Overview
| SHA1 Hash: | 743781a2d9e9bcfa5927a91f9d130dbb23b2a1c9 |
|---|---|
| Date: | 2012-06-26 00:19:03 |
| User: | kinaba |
| Comment: | TCO12-3A |
| Timelines: | family | ancestors | descendants | both | trunk |
| Downloads: | Tarball | ZIP archive |
| Other Links: | files | file ages | manifest |
Tags And Properties
- branch=trunk inherited from [9165bd3629]
- sym-trunk inherited from [9165bd3629]
Changes
Added SRM/TCO12-3A-U/1A-U.cpp version [a664e23344c8df16]
1 +#include <iostream> 2 +#include <sstream> 3 +#include <iomanip> 4 +#include <vector> 5 +#include <string> 6 +#include <map> 7 +#include <set> 8 +#include <algorithm> 9 +#include <numeric> 10 +#include <iterator> 11 +#include <functional> 12 +#include <complex> 13 +#include <queue> 14 +#include <stack> 15 +#include <cmath> 16 +#include <cassert> 17 +using namespace std; 18 +typedef long long LL; 19 +typedef long double LD; 20 +typedef complex<LD> CMP; 21 + 22 +class ChromaticNumber { public: 23 + int minColors(vector <string> graph) 24 + { 25 + const int N = graph.size(); 26 + 27 + vector< vector<bool> > conn(N, vector<bool>(N, false)); 28 + vector<int> deg(N); 29 + for(int i=0; i<N; ++i) 30 + for(int j=0; j<N; ++j) 31 + if(i!=j) { 32 + conn[i][j] = (graph[i][j]=='N'); 33 + deg[i] += (graph[i][j]=='N'); 34 + } 35 + 36 + for(int k=0; k<N; ++k) 37 + for(int i=0; i<N; ++i) 38 + for(int j=0; j<N; ++j) 39 + conn[i][j] = conn[i][j] | (conn[i][k] & conn[k][j]); 40 + 41 + int answer = 0; 42 + 43 + vector<bool> used(N, false); 44 + for(int i=0; i<N; ++i) if(!used[i]) { 45 + vector<int> ps(1, i); 46 + for(int k=i+1; k<N; ++k) 47 + if( conn[i][k] ) 48 + ps.push_back(k); 49 + bool all_deg2 = true; 50 + for(int k=0; k<ps.size(); ++k) { 51 + used[ps[k]] = true; 52 + all_deg2 = all_deg2 && (deg[ps[k]]==2); 53 + } 54 + answer += (all_deg2 ? cycle(ps.size()) : line(ps.size())); 55 + } 56 + 57 + return answer; 58 + } 59 + 60 + int cycle(int N) 61 + { 62 + return N==3 ? 1 : (N+1)/2; 63 + } 64 + 65 + int line(int N) 66 + { 67 + return (N+1)/2; 68 + } 69 +}; 70 + 71 +// BEGIN CUT HERE 72 +#include <ctime> 73 +double start_time; string timer() 74 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 75 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 76 + { os << "{ "; 77 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 78 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 79 +void verify_case(const int& Expected, const int& Received) { 80 + bool ok = (Expected == Received); 81 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 82 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 83 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 84 +#define END verify_case(_, ChromaticNumber().minColors(graph));} 85 +int main(){ 86 + 87 +CASE(0) 88 + string graph_[] = {"N"}; 89 + vector <string> graph(graph_, graph_+sizeof(graph_)/sizeof(*graph_)); 90 + int _ = 1; 91 +END 92 +CASE(1) 93 + string graph_[] = {"NYY", 94 + "YNN", 95 + "YNN"}; 96 + vector <string> graph(graph_, graph_+sizeof(graph_)/sizeof(*graph_)); 97 + int _ = 2; 98 +END 99 +CASE(2) 100 + string graph_[] = {"NYNN", 101 + "YNNN", 102 + "NNNY", 103 + "NNYN"}; 104 + vector <string> graph(graph_, graph_+sizeof(graph_)/sizeof(*graph_)); 105 + int _ = 2; 106 +END 107 +CASE(3) 108 + string graph_[] = {"NYNY", 109 + "YNYY", 110 + "NYNN", 111 + "YYNN"}; 112 + vector <string> graph(graph_, graph_+sizeof(graph_)/sizeof(*graph_)); 113 + int _ = 3; 114 +END 115 +CASE(4) 116 + string graph_[] = {"NYYYYYYY", 117 + "YNYYYYYY", 118 + "YYNYYYYY", 119 + "YYYNYYYY", 120 + "YYYYNYYY", 121 + "YYYYYNYY", 122 + "YYYYYYNY", 123 + "YYYYYYYN"}; 124 + vector <string> graph(graph_, graph_+sizeof(graph_)/sizeof(*graph_)); 125 + int _ = 8; 126 +END 127 +/* 128 +CASE(5) 129 + string graph_[] = ; 130 + vector <string> graph(graph_, graph_+sizeof(graph_)/sizeof(*graph_)); 131 + int _ = ; 132 +END 133 +CASE(6) 134 + string graph_[] = ; 135 + vector <string> graph(graph_, graph_+sizeof(graph_)/sizeof(*graph_)); 136 + int _ = ; 137 +END 138 +*/ 139 +} 140 +// END CUT HERE
Added SRM/TCO12-3A-U/1B-U.cpp version [0e85fb8ba9e38d9b]
1 +#include <iostream> 2 +#include <sstream> 3 +#include <iomanip> 4 +#include <vector> 5 +#include <string> 6 +#include <map> 7 +#include <set> 8 +#include <algorithm> 9 +#include <numeric> 10 +#include <iterator> 11 +#include <functional> 12 +#include <complex> 13 +#include <queue> 14 +#include <stack> 15 +#include <cmath> 16 +#include <cassert> 17 +using namespace std; 18 +typedef long long LL; 19 +typedef long double LD; 20 +typedef complex<LD> CMP; 21 + 22 + 23 +//------------------------------------------------------------- 24 +// Dinic's Algorithm 25 +// O(V E) 26 +// 27 +// G : bidirectional (G[i].has(j) <==> G[j].has(i)) 28 +// F : flow-capacity F[i][j] = Capacity, F[j][i] = 0 29 +// 30 +// Verified by 31 +// - SRM 399 Div1 LV3 32 +// - PKU 1459 33 +// - CodeCraft 09 CUTS 34 +// - SRM 465 Div1 LV2 35 +// - SRM 543 Div1 LV3 36 +//------------------------------------------------------------- 37 + 38 +template<typename T> 39 +class IdGen 40 +{ 41 + map<T, int> v2id_; 42 + vector<T> id2v_; 43 +public: 44 + int v2id(const T& v) { 45 + if( !v2id_.count(v) ) { v2id_[v] = size(); id2v_.push_back(v); } 46 + return v2id_[v]; 47 + } 48 + const T& id2v(int i) const { return id2v_[i]; } 49 + int size() const { return id2v_.size(); } 50 +}; 51 + 52 +template<typename Vert, typename Flow, int NV=2048> 53 +class MaxFlow 54 +{ 55 + IdGen<Vert> idgen; 56 + vector<int> G[NV]; 57 + Flow F[NV][NV]; 58 + 59 +public: 60 + void addEdge( Vert s_, Vert t_, Flow f ) 61 + { 62 + const int s = idgen.v2id(s_), t = idgen.v2id(t_); 63 + G[s].push_back(t); 64 + G[t].push_back(s); 65 + F[s][t] = f; 66 + F[t][s] = 0; 67 + } 68 + 69 + Flow calc( Vert s_, Vert t_ ) 70 + { 71 + const int S = idgen.v2id(s_), D = idgen.v2id(t_); 72 + for( Flow total=0 ;; ) { 73 + // Do BFS and compute the level for each node. 74 + int LV[NV] = {0}; 75 + vector<int> Q(1, S); 76 + for(int lv=1; !Q.empty(); ++lv) { 77 + vector<int> Q2; 78 + for(size_t i=0; i!=Q.size(); ++i) { 79 + const vector<int>& ne = G[Q[i]]; 80 + for(size_t j=0; j!=ne.size(); ++j) 81 + if( F[Q[i]][ne[j]] && !LV[ne[j]] && ne[j]!=S ) 82 + LV[ne[j]]=lv, Q2.push_back(ne[j]); 83 + } 84 + Q.swap(Q2); 85 + } 86 + 87 + // Destination is now unreachable. Done. 88 + if( !LV[D] ) 89 + return total; 90 + 91 + // Iterating DFS. 92 + bool blocked[NV] = {}; 93 + total += dinic_dfs( S, D, LV, 0x7fffffff, blocked ); 94 + } 95 + } 96 + 97 +private: 98 + Flow dinic_dfs( int v, int D, int LV[], Flow flow_in, bool blocked[] ) 99 + { 100 + Flow flow_out = 0; 101 + for(size_t i=0; i!=G[v].size(); ++i) { 102 + int u = G[v][i]; 103 + if( LV[v]+1==LV[u] && F[v][u] ) { 104 + Flow f = min(flow_in-flow_out, F[v][u]); 105 + if( u==D || !blocked[u] && (f=dinic_dfs(u,D,LV,f,blocked))>0 ) { 106 + F[v][u] -= f; 107 + F[u][v] += f; 108 + flow_out += f; 109 + if( flow_in == flow_out ) return flow_out; 110 + } 111 + } 112 + } 113 + blocked[v] = (flow_out==0); 114 + return flow_out; 115 + } 116 +}; 117 + 118 +class FoxAndCake { public: 119 + string ableToDivide(int W, int H, vector <int> x, vector <int> y) 120 + { 121 + vector< vector<char> > M = compress(W, H, x, y); 122 + H = M.size(); 123 + W = M[0].size(); 124 + 125 + typedef pair< int, pair<int,int> > Vert; 126 + enum {IN, OUT, SPECIAL}; 127 + Vert Src(SPECIAL, make_pair(0, 0)); 128 + Vert Sink(SPECIAL, make_pair(1, 1)); 129 + 130 + MaxFlow<Vert,int,7*7*7*2+2> G; 131 + for(int y=0; y<H; ++y) 132 + for(int x=0; x<W; ++x) if( M[y][x]!='#' ) 133 + { 134 + int dy[] = {-1,+1,0,0}; 135 + int dx[] = {0,0,-1,+1}; 136 + for(int d=0; d<4; ++d) { 137 + int yy = y + dy[d]; 138 + int xx = x + dx[d]; 139 + if(0<=yy&&yy<H&&0<=xx&&xx<W&&M[yy][xx]!='#') 140 + G.addEdge(Vert(OUT, make_pair(y,x)), Vert(IN, make_pair(yy,xx)), 1); 141 + } 142 + 143 + G.addEdge(Vert(IN, make_pair(y,x)), Vert(OUT, make_pair(y,x)), 1); 144 + if(M[y][x]=='C') G.addEdge(Src, Vert(IN, make_pair(y,x)), 1); 145 + if(M[y][x]=='S') G.addEdge(Vert(OUT, make_pair(y,x)), Sink, 1); 146 + } 147 + 148 + return G.calc(Src, Sink)==3 ? "Yes" : "No"; 149 + } 150 + 151 + vector< vector<char> > compress(int W, int H, vector<int>& x, vector<int>& y) 152 + { 153 + for(int i=0; i<7; ++i) 154 + --x[i], --y[i]; 155 + 156 + set<int> sigx, sigy; 157 + for(int i=0; i<7; ++i) 158 + for(int d=-3; d<=+3; ++d) { 159 + if(0<=x[i]+d && x[i]+d<W) 160 + sigx.insert(x[i]+d); 161 + if(0<=y[i]+d && y[i]+d<H) 162 + sigy.insert(y[i]+d); 163 + } 164 + vector<int> sx(sigx.begin(), sigx.end()); 165 + vector<int> sy(sigy.begin(), sigy.end()); 166 + map<int,int> inv_sx; for(int i=0; i<sx.size(); ++i) inv_sx[sx[i]] = i; 167 + map<int,int> inv_sy; for(int i=0; i<sy.size(); ++i) inv_sy[sy[i]] = i; 168 + W = sx.size(); 169 + H = sy.size(); 170 + 171 + vector< vector<char> > result(H, vector<char>(W, ' ')); 172 + for(int i=0; i<7; ++i) { 173 + int xx = inv_sx[x[i]]; 174 + int yy = inv_sy[y[i]]; 175 + result[yy][xx] = (i==0?'#':i<4?'C':'S'); 176 + } 177 + return result; 178 + } 179 + 180 +}; 181 + 182 +// BEGIN CUT HERE 183 +#include <ctime> 184 +double start_time; string timer() 185 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 186 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 187 + { os << "{ "; 188 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 189 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 190 +void verify_case(const string& Expected, const string& Received) { 191 + bool ok = (Expected == Received); 192 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 193 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 194 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 195 +#define END verify_case(_, FoxAndCake().ableToDivide(n, m, x, y));} 196 +int main(){ 197 + 198 +CASE(0) 199 + int n = 2; 200 + int m = 4; 201 + int x_[] = {1,1,1,1,2,2,2}; 202 + vector <int> x(x_, x_+sizeof(x_)/sizeof(*x_)); 203 + int y_[] = {1,2,3,4,2,3,4}; 204 + vector <int> y(y_, y_+sizeof(y_)/sizeof(*y_)); 205 + string _ = "Yes"; 206 +END 207 +CASE(1) 208 + int n = 2; 209 + int m = 4; 210 + int x_[] = {1,1,2,1,2,1,2}; 211 + vector <int> x(x_, x_+sizeof(x_)/sizeof(*x_)); 212 + int y_[] = {1,2,2,3,3,4,4}; 213 + vector <int> y(y_, y_+sizeof(y_)/sizeof(*y_)); 214 + string _ = "No"; 215 +END 216 +CASE(2) 217 + int n = 6; 218 + int m = 6; 219 + int x_[] = {1,1,3,4,3,4,5}; 220 + vector <int> x(x_, x_+sizeof(x_)/sizeof(*x_)); 221 + int y_[] = {2,6,4,5,5,4,2}; 222 + vector <int> y(y_, y_+sizeof(y_)/sizeof(*y_)); 223 + string _ = "Yes"; 224 +END 225 +CASE(3) 226 + int n = 999999999; 227 + int m = 999999999; 228 + int x_[] = {500000000,1,1,1,999999999,999999999,999999999}; 229 + vector <int> x(x_, x_+sizeof(x_)/sizeof(*x_)); 230 + int y_[] = {500000000,1,2,3,999999997,999999998,999999999}; 231 + vector <int> y(y_, y_+sizeof(y_)/sizeof(*y_)); 232 + string _ = "Yes"; 233 +END 234 +CASE(4) 235 + int n = 1000000000; 236 + int m = 1000000000; 237 + int x_[] = {500000000,1,1,2,999999998,999999999,999999999}; 238 + vector <int> x(x_, x_+sizeof(x_)/sizeof(*x_)); 239 + int y_[] = {500000000,1,2,1,999999999,999999998,999999999}; 240 + vector <int> y(y_, y_+sizeof(y_)/sizeof(*y_)); 241 + string _ = "No"; 242 +END 243 +CASE(5) 244 + int n = 7; 245 + int m = 2; 246 + int x_[] = {4,1,2,3,5,6,7}; 247 + vector <int> x(x_, x_+sizeof(x_)/sizeof(*x_)); 248 + int y_[] = {2,1,2,2,2,2,1}; 249 + vector <int> y(y_, y_+sizeof(y_)/sizeof(*y_)); 250 + string _ = "No"; 251 +END 252 +CASE(6) 253 + int n = 7; 254 + int m = 2; 255 + int x_[] = {5,1,2,4,3,6,7}; 256 + vector <int> x(x_, x_+sizeof(x_)/sizeof(*x_)); 257 + int y_[] = {1,1,1,1,1,1,1}; 258 + vector <int> y(y_, y_+sizeof(y_)/sizeof(*y_)); 259 + string _ = "No"; 260 +END 261 +} 262 +// END CUT HERE