Submission #402133

#TimeUsernameProblemLanguageResultExecution timeMemory
402133b00n0rpRectangles (IOI19_rect)C++17
59 / 100
5076 ms835624 KiB
#include "rect.h" #include <bits/stdc++.h> using namespace std; #define ll long long #define vi vector<int> #define pb push_back #define REP(i,n) for(int i = 0; i < n; i++) #define FOR(i,a,b) for(int i = a; i < b; i++) #define FORD(i,a,b) for(int i = a; i >= b; i --) #define pii pair<int,int> #define F first #define S second #define all(v) v.begin(),v.end() #define SZ(v) (int)v.size() const ll MX = 2505; ll ans = 0; int n,m; int gl[MX][MX],gr[MX][MX],gu[MX][MX],gd[MX][MX]; unordered_map<ll,int> row_map,col_map; void check_rectangle(int x1,int y1,int x2,int y2){ ll val1 = (y1-1)*MX*MX+(y2+1)*MX+x1; if(row_map.find(val1) == row_map.end()) return; if(row_map[val1] < x2) return; ll val2 = (x1-1)*MX*MX+(x2+1)*MX+y1; if(col_map.find(val2) == col_map.end()) return; if(col_map[val2] < y2) return; // cout << x1 << " " << y1 << " " << x2 << " " << y2 << "\n"; ans++; } ll count_rectangles(vector<vi> a) { n = a.size(); m = a[0].size(); if(n <= 2 or m <= 2) return 0; FORD(i,n-1,0){ stack<int> st; REP(j,m){ gl[i][j] = gr[i][j] = gu[i][j] = gd[i][j] = -1; } REP(j,m){ while(st.size() and a[i][st.top()] <= a[i][j]){ gr[i][st.top()] = j; st.pop(); } st.push(j); } while(!st.empty()) st.pop(); FORD(j,m-1,0){ while(st.size() and a[i][st.top()] <= a[i][j]){ gl[i][st.top()] = j; st.pop(); } st.push(j); } REP(j,m){ if(gr[i][j] != -1 and gr[i][j] != j+1){ ll val = j*MX*MX+gr[i][j]*MX+i; if(row_map.find(val+1) != row_map.end()){ row_map[val] = row_map[val+1]; } else row_map[val] = i; } if(gl[i][j] != -1 and gl[i][j] != j-1 and gr[i][gl[i][j]] != j){ ll val = gl[i][j]*MX*MX+j*MX+i; if(row_map.find(val+1) != row_map.end()){ row_map[val] = row_map[val+1]; } else row_map[val] = i; } } } FORD(j,m-1,0){ stack<int> st; REP(i,n){ while(st.size() and a[st.top()][j] <= a[i][j]){ gd[st.top()][j] = i; st.pop(); } st.push(i); } while(!st.empty()) st.pop(); FORD(i,n-1,0){ while(st.size() and a[st.top()][j] <= a[i][j]){ gu[st.top()][j] = i; st.pop(); } st.push(i); } REP(i,n){ if(gd[i][j] != -1 and gd[i][j] != i+1){ ll val = i*MX*MX+gd[i][j]*MX+j; if(col_map.find(val+1) != col_map.end()){ col_map[val] = col_map[val+1]; } else col_map[val] = j; } if(gu[i][j] != -1 and gu[i][j] != i-1 and gd[gu[i][j]][j] != i){ ll val = gu[i][j]*MX*MX+i*MX+j; if(col_map.find(val+1) != col_map.end()){ col_map[val] = col_map[val+1]; } else col_map[val] = j; } } } vector<ll> bruh; FOR(i,1,n-1){ FOR(j,1,m-1){ // topleft if(gr[i][j-1] != -1 and gd[i-1][j] != -1){ bruh.pb((i)*MX*MX*MX+(j)*MX*MX+(gd[i-1][j]-1)*MX+gr[i][j-1]-1); } // topright if(gl[i][j+1] != -1 and gd[i-1][j] != -1){ bruh.pb((i)*MX*MX*MX+(gl[i][j+1]+1)*MX*MX+(gd[i-1][j]-1)*MX+j); } // bottomleft if(gr[i][j-1] != -1 and gu[i+1][j] != -1){ bruh.pb((gu[i+1][j]+1)*MX*MX*MX+(j)*MX*MX+(i)*MX+gr[i][j-1]-1); } // bottomright if(gl[i][j+1] != -1 and gu[i+1][j] != -1){ bruh.pb((gu[i+1][j]+1)*MX*MX*MX+(gl[i][j+1]+1)*MX*MX+(i)*MX+j); } // clockwise if(gr[i][j-1] != -1 and gd[i-1][gr[i][j-1]-1] != -1){ bruh.pb((i)*MX*MX*MX+(j)*MX*MX+(gd[i-1][gr[i][j-1]-1]-1)*MX+gr[i][j-1]-1); } // anti-clockwise if(gl[i][j+1] != -1 and gd[i-1][gl[i][j+1]+1] != -1){ bruh.pb((i)*MX*MX*MX+(gl[i][j+1]+1)*MX*MX+(gd[i-1][gl[i][j+1]+1]-1)*MX+j); } } } sort(all(bruh)); REP(i,SZ(bruh)){ if(i == 0 or bruh[i] != bruh[i-1]){ // if((n <= 700 and m <= 700) or n <= 3) check_rectangle(bruh[i]/(MX*MX*MX),(bruh[i]/(MX*MX))%MX,(bruh[i]/MX)%MX,bruh[i]%MX); } } return ans; }
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