제출 #880359

#제출 시각아이디문제언어결과실행 시간메모리
880359LibSplit the Attractions (IOI19_split)C++14
7 / 100
44 ms11720 KiB
#include <bits/stdc++.h> #include "split.h" using namespace std; vector <vector <int> > adj; vector <int> TVector; int cpos[200003]; int check[200003]; int SubtreeSize[200003]; int Parent[200003]; int n; //Parent on each iteration of DFS deque <int> clist; vector <int> ans; int csize; vector <int> Group1,Group2; int GroupAID,GroupBID,GroupASize,GroupBSize; int cur; int Subtree1,Subtree2; void ShittyDFS(int i){ for(int k=0;k<n;k++){ cpos[k]=0; SubtreeSize[k]=0; Parent[k]=0; } Parent[i]=-1; //wacky dfs (and calculate size of subtrees as well cur=1; clist.push_back(i); check[i]=1; while(!clist.empty()){ if(!SubtreeSize[clist.back()]){ SubtreeSize[clist.back()]=cur; } while(cpos[clist.back()]<adj[clist.back()].size()&&check[adj[clist.back()][cpos[clist.back()]]]){ cpos[clist.back()]++; } if(cpos[clist.back()]<adj[clist.back()].size()&&!check[adj[clist.back()][cpos[clist.back()]]]){ check[adj[clist.back()][cpos[clist.back()]]]=1; Parent[adj[clist.back()][cpos[clist.back()]]]=clist.back(); clist.push_back(adj[clist.back()][cpos[clist.back()]]); cur++; }else{ SubtreeSize[clist.back()]=cur-SubtreeSize[clist.back()]; clist.pop_back(); } } } vector <int> find_split(int n, int a, int b, int c, vector <int> p, vector <int> q){ //Only cares about the 2 smaller group: Assuming that we DID find a solution where the largest group is connected, just swap some of those points for the unused group. //As this is the largest group, swapping some minor connected parts for the unused group is still valid, and always doable => only care about 2 smallest group only //very intuitive tbh vector <pair <int,int> > order; order.push_back({a,1}); order.push_back({b,2}); order.push_back({c,3}); sort(order.begin(),order.end()); GroupAID=order[0].second; GroupASize=order[0].first; GroupBID=order[1].second; GroupBSize=order[1].first; for(int i=0;i<=n+1;i++){ adj.push_back(TVector); } //Build the graph. Who can't understand this? for(int i=0;i<p.size();i++){ adj[p[i]].push_back(q[i]); adj[q[i]].push_back(p[i]); } /* Let's just call the smallest group gropu A, and second smallest group group B. Let's kinda start working with the tree subtask first. When we split the tree into 2 part, we are essentially dedicating an entire subtree for group A and the rest of the tree for group B, or vice versa. We will now do the following:\ - Try all vertices on the tree. For each verticies, check through all of its subtreees. - If we can dedicate an entire subtree to group A and the rest to group B (or vice versa), this split will work instantly. We are basically cutting our original tree into 2 parts. - If after checking all subtrees of all vertices and we still haven't found a solution, there is no solution. (Why this kind of check works: We are trying everything, so no method of "splitting OG tree into 2 parts" is ignored...Let's be honest, I think that 64pts for this is trivial and doesn't require much thought at all. The wacky funny parts comes from the final subtask, which I haven't solved yet. Complexity: We take O(N) to DFS and calculate size of subtrees of all nodes. For each of the N vertex, we check through all of their adjacient vertices. Basically, we are checking 3N times (like, come on, in a tree of N nodes, there are 2N-2 pairs of adjacient points. There is literally nothing to explain here). Basically, for each DFS tree, we take roughly O(N) to check whether there exists a valid split or not. For the general graph (but small) case: Just create N DFS trees and bruteforce them, lol. Nothing to talk about just yet */ for(int i=0;i<n;i++){ //Tested locally, seems correct enough. First time implementing DFS. Moving on. //On another hand, you know what? Chugging DFS into a function now. brb //Done ShittyDFS(i); //Try the split with every single vertex on the tree. for(int k=0;k<n;k++){ check[k]=0; } for(int k=0;k<n;k++){ for(int l=0;l<adj[k].size();l++){ Subtree1=SubtreeSize[adj[k][l]]; if(adj[k][l]==Parent[k]){ Subtree1=n-SubtreeSize[k]; } Subtree2=n-Subtree1; if(Subtree1>=GroupASize&&Subtree2>=GroupBSize){ //Found the answer so just BFS to mark the points check[adj[k][l]]=GroupAID; check[k]=GroupBID; clist.clear(); clist.push_back(adj[k][l]); csize=1; while(csize<GroupASize){ for(int d=0;d<adj[clist.front()].size();d++){ if(!check[adj[clist.front()][d]]){ check[adj[clist.front()][d]]=GroupAID; clist.push_back(adj[clist.front()][d]); csize++; if(csize==GroupASize){ break; } } if(csize==GroupASize){ break; } } clist.pop_front(); } clist.clear(); clist.push_back(k); csize=1; while(csize<GroupBSize){ for(int d=0;d<adj[clist.front()].size();d++){ if(!check[adj[clist.front()][d]]){ check[adj[clist.front()][d]]=GroupBID; clist.push_back(adj[clist.front()][d]); csize++; if(csize==GroupBSize){ break; } } if(csize==GroupBSize){ break; } } clist.pop_front(); } for(int d=0;d<n;d++){ if(check[d]==0){ check[d]=6-GroupAID-GroupBID; } //check[d]=1; ans.push_back(check[d]); //cout<<check[d]<<" "; } return ans; } } } } return ans; }

컴파일 시 표준 에러 (stderr) 메시지

split.cpp: In function 'void ShittyDFS(int)':
split.cpp:34:28: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
   34 |    while(cpos[clist.back()]<adj[clist.back()].size()&&check[adj[clist.back()][cpos[clist.back()]]]){
      |          ~~~~~~~~~~~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~
split.cpp:37:25: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
   37 |    if(cpos[clist.back()]<adj[clist.back()].size()&&!check[adj[clist.back()][cpos[clist.back()]]]){
      |       ~~~~~~~~~~~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~~
split.cpp: In function 'std::vector<int> find_split(int, int, int, int, std::vector<int>, std::vector<int>)':
split.cpp:65:15: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
   65 |  for(int i=0;i<p.size();i++){
      |              ~^~~~~~~~~
split.cpp:94:17: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
   94 |    for(int l=0;l<adj[k].size();l++){
      |                ~^~~~~~~~~~~~~~
split.cpp:108:20: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  108 |       for(int d=0;d<adj[clist.front()].size();d++){
      |                   ~^~~~~~~~~~~~~~~~~~~~~~~~~~
split.cpp:127:20: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  127 |       for(int d=0;d<adj[clist.front()].size();d++){
      |                   ~^~~~~~~~~~~~~~~~~~~~~~~~~~
#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...