Submission #436759

#TimeUsernameProblemLanguageResultExecution timeMemory
436759ApiramFountain Parks (IOI21_parks)C++17
5 / 100
3555 ms26028 KiB
#include "parks.h" #include<bits/stdc++.h> using namespace std; struct point { int x,y,index; }; bool dist(point x,point y){ if (((x.x - y.x)*(x.x - y.x)+(x.y-y.y)*(x.y - y.y))!=4)return false; return true; } int binarysearch(int seg,int eq,int n,vector<point>arr){ int left = 0; int right = n-1; while(left<=right){ int mid = (left + right) >> 1; if (arr[mid].x<seg)left= mid + 1; else if (arr[mid].x>seg)right = mid-1; else { if (arr[mid].y<eq){ left=mid+1; } else if (arr[mid].y>eq){ right = mid-1; } else return mid; } } return -1; } void build(vector<int> u, vector<int> v, vector<int> a, vector<int> b) ; int construct_roads(std::vector<int> x, std::vector<int> y) { vector<point>arr; int n = x.size(); bool ok=true; for (int i = 0 ;i<n;++i){ if (x[i]!=x[0])ok=false; arr.push_back({x[i],y[i],i}); } vector<int>ansx,ansy,ansxi,ansyi; if (ok){ sort(arr.begin(),arr.end(),[&](point a,point b){ return a.y<b.y; }); for (int i = 1;i<n;++i){ if (dist(arr[i],arr[i-1])){ ansx.push_back(min(arr[i].x,arr[i-1].x) + 1); ansy.push_back(min(arr[i].y,arr[i-1].y)+1); ansxi.push_back(arr[i].index); ansyi.push_back(arr[i-1].index); } else return 0; } build(ansxi,ansyi,ansx,ansy); return 1;} else{ vector<vector<int>>adj(n); vector<vector<bool>>p(3,vector<bool>(1e5 + 5,false)); sort(arr.begin(),arr.end(),[&](point a,point b){ if (a.x==b.x)return a.y<b.y; return a.x<b.x; }); int i =1; for (;i<n;++i){ if (arr[i].x!=2)break; if (dist(arr[i],arr[i-1])){ ansx.push_back(min(arr[i].x,arr[i-1].x) - 1); ansy.push_back(min(arr[i].y,arr[i-1].y) + 1); ansxi.push_back(arr[i].index); ansyi.push_back(arr[i-1].index); adj[i].push_back(i-1); adj[i-1].push_back(i); p[ansx.back()/2][ansy.back()/2]=true; } } int j = i; for (;i<n;++i){ if (arr[i-1].x==2)continue; if (dist(arr[i],arr[i-1])){ ansx.push_back(min(arr[i].x,arr[i-1].x) + 1); ansy.push_back(min(arr[i].y,arr[i-1].y) + 1); ansxi.push_back(arr[i].index); ansyi.push_back(arr[i-1].index); adj[i].push_back(i-1); adj[i-1].push_back(i); p[ansx.back()/2][ansy.back()/2]=true; } } int k = 0,t=k+j; while (k<j&&t<n){ if (arr[k].y<arr[t].y){ ++k; } else if (arr[k].y>arr[t].y) { ++t; } else { int first1 = min(arr[k].x,arr[t].x) + 1; int second1 = min(arr[k].y,arr[t].y) + 1; int second2=min(arr[k].y,arr[t].y) - 1; if (!p[first1/2][second2/2]){ ansx.push_back(first1); ansy.push_back(second2); ansxi.push_back(arr[k].index); ansyi.push_back(arr[t].index); adj[t].push_back(k); adj[k].push_back(t); p[ansx.back()/2][ansy.back()/2]=true; } else if (!p[first1/2][second1/2]){ ansx.push_back(first1); ansy.push_back(second1); ansxi.push_back(arr[k].index); ansyi.push_back(arr[t].index); adj[t].push_back(k); adj[k].push_back(t); p[ansx.back()/2][ansy.back()/2]=true; } ++t;++k; } } vector<bool>visited(n,false); queue<int>q; q.push(0); while(!q.empty()){ int u =q.front(); q.pop(); visited[u]=true; for (auto x:adj[u]){ if (!visited[x]){ q.push(x); visited[u]=true;} } } for (auto x:visited){ if (!x)return 0; } build(ansxi,ansyi,ansx,ansy); return 1; }}
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