topcoder srm 689 div1
problem1 link
按照每种字符的数量降序排序,然后从多到少依次放每一种。放的时候一上一下交错放置。
problem2 link
构造的方法如下:(假设$x=25$)
(1)首先构造一个初始答案如下:
现在的'good'子集的个数为15,还需要25-15=10个。下面的每一步添加将不改变之前确定的'good'子集,只会增加新的'good'子集;此时$n=4$
(2)添加一层得到$n=5$
新添加的8个是这样的:从$[0,2]$中任意选出一个集合跟3,4都可以构成一个新的good'集合
(3)再添加一层得到$n=6$
新添加的2个是这样的:从$[0,0]$中任意选出一个集合跟1,2,3,4,5都可以构成一个新的good'集合
problem3 link
每次随机旋转某个角度。 然后假设按照$x$排序前一半跟后一半匹配。每次计算一个凸包,找到一组匹配。去掉这组匹配, 继续计算剩下的凸包。循环这个过程。
code for problem1
#include <algorithm> #include <string> #include <vector> class ColorfulGarden { public: std::vector<std::string> rearrange(const std::vector<std::string> &A) { std::vector<std::pair<int, int>> a(26); for (int i = 0; i < 26; ++i) { a[i].first = 0; a[i].second = i; } for (const auto &s : A) { for (char c : s) { ++a[c - 'a'].first; } } std::sort(a.begin(), a.end(), std::greater<std::pair<int, int>>()); int n = static_cast<int>(A[0].size()); if (a[0].first > n) { return {}; } std::string total; for (const auto &e : a) { char c = 'a' + e.second; for (int i = 0; i < e.first; ++i) { total += c; } } std::string s1 = A[0], s2 = A[1]; for (int i = 0; i < n; ++i) { if (i % 2 == 1) { s1[i] = total[i]; } else { s2[i] = total[i]; } } for (int i = n; i < n + n; ++i) { if ((i - n) % 2 == 1) { s2[i - n] = total[i]; } else { s1[i - n] = total[i]; } } return {s1, s2}; } };
code for problem2
#include <algorithm> #include <vector> class MultiplicationTable3 { public: std::vector<int> construct(int x) { constexpr int kMaxN = 20; int a[kMaxN][kMaxN]; int n = Get(x); for (int i = 0; i < n; ++i) { for (int j = 0; j < n; ++j) { a[i][j] = i; } } x -= (1 << n) - 1; while (x != 0) { int k = Get(x); for (int j = n; j >= k; --j) { a[n][j] = a[j][n] = j - 1; } a[n][k] = a[k][n] = k; for (int j = k - 1; j >= 0; --j) { a[n][j] = a[j][n] = n; } ++n; x -= 1 << k; } std::vector<int> ans; for (int i = 0; i < n; ++i) { std::copy(a[i], a[i] + n, std::back_inserter(ans)); } return ans; } private: int Get(int x) { for (int i = 20; i >= 0; --i) { if ((x & (1 << i)) != 0) { return i; } } return 0; } };
code for problem3
#include <algorithm> #include <queue> #include <vector> class ZeroPointSixThreeSix { public: std::vector<int> replan(const std::vector<int> &x, const std::vector<int> &y, const std::vector<int> &match) { int n = static_cast<int>(x.size()); srand(time(0)); std::vector<Point> points(n); long double cost = 0; for (int i = 0; i < n; i++) { points[i].x = x[i]; points[i].y = y[i]; if (match[i] < i) { cost += points[match[i]].Distance(points[i]); } } std::vector<int> result(n); cost = cost * 0.636; while (true) { double angle = 2 * M_PI / (rand() + 1) * rand(); std::vector<std::pair<Point, int>> p(n); for (int i = 0; i < n; ++i) { p[i].first = points[i].Rotate(angle); p[i].second = i; } std::sort( p.begin(), p.end(), [&](const std::pair<Point, int> &a, const std::pair<Point, int> &b) { return std::make_pair(a.first.x, a.first.y) < std::make_pair(b.first.x, b.first.y); }); std::vector<bool> used(n, false); int num = 0; double total = 0; while (num != n) { std::vector<int> st; for (int i = 0; i < n; ++i) { if (used[i]) { continue; } while (st.size() > 1 && (p[st[st.size() - 1]].first - p[st[st.size() - 2]].first) * (p[i].first - p[st[st.size() - 2]].first) < 0) { st.pop_back(); } st.emplace_back(i); } if (st.empty()) { break; } for (size_t i = 0; i + 1 < st.size(); ++i) { if (st[i] < n / 2 && st[i + 1] >= n / 2) { used[st[i]] = used[st[i + 1]] = true; result[p[st[i]].second] = p[st[i + 1]].second; result[p[st[i + 1]].second] = p[st[i]].second; num += 2; total += p[st[i]].first.Distance(p[st[i + 1]].first); break; } } } if (total > cost) { break; } } return result; } private: struct Point { double x, y; Point(double x = 0, double y = 0) : x(x), y(y) {} double Distance(const Point &p) const { return std::sqrt(std::pow(x - p.x, 2) + std::pow(y - p.y, 2)); } Point Rotate(double ang) { double s = sin(ang), c = cos(ang); return Point(x * c - y * s, x * s + y * c); } double operator*(const Point &p) const { return x * p.y - y * p.x; } Point operator+(const Point &p) const { return Point(x + p.x, y + p.y); } Point operator-(const Point &p) const { return Point(x - p.x, y - p.y); } }; };