Overview
| SHA1 Hash: | 8128edf954a98f6553c3d68beead9019109aba93 |
|---|---|
| Date: | 2013-12-15 16:01:46 |
| User: | kinaba |
| Comment: | 378 |
| 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/378-U/1C.cpp version [bb3522cbac3e711c]
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 +#include <tuple> 18 +using namespace std; 19 +typedef long long LL; 20 +typedef complex<double> CMP; 21 + 22 +class TwistyPassages { public: 23 + vector<int> similarRooms(vector<string> maze) 24 + { 25 + map<int,int> e2o; 26 + Graph org = parse_graph(maze); // original graph 27 + Graph exg = construct_extended_graph(org, &e2o); // extended graph 28 + Groups groups = grouping(exg); // grouping 29 + 30 + // similar[ov] = set of nodes indistinguishable from ov (in original graph) 31 + vector<set<int>> similar(maze.size()); 32 + for(auto& e_grp: groups) { 33 + set<int> o_grp; 34 + for(int ev: e_grp) 35 + o_grp.insert(e2o[ev]); 36 + for(int ov: o_grp) 37 + similar[ov].insert(o_grp.begin(), o_grp.end()); 38 + } 39 + 40 + // similar[ov]-1 is the answer. 41 + vector<int> answer(maze.size()); 42 + transform(similar.begin(), similar.end(), answer.begin(), 43 + [](const set<int>& g){return g.size()-1;}); 44 + return answer; 45 + } 46 + 47 + typedef vector<vector<int>> Graph; 48 + Graph parse_graph(const vector<string>& maze) 49 + { 50 + Graph g; 51 + for(auto& m: maze) { 52 + stringstream ss(m); 53 + g.emplace_back(istream_iterator<int>(ss), istream_iterator<int>()); 54 + } 55 + return g; 56 + } 57 + 58 + Graph construct_extended_graph(const Graph& org, map<int,int>* e2o) 59 + { 60 + map<pair<int,int>, int> o2e; 61 + for(int v=0,id=0; v<org.size(); ++v) { 62 + // special handling for outdeg = 0 node 63 + if(org[v].size() == 0) { 64 + (*e2o)[id] = v; 65 + o2e[make_pair(v,0)] = id++; 66 + } 67 + for(int vi=0; vi<org[v].size(); ++vi) { 68 + (*e2o)[id] = v; 69 + o2e[make_pair(v,vi)] = id++; 70 + } 71 + } 72 + 73 + Graph exg(o2e.size()); 74 + map<pair<int,int>, int> nodeid; 75 + for(int v=0; v<org.size(); ++v) 76 + for(int vi=0; vi<org[v].size(); ++vi) { 77 + // (v,vi) : came to the room v from the vi-th road. 78 + for(int k=0; k<org[v].size(); ++k) { 79 + // Go k-th road clockwise from i-th. Reaches (u,ui). 80 + int u = org[v][(vi+k) % org[v].size()]; 81 + int ui = find(org[u].begin(), org[u].end(), v) - org[u].begin(); 82 + // (v,vi)--k-->(u,ui) 83 + exg[o2e[make_pair(v,vi)]].push_back(o2e[make_pair(u,ui)]); 84 + } 85 + } 86 + return exg; 87 + } 88 + 89 + typedef set<set<int>> Groups; 90 + Groups grouping(const Graph& G) 91 + { 92 + // "reverse_edge[u][e] has v" := v--e-->u 93 + const int MaxEdgeNum = G.size(); 94 + vector<vector<vector<int>>> reverse_edge(G.size(), vector<vector<int>>(MaxEdgeNum)); 95 + for(int v=0; v<G.size(); ++v) 96 + for(int e=0; e<G[v].size(); ++e) 97 + reverse_edge[G[v][e]][e].push_back(v); 98 + 99 + vector<int> group_id(G.size()); 100 + map<int, set<int>> groups; 101 + int fresh_group_id = 0; 102 + for(int v=0; v<G.size(); ++v) { 103 + groups[G[v].size()].insert(v); 104 + group_id[v] = G[v].size(); 105 + fresh_group_id = max(fresh_group_id, group_id[v]+1); 106 + } 107 + 108 + queue<set<int>> partitioner; 109 + for(auto& kv: groups) 110 + partitioner.push(kv.second); 111 + 112 + while(!partitioner.empty()) 113 + { 114 + set<int> P = partitioner.front(); 115 + partitioner.pop(); 116 + 117 + for(int e=0; e<MaxEdgeNum; ++e) 118 + { 119 + map<int, set<int>> g2u; 120 + for(int v: P) 121 + for(int u: reverse_edge[v][e]) 122 + g2u[group_id[u]].insert(u); 123 + for(auto& kv: g2u) { 124 + int gid = kv.first; 125 + set<int>& enterP = kv.second; 126 + if(groups[gid].size() != enterP.size()) { 127 + for(int u: enterP) { 128 + group_id[u] = fresh_group_id; 129 + groups[gid].erase(u); 130 + } 131 + groups[fresh_group_id++] = enterP; 132 + partitioner.push(enterP.size() < groups[gid].size() ? enterP : groups[gid]); 133 + } 134 + } 135 + } 136 + } 137 + 138 + Groups result; 139 + for(auto& kv: groups) 140 + result.insert(kv.second); 141 + return result; 142 + } 143 +}; 144 + 145 +// BEGIN CUT HERE 146 +#include <ctime> 147 +double start_time; string timer() 148 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 149 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 150 + { os << "{ "; 151 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 152 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 153 +void verify_case(const vector <int>& Expected, const vector <int>& Received) { 154 + bool ok = (Expected == Received); 155 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 156 + cerr << "\to: " << Expected << endl << "\tx: " << Received << endl; } } 157 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 158 +#define END verify_case(_, TwistyPassages().similarRooms(maze));} 159 +int main(){ 160 + 161 +CASE(0) 162 + string maze_[] = {"1 2 3", "0", "0", "0"}; 163 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 164 + int __[] = {0, 2, 2, 2 }; 165 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 166 +END 167 +CASE(1) 168 + string maze_[] = {"1 2 3", "0", "0", "0 4", "3"}; 169 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 170 + int __[] = {0, 0, 0, 0, 0 }; 171 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 172 +END 173 +CASE(2) 174 + string maze_[] = {"1 2 3", "0", "0", "0 4", "3", 175 + "6 7 8", "5", "5", "5 9", "8"}; 176 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 177 + int __[] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1 }; 178 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 179 +END 180 +CASE(3) 181 + string maze_[] = {"1 2 3 4", "0", "0 5", "0", "6 0", "2", "4", 182 +"8 10 9 11", "7", "7 12", "7", "13 7", "9", "11"}; 183 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 184 + int __[] = {0, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0 }; 185 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 186 +END 187 +CASE(4) 188 + string maze_[] = {"1 2", "2 0", "0 1", "4 6", "5 3", "6 4", "3 5"}; 189 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 190 + int __[] = {6, 6, 6, 6, 6, 6, 6 }; 191 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 192 +END 193 +CASE(5) 194 + string maze_[] = {"1 2 3", "4 5 0", "6 7 0", "8 9 0", "10 11 1", "12 13 1", 195 + "14 15 2", "16 17 2", "18 19 3", "20 21 3", "22 23 4", 196 + "24 25 4", "26 27 5", "28 29 5", "30 31 6", "32 33 6", 197 + "34 35 7", "36 37 7", "38 39 8", "40 41 8", "42 43 9", 198 + "44 45 9", "10", "10", "11", "11", "12", "12", "13", "13", 199 + "14", "14", "15", "15", "16", "16", "17", "17", "18", "18", 200 + "19", "19", "20", "20", "21", "21"}; 201 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 202 + int __[] = {0, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2 }; 203 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 204 +END 205 +CASE(6) 206 + string maze_[] = {"38 7 9 8 43 48 30 41 5 22 26 35 33 4", "14 39 25 35 30 45 18 12 10 8 21 46 22 37 20", "15 37 26 44 19 17 39 16 7 18 45 36 20 42 24", "21 43 26 8 28 10 4 48 25 46 49 31 37 27 15", "8 31 30 3 0 36 41 5 34 25 44 32 9 14 22", "46 33 38 4 47 34 17 6 45 10 41 48 31 43 0", "5 40 17 19 22 43 18 47 31 9 7 15 29 28 23", "19 38 21 11 34 31 9 0 48 30 44 2 26 16 6", "48 12 3 49 0 41 1 28 35 40 36 4 29 33 43", "18 36 6 47 26 37 27 22 0 46 23 41 4 24 7", "42 13 35 28 31 12 11 3 1 20 16 45 19 40 5", "14 15 45 46 13 7 27 39 25 38 44 17 16 10 43", "48 8 15 42 47 10 29 45 39 1 19 25 44 32 26", "47 24 11 36 41 42 16 38 37 20 32 31 45 29 10", "31 48 49 25 11 38 18 23 43 4 22 41 24 1 27", "32 34 23 11 6 43 2 22 48 45 17 41 12 16 3", "7 46 18 28 20 19 43 31 27 2 15 13 39 10 11", "19 26 28 2 30 23 15 5 24 47 25 18 6 42 11", "26 6 24 46 17 42 45 14 16 9 22 27 1 33 2", "30 6 17 37 39 33 49 2 21 46 16 27 7 10 12", "13 32 41 1 39 16 42 27 2 33 40 24 45 48 10", "36 37 41 1 30 7 23 35 40 44 26 47 39 3 19", "14 6 23 40 0 43 9 29 1 18 31 15 28 34 4", "30 14 6 28 34 22 48 9 40 21 42 17 15 37 32", "48 40 44 26 9 20 13 43 17 2 18 29 14 42 46", "32 12 43 1 17 39 29 14 3 36 11 40 4 49 33", "0 7 39 3 12 49 38 36 21 29 18 17 9 2 24", "29 28 38 16 18 46 9 3 35 36 40 20 14 11 19", "33 39 35 38 3 6 22 10 23 17 27 46 16 8 42", "13 26 25 37 33 44 12 48 6 41 46 24 8 22 27", "34 41 38 21 0 19 23 4 7 49 1 44 17 40 35", "3 14 32 4 5 37 7 6 13 10 22 16 44 47 49", "15 4 13 31 38 23 42 20 12 46 35 25 43 34 37", "39 44 19 0 18 28 20 37 29 48 8 45 25 5 34", "36 44 47 7 15 4 33 30 42 32 22 40 5 23 41", "40 27 42 8 45 32 10 0 28 1 49 46 30 47 21", "4 2 21 47 8 38 27 45 39 13 49 26 9 25 34", "42 21 31 29 13 47 32 3 9 33 2 23 45 1 19", "0 43 7 28 44 13 27 32 49 14 36 11 5 30 26", "16 36 21 20 12 48 26 41 2 11 28 33 1 19 25", "8 22 10 6 35 20 25 23 41 27 30 24 44 34 21", "13 29 39 15 0 30 40 20 4 5 34 14 8 9 21", "28 10 32 17 34 37 13 2 18 20 12 24 35 49 23", "5 47 25 24 11 8 14 38 16 6 32 15 22 3 0", "40 38 30 21 31 46 34 29 11 33 4 12 24 2 7", "35 49 36 10 12 11 37 18 33 2 20 1 13 15 5", "3 28 35 1 19 9 18 27 32 44 24 11 29 16 5", "9 43 6 31 12 13 35 21 36 5 49 34 48 17 37", "24 33 5 8 15 12 47 29 0 7 23 20 14 39 3", "19 3 14 8 38 47 30 36 35 25 31 26 42 45"}; 207 +; 208 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 209 + int __[] = {0}; 210 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 211 +END 212 +/* 213 +CASE(7) 214 + string maze_[] = ; 215 + vector <string> maze(maze_, maze_+sizeof(maze_)/sizeof(*maze_)); 216 + int __[] = ; 217 + vector <int> _(__, __+sizeof(__)/sizeof(*__)); 218 +END 219 +*/ 220 +} 221 +// END CUT HERE