Submission #827263

#TimeUsernameProblemLanguageResultExecution timeMemory
827263lollipopThousands Islands (IOI22_islands)C++17
31 / 100
1119 ms1060456 KiB
#include<bits/stdc++.h> #include <ext/pb_ds/assoc_container.hpp> #include <ext/pb_ds/tree_policy.hpp> #include <ext/rope> #define ll long long //#define int long long #define pb push_back #define s second #define f first #define pf push_front #define inf 1000000000000000 #define bitebi __builtin_popcountll #define FOR( i , n ) for( int i = 0 ; i < n ; i ++ ) #define YES cout <<"YES\n" #define NO cout << "NO\n" #define debug cout << "Here Fine" << endl ; #define pr pair < int , int > #define fbo find_by_order // returns iterator #define ook order_of_key // returns strictly less numbers than key using namespace std ; // #pragma GCC optimize("Ofast") // #pragma GCC target("avx,avx2,fma") using namespace __gnu_pbds; using namespace __gnu_cxx; #define ordered_set tree<int, null_type,less<int>, rb_tree_tag,tree_order_statistics_node_update> const double Pi=acos(-1.0); const double EPS=1E-8; const int mod = 1000000007 ; const int mod1 = 998244353 ; const int N = 4e5 + 10 ; //mt19937 R(time(0)); map < string , int > ma , ma1 ; #include <variant> #include "islands.h" vector < int > cur[ N ] , uu , vv , pas ; vector < pair < int , int > > v ; int n , m , been[ N ] ; int pp[ N ] , us[ N ] ; void make_path( int node , int par ){ int A = node ; int B = vv[ cur[ node ][ 0 ] ] ; if( B == par ) B = vv[ cur[ node ][ 1 ] ] ; int D = vv[ cur[ node ] [ 0 ] ] + vv[ cur[ node ][ 1 ] ] + vv[ cur[ node ][ 2 ] ] ; D = D - B - par ; int a = -1 , b = -1 , c = -1 , d = -1 ; FOR( i , m ){ if( a == -1 && uu[ i ] == A && vv[ i ] == B && us[ i ] == 0 ) a = i , us[ i ] = 1 ; if( b == -1 && uu[ i ] == B && vv[ i ] == A && us[ i ] == 0 ) b = i , us[ i ] = 1 ; if( c == -1 && uu[ i ] == A && vv[ i ] == D && us[ i ] == 0 ) c = i , us[ i ] = 1 ; if( d == -1 && uu[ i ] == D && vv[ i ] == A && us[ i ] == 0 ) d = i , us[ i ] = 1 ; } if( a != -1 && b != -1 && c != -1 && d != -1 ){ pas.pb( a ) ; pas.pb( b ) ; pas.pb( c ) ; pas.pb( d ) ; pas.pb( b ) ; pas.pb( a ) ; pas.pb( d ) ; pas.pb( c ) ; } } int check(){ int tt = -1 ; int node = 0 , par = -1 ; while( true ){ pp[ node ] = par ; been[ node ] = 1 ; if( cur[ node ].size() == 1 && node != 0 ){ return -1 ; } if( cur[ node ].size() > 2 ){ vector < int > pip = pas ; make_path( node , par ) ; for( int j = pip.size() - 1 ; j >= 0 ; j -- ) pas.pb( pip[ j ] ) ; return 1 ; } // finding next one and the path int nx = vv[ cur[ node ][ 0 ] ] ; if( par == nx ){ pas.pb( cur[ node ][ 1 ] ) ; us[ cur[ node ][ 1 ] ] = 1 ; nx = vv[ cur[ node ][ 1 ] ] ; } else pas.pb( cur[ node ][ 0 ] ) , us[ cur[ node ][ 0 ] ] = 1 ; // if( been[ nx ] == 1 ){ // // find the cycle // return 1 ; // } par = node ; node = nx ; } return tt ; } int col[ N ] ; int tita = 0 ; int papiki[ N ] ; vector < int > pth , axl ; //int pp[ N ] ; void make_cycle( int bg , int nd , int nmb ){ pas.clear() ; int BG = bg ; while( BG != 0 ){ axl.pb( papiki[ BG ] ) ; BG = pp[ BG ] ; } // before cycle reverse( axl.begin() , axl.end() ) ; for( auto x : axl ) pas.pb( x ) ; // now for cycle pth.pb( nmb ) ; int cur = nd ; while( true ){ if( cur == bg ) break ; pth.pb( papiki[ cur ] ) ; cur = pp[ cur ] ; } reverse( pth.begin() , pth.end() ) ; for( auto x : pth ) pas.pb( x ) ; for( auto x : pth ){ pas.pb( x + 1 ) ; } reverse( pth.begin() , pth.end() ) ; for( auto x : pth ) pas.pb( x ) ; for( auto x : pth ){ pas.pb( x + 1 ) ; } // after cycle reverse( axl.begin() , axl.end() ) ; for( auto x : axl ) pas.pb( x ) ; return ; } void dfs( int node ){ col[ node ] = 2 ; if( tita == 1 ) return ; for( auto X : cur[ node ] ){ int x = vv[ X ] ; if( col[ x ] == 2 ){ tita = 1 ; make_cycle( x , node , X ) ; return ; } if( col[ x ] == 1 ) continue ; pp[ x ] = node ; papiki[ x ] = X ; dfs( x ) ; } col[ node ] = 1 ; } int check1(){ int tt = -1 ; dfs( 0 ) ; if( tita == 1 ) tt = 1 ; return tt ; } variant<bool, vector<int>> find_journey( int N, int M, vector<int> U, vector<int> V){ uu = U ; vv = V ; n = N ; m = M ; FOR( i , M ){ cur[ U[ i ] ].pb( i ) ; v.pb( { U[ i ] , V[ i ] } ) ; } if( N == 2 ){ if( cur[ 0 ].size() < 2 || cur[ 1 ].size() < 1 ){ return false ; } vector < int > ans ; ans.pb( cur[ 0 ][ 0 ] ) ; ans.pb( cur[ 1 ][ 0 ] ) ; ans.pb( cur[ 0 ][ 1 ] ) ; ans.pb( cur[ 0 ][ 0 ] ) ; ans.pb( cur[ 1 ][ 0 ] ) ; ans.pb( cur[ 0 ][ 1 ] ) ; return ans ; } if( cur[ 0 ].size() == 0 ) return false ; int a = -1 , b = -1 , c = -1 , d = -1 ; int cc1 = -1 , cc2 = -1 ; cc1 = V[ cur[ 0 ][ 0 ] ] ; if( cur[ 0 ].size() > 1 ){ cc2 = V[ cur[ 0 ][ 1 ] ] ; } FOR( i , M ){ if( a == -1 && uu[ i ] == 0 && vv[ i ] == cc1 && us[ i ] == 0 ) a = i , us[ i ] = 1 ; if( b == -1 && uu[ i ] == cc1 && vv[ i ] == 0 && us[ i ] == 0 ) b = i , us[ i ] = 1 ; if( c == -1 && uu[ i ] == 0 && vv[ i ] == cc2 && us[ i ] == 0 ) c = i , us[ i ] = 1 ; if( d == -1 && uu[ i ] == cc2 && vv[ i ] == 0 && us[ i ] == 0 ) d = i , us[ i ] = 1 ; } if( a != -1 && b != -1 && c != -1 && d != -1 ){ vector < int > ans ; ans.pb( a ) ; ans.pb( b ) ; ans.pb( c ) ; ans.pb( d ) ; ans.pb( b ) ; ans.pb( a ) ; ans.pb( d ) ; ans.pb( c ) ; return ans ; } int titu = 0 ; if( m % 2 != 0 ) titu = -1 ; for( int i = 0 ; i < m ; i += 2 ){ int cc = -1 ; if( U[ i ] == V[ i + 1 ] && V[ i ] == U[ i + 1 ] ) cc = 0 ; titu = min( titu , cc ) ; } if( titu == 0 ){ // subtask 3 // sheamowme prosta xazia tuara int tt = check() ; if( tt == -1 ) return false ; return pas ; } pas.clear() ; int tt = check1() ; if( tt == -1 ) return false ; return pas ; } // int main() { // int N, M; // assert(2 == scanf("%d %d", &N, &M)); // std::vector<int> U(M), V(M); // for (int i = 0; i < M; ++i) { // assert(2 == scanf("%d %d", &U[i], &V[i])); // } // std::variant<bool, std::vector<int>> result = find_journey(N, M, U, V); // if (result.index() == 0) { // printf("0\n"); // if (std::get<bool>(result)) { // printf("1\n"); // } else { // printf("0\n"); // } // } else { // printf("1\n"); // std::vector<int> &canoes = std::get<std::vector<int>>(result); // printf("%d\n", static_cast<int>(canoes.size())); // for (int i = 0; i < static_cast<int>(canoes.size()); ++i) { // if (i > 0) { // printf(" "); // } // printf("%d", canoes[i]); // } // printf("\n"); // } // return 0; // }
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