Submission #1067702

#TimeUsernameProblemLanguageResultExecution timeMemory
1067702aaaaaarrozSoccer Stadium (IOI23_soccer)C++17
8 / 100
4592 ms32604 KiB
#include <bits/stdc++.h> using namespace std; /* bool limites(int N, int i, int j){ return i>=0&&i<N&&j>=0&&j<N; } bool comprobar(int N, vector<vector<int>> F){ for(int i=0;i<N;i++){ for(int j=0;j<N;j++){ if(F[i][j]==1||F[i][j]==0){ continue; } priority_queue<tuple<int,int,int>,vector<tuple<int,int,int>>,greater<tuple<int,int,int>>>cola; int dx[]={1,0,-1,0}; int dy[]={0,1,0,-1}; vector<vector<int>>dist(N,vector<int>(N,INT_MAX)); dist[i][j]=0; cola.push({0,i,j}); while(!cola.empty()){ auto[d,x,y]=cola.top(); cola.pop(); for(int dir=0;dir<4;dir++){ int posi=x+dx[dir]; int posj=y+dy[dir]; while(true){ if(!limites(N,posi,posj)||F[posi][posj]==1||F[posi][posj]==0)break; if((d+1)<dist[posi][posj]){ dist[posi][posj]=d+1; cola.push({dist[posi][posj],posi,posj}); } posi+=dx[dir]; posj+=dy[dir]; } } } for(int x=0;x<N;x++){ for(int y=0;y<N;y++){ if(F[x][y]==2&&(dist[x][y]>=3||dist[x][y]==-1)){ return false; } } } } } return true; }*/ int biggest_stadium(int N, vector<vector<int>> F){ map<tuple<int,int,int>,bool>libre; for(int fila=0;fila<N;fila++){ for(int i=0;i<N;i++){ for(int j=i;j<N;j++){ if(i==j){ libre[{fila,i,j}]=!F[fila][j]; } else{ libre[{fila,i,j}]=(!F[fila][j])&&libre[{fila,i,j-1}]; } } } } int best=0; for(int fila=0;fila<N;fila++){ for(int columna=0;columna<N;columna++){ for(int i=0;i<=columna;i++){ for(int j=columna;j<N;j++){ if(libre[{fila,i,j}]){ { vector<pair<int,int>>almacen; almacen.push_back({i,j}); int suma=0; int fil=fila-1; while(fil>=0&&F[fil][columna]!=1){ int l=columna,r=columna; while(l>=almacen.back().first&&r<=almacen.back().second){ if(libre[{fil,l-1,r}]&&(l-1)>=almacen.back().first){ l--; } else if(libre[{fil,l,r+1}]&&(r+1)<=almacen.back().second){ r++; } else{ break; } } almacen.push_back({l,r}); fil--; } almacen.push_back({i,j}); fil=fila+1; int fila_extra=1; int alm_ant=almacen.size()-1; while(fil<N&&F[fil][columna]!=1){ if(fila_extra<alm_ant){ int l1=columna,r1=columna; l1=almacen[fila_extra].first; r1=almacen[fila_extra].second; while(l1>=almacen.back().first&&r1<=almacen.back().second&&l1>=almacen[fila_extra-1].first&&r1<=almacen[fila_extra-1].second){ if(libre[{fil,l1-1,r1}]&&(l1-1)>=almacen.back().first&&(l1-1)>=almacen[fila_extra-1].first){ l1--; } else if(libre[{fil,l1,r1+1}]&&(r1+1)<=almacen.back().second&&(r1+1)<=almacen[fila_extra-1].second){ r1++; } else{ break; } } int l=columna,r=columna; while(l>=almacen[fila_extra].first&&r<=almacen[fila_extra].second&&l>=almacen.back().first){ if(libre[{fil,l-1,r}]&&(l-1)>=almacen[fila_extra].first&&(l-1)>=almacen.back().first){ l--; } else if(libre[{fil,l,r+1}]&&(r+1)<=almacen[fila_extra].second&&(r+1)<=almacen.back().second){ r++; } else{ break; } } if(libre[{fil,l1,r1}]&&l1>=almacen.back().first&&r1<=almacen.back().second){ almacen.push_back({l1,r1}); } else{ almacen.push_back({l,r}); } } else{ int l=columna,r=columna; while(l>=almacen.back().first&&r<=almacen.back().second){ if(libre[{fil,l-1,r}]&&(l-1)>=almacen.back().first){ l--; } else if(libre[{fil,l,r+1}]&&(r+1)<=almacen.back().second){ r++; } else{ break; } } almacen.push_back({l,r}); } fil++; fila_extra++; } for(auto[x,y]:almacen){ suma+=(y-x+1); } suma-=(j-i+1); vector<vector<int>>grid=F; int cnt=0; fil=fila; while(fil>=0&&F[fil][columna]!=1){ for(int y=almacen[cnt].first;y<=almacen[cnt].second;y++){ grid[fil][y]=2; } fil--; cnt++; } fil=fila; while(fil<N&&F[fil][columna]!=1){ for(int y=almacen[cnt].first;y<=almacen[cnt].second;y++){ grid[fil][y]=2; } fil++; cnt++; } /* if(comprobar(N,grid)){ best=max(suma,best); }*/ best=max(suma,best); } { vector<pair<int,int>>almacen; almacen.push_back({i,j}); int suma=0; int fil=fila+1; while(fil<N&&F[fil][columna]!=1){ int l=columna,r=columna; while(l>=almacen.back().first&&r<=almacen.back().second){ if(libre[{fil,l-1,r}]&&(l-1)>=almacen.back().first){ l--; } else if(libre[{fil,l,r+1}]&&(r+1)<=almacen.back().second){ r++; } else{ break; } } almacen.push_back({l,r}); fil++; } almacen.push_back({i,j}); fil=fila-1; int fila_extra=1; int alm_ant=almacen.size()-1; while(fil>=0&&F[fil][columna]!=1){ if(fila_extra<alm_ant){ int l1=columna,r1=columna; l1=almacen[fila_extra].first; r1=almacen[fila_extra].second; while(l1>=almacen.back().first&&r1<=almacen.back().second&&l1>=almacen[fila_extra-1].first&&r1<=almacen[fila_extra-1].second){ if(libre[{fil,l1-1,r1}]&&(l1-1)>=almacen.back().first&&(l1-1)>=almacen[fila_extra-1].first){ l1--; } else if(libre[{fil,l1,r1+1}]&&(r1+1)<=almacen.back().second&&(r1+1)<=almacen[fila_extra-1].second){ r1++; } else{ break; } } int l=columna,r=columna; while(l>=almacen[fila_extra].first&&r<=almacen[fila_extra].second&&l>=almacen.back().first){ if(libre[{fil,l-1,r}]&&(l-1)>=almacen[fila_extra].first&&(l-1)>=almacen.back().first){ l--; } else if(libre[{fil,l,r+1}]&&(r+1)<=almacen[fila_extra].second&&(r+1)<=almacen.back().second){ r++; } else{ break; } } if(libre[{fil,l1,r1}]&&l1>=almacen.back().first&&r1<=almacen.back().second){ almacen.push_back({l1,r1}); } else{ almacen.push_back({l,r}); } } else{ int l=columna,r=columna; while(l>=almacen.back().first&&r<=almacen.back().second){ if(libre[{fil,l-1,r}]&&(l-1)>=almacen.back().first){ l--; } else if(libre[{fil,l,r+1}]&&(r+1)<=almacen.back().second){ r++; } else{ break; } } almacen.push_back({l,r}); } fil--; fila_extra++; } for(auto[x,y]:almacen){ suma+=(y-x+1); } suma-=(j-i+1); vector<vector<int>>grid=F; int cnt=0; fil=fila; while(fil<N&&F[fil][columna]!=1){ for(int y=almacen[cnt].first;y<=almacen[cnt].second;y++){ grid[fil][y]=2; } fil++; cnt++; } fil=fila; while(fil>=0&&F[fil][columna]!=1){ for(int y=almacen[cnt].first;y<=almacen[cnt].second;y++){ grid[fil][y]=2; } fil--; cnt++; } /*if(comprobar(N,grid)){ best=max(suma,best); }*/ best=max(suma,best); } } else{ continue; } } } } } return best; } /* int main() { int N; cin>>N; vector<vector<int>> F(N, vector<int>(N)); for (int i = 0; i < N; i++) { for (int j = 0; j < N; j++) { cin>>F[i][j]; } } int res = biggest_stadium(N, F); cout<<res<<"\n"; return 0; } */
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...