Submission #339186

#TimeUsernameProblemLanguageResultExecution timeMemory
339186bigDuckRace (IOI11_race)C++14
0 / 100
4 ms5100 KiB
#include "race.h" #include<bits/stdc++.h> using namespace std; #define INIT ios_base :: sync_with_stdio(false); cin.tie(NULL); cout.tie(NULL);mt19937 rng(chrono::steady_clock::now().time_since_epoch().count()); #define mp make_pair #define pb push_back #define ft first #define sc second #define ll long long #define pii pair<int, int> #define count_bits __builtin_popcount int n, k; vector<pii> g[200010]; bool v[200010]; int res=1e9; int subtask_2(int s, int l, int h){ int res=1e9; if(l>k){ v[s]=false; return res; } if(l==k){ v[s]=false; return h; } v[s]=true; for(pii pr:g[s]){ int u=pr.ft, d=pr.sc; if(!v[u]){ res=min(subtask_2(u, l+d, h+1), res); } } v[s]=false; return res; } int sz[200010]; void build_sz(int s){ v[s]=true; sz[s]=1; for(pii u:g[s]){ if(!v[u.ft]){ build_sz(u.ft); sz[s]+=sz[u.ft]; } } v[s]=false; return; } pair<pii, int> find_centroids(int s, int total){ v[s]=true; int d; int mx=0, u=s; for(pii node:g[s]){ if( (sz[node.ft]>mx) && (!v[node.ft]) ){ mx=sz[node.ft]; u=node.ft; d=node.sc; } if( (v[node.ft]) && ( (total-sz[s])>mx ) ){ mx=(total-sz[s]); u=node.ft; d=node.sc; } } pair<pii, int> res; if(!v[u]){res=find_centroids(u, total);} else{ res={{u, s}, d}; } v[s]=false; return res; } int k1[1000010], k2[1]; void path(int s, int l, int h, int tp, int dst){ if(l>k){ return; } if(tp==1){ if(k1[l]==0){ k1[l]=h; } else{ k1[l]=min(k1[l], h); } } else{ if(k1[k-dst-l]>0){res=min(res, k1[k-dst-l]+h);} } if(l==k){return;} v[s]=true; for(auto pr:g[s]){ int u=pr.ft, d=pr.sc; if(!v[u]){ path(u, l+d, h+1, tp, dst); } } v[s]=false; return; } void remove_path(int s, int l, int h, int tp){ if(l>k){ return; } if(tp==1){ k1[l]=0; } else{ k2[l]=0; } if(l==k){return;} v[s]=true; for(auto pr:g[s]){ int u=pr.ft, d=pr.sc; if(!v[u]){ remove_path(u, l+d, h+1, tp); } } v[s]=false; return; } void remove_edge(pii e, int d){ int u=e.ft, v=e.sc; g[u].erase(find(g[u].begin(), g[u].end(),mp(v, d) )); g[v].erase(find(g[v].begin(), g[v].end(),mp(u, d) )); } void subtask_4(){ queue<int> forest; forest.push(1); while(!forest.empty()){ int node=forest.front(); forest.pop(); build_sz(node); //cout<<node<<"\n"<<flush; if(sz[node]==1){continue;} pair<pii, int>e=find_centroids(node, sz[node]); int d=e.sc; //cout<<e.ft<<" "<<e.sc<<"\n"<<flush; //partea din stanga: k1[0]=1; v[e.ft.sc]=true;v[e.ft.ft]=false; path(e.ft.ft, 0, 1, 1, d); v[e.ft.sc]=false; //partea din dreapta: k2[0]=1; v[e.ft.ft]=true; v[e.ft.sc]=false; path(e.ft.sc, 0, 1, 2, d); v[e.ft.ft]=false; //combinarea se face in cadrul lui path k1[0]=1; v[e.ft.sc]=true;v[e.ft.ft]=false; remove_path(e.ft.ft, 0, 1, 1); v[e.ft.sc]=false; remove_edge(e.ft, d); forest.push(e.ft.ft); forest.push(e.ft.sc); } } int best_path(int N, int K, int H[][2], int L[]) { n=N; k=K; for(int i=0; i<(n-1); i++){ int u=H[i][0]+1, v=H[i][1]+1, d=L[i]; g[u].pb({v, d}); g[v].pb({u, d}); } /*if( (k<=100) ){ subtask_3(1);} else{ if(n<=1000){ for(int i=1; i<=n; i++){ res=min(res, subtask_2(i, 0, 1)); } } else{ subtask_4(); } }*/ subtask_4(); if(res==(1e9)){ return -1; } return res-1; }

Compilation message (stderr)

race.cpp: In function 'std::pair<std::pair<int, int>, int> find_centroids(int, int)':
race.cpp:93:12: warning: 'd' may be used uninitialized in this function [-Wmaybe-uninitialized]
   93 |     return res;
      |            ^~~
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