <= Areanum; ++i)

			if (!deep[i]) dfs(i);

		for (int j = 1; j <= 17; ++j)

			for (int i = 1; i <= Areanum; ++i) {

				f[i][j] = f[f[i][j - 1]][j - 1];

				c[i][j] = max(c[i][j - 1], c[f[i][j - 1]][j - 1]);

			}

	}

	int Query(int u, int v) {

		if (find(u) != find(v)) return -1;

		if (deep[u] < deep[v]) swap(u, v);

		int d = deep[u] - deep[v], ans = 0;

		for (int i = 17; i >= 0; --i)

			if ((1 << i) & d) {

				ans = max(ans, c[u][i]);

				u = f[u][i];

			}

		if (u == v) return ans;

		for (int i = 17; i >= 0; --i)

			if (f[u][i] != f[v][i]) {

				ans = max(ans, max(c[u][i], c[v][i]));

				u = f[u][i];

				v = f[v][i];

			}

		return max(ans, max(c[u][0], c[v][0]));

	}

}

int id[N * 3], nowx, rfl[N * 3];

bool cmpx(int x, int y) {

	return P[x].x == P[y].x ? x < y : P[x].x < P[y].x;

}

struct setnode {

	Point u, v; int kind;

	setnode(Point _u = Point(0, 0), Point _v = Point(0, 0), int _kind = 0)

		: u(_u), v(_v), kind(_kind) {}

};

set <setnode> S;

set <setnode> :: iterator tmp;

bool operator < (setnode A, setnode B) {

	double kA = double(A.u.y) + double(nowx - A.u.x) / double(A.v.x) * A.v.y;

	double kB = double(B.u.y) + double(nowx - B.u.x) / double(B.v.x) * B.v.y;

	if (kA != kB) return kA < kB;

	else return double(A.v.y) / double(A.v.x) < double(B.v.y) / double(B.v.x);

}

int main() {

	n = in(); M = in();

	int x, y, z;

	for (int i = 1; i <= n; ++i) {

		x = in() << 1; y = in() << 1;

		P[++tot] = Point(x, y);

	}

	for (int i = 1; i <= M; ++i) {

		x = in(); y = in(); z = in();

		INIT::ins(x, y, z);

		INIT::ins(y, x, z);

	}

	INIT::init();

	z = INIT::cnt;

	for (int i = 2; i <= z; i += 2)

		if (INIT::mark[i] != -1 && INIT::mark[i ^ 1] != -1)

			MST::add(INIT::mark[i], INIT::mark[i ^ 1], INIT::E[i].h);

	MST::init();

	int q = in(); double lx, ly;

	for (int i = 1; i <= q; ++i) {

		scanf("%lf%lf", &lx, &ly);

		P[++tot] = Point(lx * 2, ly * 2);

		scanf("%lf%lf", &lx, &ly);

		P[++tot] = Point(lx * 2, ly * 2);

	}

	for (int i = 1; i <= tot; ++i)

		id[i] = i;

	int nowy, v;

	stable_sort(id + 1, id + tot + 1, cmpx);// for (int i = 1; i <= tot; ++i) printf("%d ", id[i]); puts("");

	for (int i = 1; i <= tot; ++i) {

		x = id[i]; nowx = P[x].x; nowy = P[x].y;

		if (x <= n) {

			for (int j = INIT::point[x]; j; j = INIT::E[j].nxt) {

				v = INIT::E[j].to;

				if (P[v].x == P[x].x) continue;

				if (P[v].x < P[x].x)

					S.erase(setnode(P[v], P[x] - P[v], INIT::mark[j ^ 1]));

			}

			for (int j = INIT::point[x]; j; j = INIT::E[j].nxt) {

				v = INIT::E[j].to;

				if (P[v].x == P[x].x) continue;

				if (P[v].x > P[x].x)

					S.insert(setnode(P[x], P[v] - P[x], INIT::mark[j]));

			}

		} else {

			tmp = S.upper_bound(setnode(P[x], Point(1, 0), 0));

//			printf("upper_bound (%d,%d)->(%d,%d)\n", nowx, nowy, nowx + 1, nowy);

			if (tmp == S.end()) {

				rfl[x] = -1;

//				printf("rfl[%d] = %d (%d,%d)->(%d,%d)\n", x, rfl[x], tmp->u.x, tmp->u.y, tmp->u.x + tmp->v.x, tmp->u.y + tmp->v.y);

			} else {

				rfl[x] = tmp->kind;

//				printf("rfl[%d] = %d (%d,%d)->(%d,%d)\n", x, rfl[x], tmp->u.x, tmp->u.y, tmp->u.x + tmp->v.x, tmp->u.y + tmp->v.y);

			}

		}

	}

	for (int i = n + 1; i <= tot; i += 2) {

		if (rfl[i] == -1 || rfl[i + 1] == -1)

			puts("-1");

		else

			printf("%d\n", MST::Query(rfl[i], rfl[i + 1]));

	}

	return 0;

}

没有删掉丑陋而愚蠢的调试信息(调个样例都调了半天写了一大堆调试信息这样以后注定要滚粗啊！)