Overview
| SHA1 Hash: | 3ec8b9143e5111745128c7bdf9bab7b328b20b83 |
|---|---|
| Date: | 2013-07-19 14:11:31 |
| User: | kinaba |
| Comment: | 584 |
| 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/584-U/1A.cpp version [278a4ddd790b0339]
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<double> CMP; 21 + 22 +class Egalitarianism { public: 23 + int maxDifference(vector <string> isFriend, int d) 24 + { 25 + int N = isFriend.size(); 26 + int INF = 0x3fffffff; 27 + vector< vector<int> > g(N, vector<int>(N, INF)); 28 + for(int x=0; x<N; ++x) 29 + for(int y=0; y<N; ++y) 30 + if(x==y) 31 + g[x][y] = 0; 32 + else if(isFriend[x][y]=='Y') 33 + g[x][y] = 1; 34 + 35 + for(int k=0; k<N; ++k) 36 + for(int i=0; i<N; ++i) 37 + for(int j=0; j<N; ++j) 38 + g[i][j] = min(g[i][j], g[i][k]+g[k][j]); 39 + 40 + int maxd = 0; 41 + for(int x=0; x<N; ++x) 42 + for(int y=0; y<N; ++y) 43 + maxd = max(maxd, g[x][y]); 44 + return maxd==INF ? -1 : maxd*d; 45 + } 46 +}; 47 + 48 +// BEGIN CUT HERE 49 +#include <ctime> 50 +double start_time; string timer() 51 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 52 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 53 + { os << "{ "; 54 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 55 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 56 +void verify_case(const int& Expected, const int& Received) { 57 + bool ok = (Expected == Received); 58 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 59 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 60 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 61 +#define END verify_case(_, Egalitarianism().maxDifference(isFriend, d));} 62 +int main(){ 63 + 64 +CASE(0) 65 + string isFriend_[] = {"NYN", 66 + "YNY", 67 + "NYN"}; 68 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 69 + int d = 10; 70 + int _ = 20; 71 +END 72 +CASE(1) 73 + string isFriend_[] = {"NN", 74 + "NN"}; 75 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 76 + int d = 1; 77 + int _ = -1; 78 +END 79 +CASE(2) 80 + string isFriend_[] = {"NNYNNN", 81 + "NNYNNN", 82 + "YYNYNN", 83 + "NNYNYY", 84 + "NNNYNN", 85 + "NNNYNN"}; 86 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 87 + int d = 1000; 88 + int _ = 3000; 89 +END 90 +CASE(3) 91 + string isFriend_[] = {"NNYN", 92 + "NNNY", 93 + "YNNN", 94 + "NYNN"}; 95 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 96 + int d = 584; 97 + int _ = -1; 98 +END 99 +CASE(4) 100 + string isFriend_[] = {"NYNYYYN", 101 + "YNNYYYN", 102 + "NNNNYNN", 103 + "YYNNYYN", 104 + "YYYYNNN", 105 + "YYNYNNY", 106 + "NNNNNYN"}; 107 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 108 + int d = 5; 109 + int _ = 20; 110 +END 111 +CASE(5) 112 + string isFriend_[] = {"NYYNNNNYYYYNNNN", 113 + "YNNNYNNNNNNYYNN", 114 + "YNNYNYNNNNYNNNN", 115 + "NNYNNYNNNNNNNNN", 116 + "NYNNNNYNNYNNNNN", 117 + "NNYYNNYNNYNNNYN", 118 + "NNNNYYNNYNNNNNN", 119 + "YNNNNNNNNNYNNNN", 120 + "YNNNNNYNNNNNYNN", 121 + "YNNNYYNNNNNNNNY", 122 + "YNYNNNNYNNNNNNN", 123 + "NYNNNNNNNNNNNNY", 124 + "NYNNNNNNYNNNNYN", 125 + "NNNNNYNNNNNNYNN", 126 + "NNNNNNNNNYNYNNN"} 127 +; 128 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 129 + int d = 747; 130 + int _ = 2988; 131 +END 132 +/* 133 +CASE(6) 134 + string isFriend_[] = {"NY", 135 + "YN"}; 136 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 137 + int d = 0; 138 + int _ = 0; 139 +END 140 +CASE(7) 141 + string isFriend_[] = ; 142 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 143 + int d = ; 144 + int _ = ; 145 +END 146 +CASE(8) 147 + string isFriend_[] = ; 148 + vector <string> isFriend(isFriend_, isFriend_+sizeof(isFriend_)/sizeof(*isFriend_)); 149 + int d = ; 150 + int _ = ; 151 +END 152 +*/ 153 +} 154 +// END CUT HERE
Added SRM/584-U/1B-U.cpp version [7cd5022ef19f47d8]
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<double> CMP; 21 + 22 +template<typename T> 23 +vector<int> compress(const vector<T>& xs, int origin = 0) 24 +{ 25 + vector< pair<T,int> > xi; 26 + for(int i=0; i<xs.size(); ++i) 27 + xi.push_back( make_pair(xs[i], i) ); 28 + sort(xi.begin(), xi.end()); 29 + 30 + vector<int> result(xs.size()); 31 + for(int k=0,id=origin; k<xi.size(); ++k) { 32 + if(0<=k-1 && xi[k-1].first<xi[k].first) 33 + ++id; 34 + result[xi[k].second] = id; 35 + } 36 + return result; 37 +} 38 + 39 +std::vector<int> compress(const std::vector<int>& xs) // convert to 1-origin rank 40 +{ 41 + set<int> s(xs.begin(), xs.end()); 42 + map<int,int> mp; 43 + int ID = 1; 44 + for(set<int>::iterator it=s.begin(); it!=s.end(); ++it) 45 + mp[*it] = ID++; 46 + 47 + std::vector<int> result(xs.size()); 48 + for(int k=0; k<xs.size(); ++k) 49 + result[k] = mp[xs[k]]; 50 + return result; 51 +} 52 + 53 +LL C(LL n, LL k) 54 +{ 55 + if(n<k) 56 + return 0; 57 + 58 + k = min(k, n-k); 59 + 60 + LL c = 1; 61 + for(LL i=0; i<k; ++i) 62 + c *= n-i, c /= i+1; 63 + return c; 64 +} 65 + 66 +class Excavations { public: 67 + long long count(vector <int> kind, vector <int> depth, vector <int> found, int K) 68 + { 69 + depth = compress(depth, 1); 70 + int MD = *max_element(depth.begin(), depth.end()); 71 + 72 + map< int, vector<int> > kind_to_depth; 73 + set<int> found_set(found.begin(), found.end()); 74 + 75 + for(int i=0; i<kind.size(); ++i) 76 + kind_to_depth[kind[i]].push_back(depth[i]); 77 + 78 + vector< vector<LL> > tbl_f(K+1, vector<LL>(MD+1)); 79 + vector< vector<LL> > tbl_nf(K+1, vector<LL>(MD+1)); 80 + for(int d=0; d<=MD; ++d) 81 + tbl_f[0][d] = tbl_nf[0][d] = 1; 82 + 83 + for(map<int,vector<int> >::iterator it=kind_to_depth.begin(); it != kind_to_depth.end(); ++it) { 84 + bool f = !!found_set.count(it->first); 85 + vector<int> ds = it->second; 86 + sort(ds.begin(), ds.end()); 87 + vector< vector<LL> > tbl2 = calc_table(K, MD, ds, f); 88 + vector< vector<LL> >& tbl = (f ? tbl_f : tbl_nf); 89 + tbl = combine(K, MD, tbl, tbl2); 90 + } 91 + 92 + LL total = 0; 93 + for(int k=0; k<=K; ++k) 94 + total += cross(tbl_f[k], tbl_nf[K-k]); 95 + return total; 96 + } 97 + 98 + LL cross(const vector<LL>& f, const vector<LL>& n) 99 + { 100 + vector< pair<int,LL> > pf; 101 + for(int d=0; d<f.size(); ++d) { 102 + LL cnt = (d==0 ? f[d] : f[d]-f[d-1]); 103 + if(cnt) { 104 + pf.push_back(make_pair(d, cnt)); 105 + } 106 + } 107 + 108 + vector< pair<int,LL> > nf; 109 + for(int d=0; d<n.size(); ++d) { 110 + LL cnt = (d==n.size()-1 ? n[d] : n[d]-n[d+1]); 111 + if(cnt) { 112 + nf.push_back(make_pair(d, cnt)); 113 + } 114 + } 115 + 116 + LL total = 0; 117 + for(int i=0; i<pf.size(); ++i) 118 + for(int k=0; k<nf.size(); ++k) 119 + { 120 + if(pf[i].first <= nf[k].first) 121 + total += pf[i].second * nf[k].second; 122 + } 123 + return total; 124 + } 125 + 126 + vector< vector<LL> > calc_table(int K, int D, const vector<int>& ds, bool found) 127 + { 128 + vector< vector<LL> > tbl(K+1, vector<LL>(D+1)); 129 + for(int d=0; d<=D; ++d) 130 + { 131 + int num_discover = upper_bound(ds.begin(), ds.end(), d) - ds.begin(); 132 + for(int k=0; k<=K; ++k) 133 + tbl[k][d] = (found ? (k==0 ? 0 : C(num_discover, k)) : C(ds.size()-num_discover, k)); 134 + } 135 + return tbl; 136 + } 137 + 138 + vector< vector<LL> > combine(int K, int D, const vector<vector<LL> >& s, const vector<vector<LL> >& t) 139 + { 140 + vector< vector<LL> > r(K+1, vector<LL>(D+1)); 141 + for(int ks=0; ks<=K; ++ks) 142 + for(int kt=0; kt<=K; ++kt) if(ks+kt<=K) 143 + for(int d=0; d<=D; ++d) 144 + r[ks+kt][d] += s[ks][d] * t[kt][d]; 145 + return r; 146 + } 147 +}; 148 + 149 +// BEGIN CUT HERE 150 +#include <ctime> 151 +double start_time; string timer() 152 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 153 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 154 + { os << "{ "; 155 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 156 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 157 +void verify_case(const long long& Expected, const long long& Received) { 158 + bool ok = (Expected == Received); 159 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 160 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 161 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 162 +#define END verify_case(_, Excavations().count(kind, depth, found, K));} 163 +int main(){ 164 + 165 +CASE(0) 166 + int kind_[] = {1, 1, 2, 2}; 167 + vector <int> kind(kind_, kind_+sizeof(kind_)/sizeof(*kind_)); 168 + int depth_[] = {10, 15, 10, 20}; 169 + vector <int> depth(depth_, depth_+sizeof(depth_)/sizeof(*depth_)); 170 + int found_[] = {1}; 171 + vector <int> found(found_, found_+sizeof(found_)/sizeof(*found_)); 172 + int K = 2; 173 + long long _ = 3LL; 174 +END 175 +CASE(1) 176 + int kind_[] = {1, 1, 2, 2}; 177 + vector <int> kind(kind_, kind_+sizeof(kind_)/sizeof(*kind_)); 178 + int depth_[] = {10, 15, 10, 20}; 179 + vector <int> depth(depth_, depth_+sizeof(depth_)/sizeof(*depth_)); 180 + int found_[] = {1, 2}; 181 + vector <int> found(found_, found_+sizeof(found_)/sizeof(*found_)); 182 + int K = 2; 183 + long long _ = 4LL; 184 +END 185 +CASE(2) 186 + int kind_[] = {1, 2, 3, 4}; 187 + vector <int> kind(kind_, kind_+sizeof(kind_)/sizeof(*kind_)); 188 + int depth_[] = {10, 10, 10, 10}; 189 + vector <int> depth(depth_, depth_+sizeof(depth_)/sizeof(*depth_)); 190 + int found_[] = {1, 2}; 191 + vector <int> found(found_, found_+sizeof(found_)/sizeof(*found_)); 192 + int K = 3; 193 + long long _ = 0LL; 194 +END 195 +CASE(3) 196 + int kind_[] = {1, 2, 2, 3, 1, 3, 2, 1, 2}; 197 + vector <int> kind(kind_, kind_+sizeof(kind_)/sizeof(*kind_)); 198 + int depth_[] = {12512, 12859, 125, 1000, 99, 114, 125, 125, 114}; 199 + vector <int> depth(depth_, depth_+sizeof(depth_)/sizeof(*depth_)); 200 + int found_[] = {1, 2, 3}; 201 + vector <int> found(found_, found_+sizeof(found_)/sizeof(*found_)); 202 + int K = 7; 203 + long long _ = 35LL; 204 +END 205 +CASE(4) 206 + int kind_[] = {50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50, 50}; 207 + vector <int> kind(kind_, kind_+sizeof(kind_)/sizeof(*kind_)); 208 + int depth_[] = {2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 3}; 209 + vector <int> depth(depth_, depth_+sizeof(depth_)/sizeof(*depth_)); 210 + int found_[] = {50}; 211 + vector <int> found(found_, found_+sizeof(found_)/sizeof(*found_)); 212 + int K = 18; 213 + long long _ = 9075135300LL; 214 +END 215 +/* 216 +CASE(5) 217 + int kind_[] = ; 218 + vector <int> kind(kind_, kind_+sizeof(kind_)/sizeof(*kind_)); 219 + int depth_[] = ; 220 + vector <int> depth(depth_, depth_+sizeof(depth_)/sizeof(*depth_)); 221 + int found_[] = ; 222 + vector <int> found(found_, found_+sizeof(found_)/sizeof(*found_)); 223 + int K = ; 224 + long long _ = LL; 225 +END 226 +CASE(6) 227 + int kind_[] = ; 228 + vector <int> kind(kind_, kind_+sizeof(kind_)/sizeof(*kind_)); 229 + int depth_[] = ; 230 + vector <int> depth(depth_, depth_+sizeof(depth_)/sizeof(*depth_)); 231 + int found_[] = ; 232 + vector <int> found(found_, found_+sizeof(found_)/sizeof(*found_)); 233 + int K = ; 234 + long long _ = LL; 235 +END 236 + */ 237 +} 238 +// END CUT HERE