Submission #1025499

#TimeUsernameProblemLanguageResultExecution timeMemory
1025499TheWilpJelly Flavours (IOI20_jelly)C++14
14 / 100
75 ms856 KiB
#include "jelly.h" #include <vector> #include <algorithm> #include <map> const int MAXMONEY = 10005; class name{ public: int x; int y; bool operator<(const name& other) const{ return x < other.x; } }; class node{ public: int value; int count; node* left = nullptr; node* right = nullptr; }; int get_mid(int left,int right) { return (right - left) / 2 + left; } int get_value(node* root) { if(!root) return 0; return root->value; } int get_count(node* root) { if(!root) return 0; return root->count; } void add(node* root,int pos,int value,int left = 0,int right = MAXMONEY) { if(right == left) { root->value = value; root->count = 1; return; } int mid = get_mid(left,right); if(pos <= mid) { if(root->left == nullptr) root->left = new node(); add(root->left,pos,value,left,mid); } else { if(root->right == nullptr) root->right = new node(); add(root->right,pos,value,mid + 1,right); } root->value = get_value(root->left) + get_value(root->right); root->count = get_count(root->left) + get_count(root->right); } int get_max_count(node* root,int max_value,int left = 0,int right = MAXMONEY) { if(!root) return 0; int mid = get_mid(left,right); if(max_value >= get_value(root->left)) { return get_count(root->left) + get_max_count(root->right,max_value - get_value(root->left),mid + 1,right); } else { return get_max_count(root->left,max_value,left,mid); } } int find_maximum_unique(int x, int y, std::vector<int> a, std::vector<int> b) { int N = a.size(); int ans = 0; std::vector<name> v(N); for(int q = 0;q < N;q++) { v[q].x = a[q]; v[q].y = b[q]; } std::sort(v.begin(),v.end()); std::vector<int> dp(MAXMONEY,20000); dp[0] = 0; std::vector<int> res(N,20000); int min_require = 0; for(int q = 0;q < N;q++) { min_require += v[q].x; for(int w = MAXMONEY - 1;w>=0;w--) { if(w < v[q].x) break; dp[w] = std::min(dp[w],dp[w - v[q].x] + v[q].y); } for(int w = std::max(0,min_require - x);w < MAXMONEY;w++) { if(dp[w] <= y) { res[q] = std::min(res[q],dp[w]); } } } if(res.back() <= y) return N; std::vector<name> u(N); for(int q = 0;q < N;q++) { u[q].x = v[q].y; u[q].y = q; } std::sort(u.begin(),u.end()); std::map<int,int> mm; for(int q = 0;q < N;q++) { mm[u[q].y] = q; } node* root = new node(); for(int q = N - 1;q>=1;q--) { add(root,mm[q],v[q].x); if(res[q - 1] <= y) { int remain_value = y - res[q]; ans = std::max(ans,q + get_max_count(root,remain_value)); } } add(root,mm[0],v[0].x); ans = std::max(ans,get_max_count(root,y)); return ans; }
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