My first problem in 2023: "Genshin Geometry" !!!

Revision en44, by Yunannnn, 2023-01-02 16:23:32

Let your spirit soar and have a joy-filled new year by playing Ghenshin :D

However, before that, I will recommend to you an interesting "Genshin Geometry" problem

(Problem F from the GYM The 2021 ICPC Asia Nanjing Regional Contest (XXII Open Cup, Grand Prix of Nanjing)).

Summary: Give N distint points on the plane, and special point O = (0, 0). Your task is dividing this N points into two sets A and B so that:

  • Both of them is a strict convex set.

  • The outlines(edge) of two convex hulls only intersect at point O.

  • The sum of the perimeters of these two convex hulls is maximum.

So now, let's try to solve this problem by yourself...

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...before reading some hints!

Firstly, let's answer this question: Is there any TRICKS to contruct these two sets optimally directly ?. (It becomes a Greedy problem!!!). In my opinion, this problem has a lot of cases, and the greedy solution is difficult to approach. So, I will representation a general solution, but if you have a more optimal solution, please leave your commend and everyone can reference.

Tags

This problem has two general case. The first case is easier to approach: convex hull covers convex hull.

Image

So, set A is the convex hull of N points , and there are M remaining points that do not lie on this convex hull. Obviously, these M points are belong to the set B. Note, we need to check if remaining M points is strict convex and don't forget to the point O.

But wait, is there any special cases?

The answer is

The second case is dividing line.

For example

include <bits/stdc++.h>

using namespace std;

typedef long long ll; typedef long double ld;

struct point { int x, y, index; bool joined, isfault; point() {} point(int a, int b) { x = a, y = b; } bool operator < (point other) { return y < other.y || (y == other.y && x < other.x); } bool onSegment(point a, point b) { if (ccw(a, b) != 0) { return false; } int minx = min(a.x, b.x); int maxx = max(a.x, b.x); int miny = min(a.y, b.y); int maxy = max(a.y, b.y); return minx <= x && x <= maxx && miny <= y && y <= maxy; } int updown() { if (y < 0 || (y == 0 && x > 0)) { return 0; } return 1; } int ccw(point a, point b) { ll c = (ll)x * (a.y — b.y) + (ll)a.x * (b.y — y) + (ll)b.x * (y — a.y); if (c == 0) { return 0; } if (c > 0) { return 1; } return — 1; } ld dist(point other) { return hypot(x — other.x, y — other.y); } };

point O = point(0, 0);

bool cmp(point a, point b) { if (a.updown() != b.updown()) { return a.updown() < b.updown(); } return (ll)a.y * b.x < (ll)a.x * b.y; }

vector Build_ConvexHull(vector &p) { vector ans; sort(p.begin(), p.end()); bool checking = true; for (int i = 0; i < p.size(); ++i) { if (p[0].ccw(p[1], p[i]) != 0) { checking = false; break; } } if (checking == true) { ans = p; p.clear(); return ans; }

for (int i = 0; i < p.size(); ++i) {
    p[i].index = i;
    p[i].joined = false;
}
vector <point> pts = p;
int n = p.size(), sz = 0;
p.resize(n + 1);
for (int i = 1; i < n; ++i) {
    if (i == n - 1 || pts[0].ccw(pts[i], pts[n - 1]) >= 0) {
        while (sz > 0 && p[sz - 1].ccw(p[sz], pts[i]) < 0) {
            sz--;
        }
        p[++sz] = pts[i];
    }
}
if (sz != n - 1) {
    for (int i = n - 2, j = sz; i >= 0; --i) {
        if (i == 0 || pts[n - 1].ccw(pts[i], pts[0]) >= 0) {
            while (sz > j && p[sz - 1].ccw(p[sz], pts[i]) < 0) {
                sz--;
            }
            p[++sz] = pts[i];
        }
    }
    p.resize(sz);
}
else {
    p.resize(sz + 1);
}

for (int i = 0; i < p.size(); ++i) {
    pts[p[i].index].joined = true;
}
ans = p;
p.clear();
for (auto i : pts) {
    if (i.joined == false) {
        p.push_back(i);
    }
}

return ans;

}

int main() { ios_base :: sync_with_stdio(false); cin.tie(0); cout.tie(0); if (fopen("test.inp", "r")) { freopen("test.inp", "r", stdin); freopen("test.out", "w", stdout); }

int T;
cin >> T;
while (T--) {
    int n;
    cin >> n;
    vector <point> p(n);
    for (int i = 0; i < n; ++i) {
        cin >> p[i].x >> p[i].y;
    }
    vector <point> points = p;
    p.push_back(O);
    ld ans = 0;

    vector <vector <point>> pp(2);
    pp[0] = Build_ConvexHull(p);
    p.push_back(O);
    pp[1] = Build_ConvexHull(p);

    if (pp[0].size() + pp[1].size() == n + 2) {
        bool checking = true;
        for (int i = 0; i < 2; ++i) {
            if (pp[i].size() < 3) {
                checking = false;
                break;
            }
            bool contain = false;
            for (int j = 0; j < pp[i].size(); ++j) {
                if (pp[i][j].x == 0 && pp[i][j].y == 0) {
                    contain = true;
                }
                int pre = (j - 1 + pp[i].size()) % pp[i].size();
                int nxt = (j + 1) % pp[i].size();
                if (pp[i][pre].ccw(pp[i][j], pp[i][nxt]) == 0) {
                    checking = false;
                    break;
                }
            }
            if (contain == false) {
                checking = false;
            }
            if (checking == false) {
                break;
            }
        }
        if (checking == true) {
            for (int i = 0; i < 2; ++i) {
                for (int j = 0; j < pp[i].size(); ++j) {
                    int nxt = (j + 1) % pp[i].size();
                    ans += pp[i][j].dist(pp[i][nxt]);
                }
            }
        }
    }

    p = points;
    sort(p.begin(), p.end(), cmp);
    int pos = - 1;
    bool checking = true;
    for (int i = 0; i < n; ++i) {
        int nxt = (i + 1) % n;
        if (p[i].onSegment(O, p[nxt]) || p[nxt].onSegment(O, p[i])) {
            checking = false;
            break;
        }
    }
    if (checking == true) {
        for (int i = 0; i < n; ++i) {
            int pre = (i - 1 + n) % n;
            int nxt = (i + 1) % n;
            if (p[pre].ccw(p[i], p[nxt]) < 0 || p[i].onSegment(p[pre], p[nxt])) {
                p[i].isfault = true;
            }
            else {
                p[i].isfault = false;
            }
            p[i].index = i;
        }

        vector <deque <point>> pts(2);
        vector <ld> len(2, 0);
        vector <int> fault(2);
        vector <bool> status(2, true);
        pts[0].push_back(p[0]);
        for (int i = 1; i < n; ++i) {
            if (p[0].ccw(O, p[i]) < 0) {
                len[0] += pts[0].back().dist(p[i]);
                if (pts[0].size() >= 2 && pts[0].back().isfault == true) {
                    status[0] = false;
                    fault[0] = pts[0].back().index;
                }
                pts[0].push_back(p[i]);
            }
            else {
                if (pts[1].size()) {
                    len[1] += pts[1].back().dist(p[i]);
                }
                if (pts[1].size() >= 2 && pts[1].back().isfault == true) {
                    status[1] = false;
                    fault[1] = pts[1].back().index;
                }
                pts[1].push_back(p[i]);
            }
        }
        if ((status[0] && pts[0].size() >= 2 && O.ccw(pts[0].front(), pts[0].back()) > 0)
            && (status[1] && pts[1].size() >= 2 && O.ccw(pts[1].front(), pts[1].back()) > 0)) {
            ans = max(ans, len[0] + O.dist(pts[0].front()) + O.dist(pts[0].back()) + len[1] + O.dist(pts[1].front()) + O.dist(pts[1].back()));
        }

        for (int i = 1; i < n; ++i) {
            point curr = pts[0].front();
            if (pts[1].size()) {
                len[1] += pts[1].back().dist(curr);
            }
            if (pts[1].size() >= 2 && pts[1].back().isfault == true) {
                status[1] = false;
                fault[1] = pts[1].back().index;
            }
            pts[1].push_back(curr);
            pts[0].pop_front();
            if (pts[0].size()) {
                len[0] -= pts[0].front().dist(curr);
                if (status[0] == false) {
                    if (pts[0].front().isfault == true && pts[0].front().index == fault[0]) {
                        status[0] = true;
                    }
                }
            }
            else {
                pts[0].push_back(p[i]);
                point curr = pts[1].front();
                pts[1].pop_front();
                if (pts[1].size()) {
                    len[1] -= pts[1].front().dist(curr);
                    if (status[1] == false) {
                        if (pts[1].front().isfault && pts[1].front().index == fault[1]) {
                            status[1] = true;
                        }
                    }
                }
            }

            while (pts[1].size() > 0 && p[i].ccw(O, pts[1].front()) < 0) {
                curr = pts[1].front();
                len[0] += pts[0].back().dist(curr);
                if (pts[0].size() >= 2 && pts[0].back().isfault == true) {
                    status[0] = false;
                    fault[0] = pts[0].back().index;
                }
                pts[0].push_back(curr);
                pts[1].pop_front();
                if (pts[1].size()) {
                    len[1] -= pts[1].front().dist(curr);
                    if (status[1] == false) {
                        if (pts[1].front().isfault == true && pts[1].front().index == fault[1]) {
                            status[1] = true;
                        }
                    }
                }
            }

            if ((status[0] && pts[0].size() >= 2 && O.ccw(pts[0].front(), pts[0].back()) > 0)
                && (status[1] && pts[1].size() >= 2 && O.ccw(pts[1].front(), pts[1].back()) > 0)) {
                ans = max(ans, len[0] + O.dist(pts[0].front()) + O.dist(pts[0].back()) + len[1] + O.dist(pts[1].front()) + O.dist(pts[1].back()));
            }
        }
    }

    cout << fixed << setprecision(10) << ans << "\n";
}

} ~~~~~

History

 
 
 
 
Revisions
 
 
  Rev. Lang. By When Δ Comment
en61 English Yunannnn 2023-01-02 17:30:31 0 (published)
en60 English Yunannnn 2023-01-02 17:29:27 8 Tiny change: ' return &mdash; 1;\n }' -> ' return - 1;\n }'
en59 English Yunannnn 2023-01-02 17:28:04 64
en58 English Yunannnn 2023-01-02 17:22:47 5
en57 English Yunannnn 2023-01-02 17:20:54 452
en56 English Yunannnn 2023-01-02 17:11:12 21
en55 English Yunannnn 2023-01-02 17:10:04 440
en54 English Yunannnn 2023-01-02 16:58:51 106
en53 English Yunannnn 2023-01-02 16:55:07 249
en52 English Yunannnn 2023-01-02 16:47:19 54
en51 English Yunannnn 2023-01-02 16:46:19 3 Tiny change: ' **N** is 10^6.\n</spoil' -> ' **N** is $10^6$.\n</spoil'
en50 English Yunannnn 2023-01-02 16:45:11 320
en49 English Yunannnn 2023-01-02 16:38:11 53
en48 English Yunannnn 2023-01-02 16:34:18 197
en47 English Yunannnn 2023-01-02 16:27:25 40
en46 English Yunannnn 2023-01-02 16:25:15 7 Tiny change: '(https://imgur.com/vj1L69y)\n</spoil' -> '(https://i.imgur.com/vj1L69y.png)\n</spoil'
en45 English Yunannnn 2023-01-02 16:24:27 15 Tiny change: 'j1L69y)\n<spoiler' -> 'j1L69y)\n</spoiler>\n\n<spoiler'
en44 English Yunannnn 2023-01-02 16:23:32 151
en43 English Yunannnn 2023-01-02 16:18:04 1453
en42 English Yunannnn 2023-01-02 16:14:21 9703
en41 English Yunannnn 2023-01-02 16:12:02 3 Tiny change: 'so easy.\n![ ](htt' -> 'so easy.\n\n![ ](htt'
en40 English Yunannnn 2023-01-02 16:11:24 160
en39 English Yunannnn 2023-01-02 16:01:17 43 Tiny change: 'O_. :D\n\n[My so' -> 'O_. :D\n\nBut wait, is there any special cases?\n\n\n[My so'
en38 English Yunannnn 2023-01-02 15:58:41 22
en37 English Yunannnn 2023-01-02 15:57:49 262
en36 English Yunannnn 2023-01-02 15:51:00 40
en35 English Yunannnn 2023-01-02 15:49:41 17 Tiny change: 'x hull. \n\n ![ ](https' -> 'x hull. \n![ ](https'
en34 English Yunannnn 2023-01-02 15:49:27 33 Tiny change: ' ' -> ' '
en33 English Yunannnn 2023-01-02 15:49:11 48
en32 English Yunannnn 2023-01-02 15:48:44 82
en31 English Yunannnn 2023-01-02 15:48:20 37 Tiny change: 'Let your s' -> '![ ](https://i.imgur.com/YeyVfBl.png)Let your s'
en30 English Yunannnn 2023-01-02 15:40:31 41
en29 English Yunannnn 2023-01-02 15:37:15 348
en28 English Yunannnn 2023-01-02 15:35:12 350
en27 English Yunannnn 2023-01-02 15:33:39 62
en26 English Yunannnn 2023-01-02 15:32:31 69
en25 English Yunannnn 2023-01-02 15:30:30 1 Tiny change: 'hull. \n\n[](/predow' -> 'hull. \n\n![](/predow'
en24 English Yunannnn 2023-01-02 15:29:09 68 Tiny change: 'ull. \n\n[](https://' -> 'ull. \n\n[Your text to link here...](https://'
en23 English Yunannnn 2023-01-02 15:15:16 2 Tiny change: 'hull. \n\n(https://c' -> 'hull. \n\n[](https://c'
en22 English Yunannnn 2023-01-02 15:14:48 74 Tiny change: 'hull. \n\n\n\n[My so' -> 'hull. \n\nhttps://mirror.codeforces.com/b373d7/3.png\n\n[My so'
en21 English Yunannnn 2023-01-02 15:14:23 65 Tiny change: 'hull. \n\n\n\n[My so' -> 'hull. \n\nhttps://mirror.codeforces.com/b373d7/3.png\n\n[My so'
en20 English Yunannnn 2023-01-02 15:10:51 109
en19 English Yunannnn 2023-01-02 15:07:14 241
en18 English Yunannnn 2023-01-02 15:05:47 2 Tiny change: 'n(Problem from the ' -> 'n(Problem F from the '
en17 English Yunannnn 2023-01-02 15:05:19 388
en16 English Yunannnn 2023-01-02 14:53:17 243
en15 English Yunannnn 2023-01-02 14:45:49 121
en14 English Yunannnn 2023-01-02 14:41:43 98
en13 English Yunannnn 2023-01-02 14:40:15 757
en12 English Yunannnn 2023-01-02 14:38:45 57
en11 English Yunannnn 2023-01-02 14:37:05 3 Tiny change: 'ALw_wcB#/). \n\nHoweve' -> 'ALw_wcB#/) :D\n\nHoweve'
en10 English Yunannnn 2023-01-02 14:35:58 4 Tiny change: 'w_wcB#/). However, b' -> 'w_wcB#/). \n\nHowever, b'
en9 English Yunannnn 2023-01-02 14:35:37 137
en8 English Yunannnn 2023-01-02 14:31:59 63
en7 English Yunannnn 2023-01-02 14:29:54 267
en6 English Yunannnn 2023-01-02 14:25:46 2 Tiny change: '03470]\n\n<spoil' -> '03470]\n\n\n<spoil'
en5 English Yunannnn 2023-01-02 14:23:29 23
en4 English Yunannnn 2023-01-02 14:21:36 52
en3 English Yunannnn 2023-01-02 14:19:25 45 Tiny change: '03470]\n\n[My so' -> '03470]\n\n<spoiler summary="Tags">\naaa\n</spoiler>\n\n[My so'
en2 English Yunannnn 2023-01-02 14:17:49 112
en1 English Yunannnn 2023-01-02 14:13:47 64 Initial revision (saved to drafts)