Overview
SHA1 Hash: | 9b65a86a4f6a84d0819e78b0c5ee6c7fe0d291c0 |
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Date: | 2011-05-03 10:55:27 |
User: | kinaba |
Comment: | 503 |
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/503-U/1A.cpp version [b72e6c3073212025]
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 <cstring> 18 +using namespace std; 19 +typedef long long LL; 20 +typedef complex<double> CMP; 21 + 22 +class ToastXToast { public: 23 + int bake(vector <int> undertoasted, vector <int> overtoasted) 24 + { 25 + vector< pair<int,bool> > t_o; 26 + for(int i=0; i<undertoasted.size(); ++i) 27 + t_o.push_back( make_pair(undertoasted[i], false) ); 28 + for(int i=0; i<overtoasted.size(); ++i) 29 + t_o.push_back( make_pair(overtoasted[i], true) ); 30 + sort(t_o.begin(), t_o.end()); 31 + 32 + vector<bool> o; 33 + for(int i=0; i<t_o.size(); ++i) 34 + o.push_back( t_o[i].second ); 35 + 36 + if( o.front() || !o.back() ) 37 + return -1; 38 + for(int i=0; i+1<o.size(); ++i) 39 + if( o[i] && !o[i+1] ) 40 + return 2; 41 + return 1; 42 + } 43 +}; 44 + 45 +// BEGIN CUT HERE 46 +#include <ctime> 47 +double start_time; string timer() 48 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 49 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 50 + { os << "{ "; 51 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 52 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 53 +void verify_case(const int& Expected, const int& Received) { 54 + bool ok = (Expected == Received); 55 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 56 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 57 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 58 +#define END verify_case(_, ToastXToast().bake(undertoasted, overtoasted));} 59 +int main(){ 60 + 61 +CASE(0) 62 + int undertoasted_[] = {2,4}; 63 + vector <int> undertoasted(undertoasted_, undertoasted_+sizeof(undertoasted_)/sizeof(*undertoasted_)); 64 + int overtoasted_[] = {5,6,3}; 65 + vector <int> overtoasted(overtoasted_, overtoasted_+sizeof(overtoasted_)/sizeof(*overtoasted_)); 66 + int _ = 2; 67 +END 68 +CASE(1) 69 + int undertoasted_[] = {5}; 70 + vector <int> undertoasted(undertoasted_, undertoasted_+sizeof(undertoasted_)/sizeof(*undertoasted_)); 71 + int overtoasted_[] = {4}; 72 + vector <int> overtoasted(overtoasted_, overtoasted_+sizeof(overtoasted_)/sizeof(*overtoasted_)); 73 + int _ = -1; 74 +END 75 +CASE(2) 76 + int undertoasted_[] = {1,2,3}; 77 + vector <int> undertoasted(undertoasted_, undertoasted_+sizeof(undertoasted_)/sizeof(*undertoasted_)); 78 + int overtoasted_[] = {5,6,7}; 79 + vector <int> overtoasted(overtoasted_, overtoasted_+sizeof(overtoasted_)/sizeof(*overtoasted_)); 80 + int _ = 1; 81 +END 82 +CASE(3) 83 + int undertoasted_[] = {1,3,5}; 84 + vector <int> undertoasted(undertoasted_, undertoasted_+sizeof(undertoasted_)/sizeof(*undertoasted_)); 85 + int overtoasted_[] = {2,4,6}; 86 + vector <int> overtoasted(overtoasted_, overtoasted_+sizeof(overtoasted_)/sizeof(*overtoasted_)); 87 + int _ = 2; 88 +END 89 +/* 90 +CASE(4) 91 + int undertoasted_[] = ; 92 + vector <int> undertoasted(undertoasted_, undertoasted_+sizeof(undertoasted_)/sizeof(*undertoasted_)); 93 + int overtoasted_[] = ; 94 + vector <int> overtoasted(overtoasted_, overtoasted_+sizeof(overtoasted_)/sizeof(*overtoasted_)); 95 + int _ = ; 96 +END 97 +CASE(5) 98 + int undertoasted_[] = ; 99 + vector <int> undertoasted(undertoasted_, undertoasted_+sizeof(undertoasted_)/sizeof(*undertoasted_)); 100 + int overtoasted_[] = ; 101 + vector <int> overtoasted(overtoasted_, overtoasted_+sizeof(overtoasted_)/sizeof(*overtoasted_)); 102 + int _ = ; 103 +END 104 +*/ 105 +} 106 +// END CUT HERE
Added SRM/503-U/1B.cpp version [fe5a596038457912]
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 <cstring> 18 +using namespace std; 19 +typedef long long LL; 20 +typedef complex<double> CMP; 21 + 22 +class KingdomXCitiesandVillages { public: 23 + double determineLength(vector <int> cityX, vector <int> cityY, vector <int> villageX, vector <int> villageY) 24 + { 25 + const int C = cityX.size(); 26 + const int V = villageX.size(); 27 + double answer = 0.0; 28 + 29 + for(int i=0; i<V; ++i) 30 + { 31 + double nc = 1e+30; 32 + for(int j=0; j<C; ++j) 33 + nc = min(nc, distance(villageX[i], villageY[i], cityX[j], cityY[j])); 34 + 35 + vector<double> d; 36 + for(int j=0; j<V; ++j) 37 + if( j != i ) 38 + d.push_back( distance(villageX[i], villageY[i], villageX[j], villageY[j]) ); 39 + sort(d.begin(), d.end()); 40 + 41 + double prob = 1.0; 42 + for(int j=0; j<d.size() && d[j]<nc; ++j) 43 + { 44 + double p = 1.0 / (j+1) / (j+2); 45 + answer += p * d[j]; 46 + prob -= p; 47 + } 48 + answer += prob * nc; 49 + } 50 + return answer; 51 + } 52 + 53 + static double distance(double x, double y, double X, double Y) 54 + { 55 + return hypot(x-X, y-Y); 56 + } 57 +}; 58 + 59 +// BEGIN CUT HERE 60 +#include <ctime> 61 +double start_time; string timer() 62 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 63 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 64 + { os << "{ "; 65 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 66 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 67 +void verify_case(const double& Expected, const double& Received) { 68 + bool ok = (abs(Expected - Received) < 1e-9); 69 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 70 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 71 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 72 +#define END verify_case(_, KingdomXCitiesandVillages().determineLength(cityX, cityY, villageX, villageY));} 73 +int main(){ 74 + 75 +CASE(0) 76 + int cityX_[] = {3}; 77 + vector <int> cityX(cityX_, cityX_+sizeof(cityX_)/sizeof(*cityX_)); 78 + int cityY_[] = {0}; 79 + vector <int> cityY(cityY_, cityY_+sizeof(cityY_)/sizeof(*cityY_)); 80 + int villageX_[] = {3,3}; 81 + vector <int> villageX(villageX_, villageX_+sizeof(villageX_)/sizeof(*villageX_)); 82 + int villageY_[] = {2,1}; 83 + vector <int> villageY(villageY_, villageY_+sizeof(villageY_)/sizeof(*villageY_)); 84 + double _ = 2.5; 85 +END 86 +CASE(1) 87 + int cityX_[] = {1,4,7,10}; 88 + vector <int> cityX(cityX_, cityX_+sizeof(cityX_)/sizeof(*cityX_)); 89 + int cityY_[] = {5,5,5,5}; 90 + vector <int> cityY(cityY_, cityY_+sizeof(cityY_)/sizeof(*cityY_)); 91 + int villageX_[] = {1,4,7,10}; 92 + vector <int> villageX(villageX_, villageX_+sizeof(villageX_)/sizeof(*villageX_)); 93 + int villageY_[] = {4,4,4,4}; 94 + vector <int> villageY(villageY_, villageY_+sizeof(villageY_)/sizeof(*villageY_)); 95 + double _ = 4.0; 96 +END 97 +CASE(2) 98 + int cityX_[] = {1,2,3}; 99 + vector <int> cityX(cityX_, cityX_+sizeof(cityX_)/sizeof(*cityX_)); 100 + int cityY_[] = {4,4,4}; 101 + vector <int> cityY(cityY_, cityY_+sizeof(cityY_)/sizeof(*cityY_)); 102 + int villageX_[] = {4,5,6}; 103 + vector <int> villageX(villageX_, villageX_+sizeof(villageX_)/sizeof(*villageX_)); 104 + int villageY_[] = {4,4,4}; 105 + vector <int> villageY(villageY_, villageY_+sizeof(villageY_)/sizeof(*villageY_)); 106 + double _ = 4.166666666666667; 107 +END 108 +CASE(3) 109 +int cityX_[] = {1}; 110 + vector <int> cityX(cityX_, cityX_+sizeof(cityX_)/sizeof(*cityX_)); 111 + int cityY_[] = {1}; 112 + vector <int> cityY(cityY_, cityY_+sizeof(cityY_)/sizeof(*cityY_)); 113 + int villageX_[] = {2}; 114 + vector <int> villageX(villageX_, villageX_+sizeof(villageX_)/sizeof(*villageX_)); 115 + int villageY_[] = {1}; 116 + vector <int> villageY(villageY_, villageY_+sizeof(villageY_)/sizeof(*villageY_)); 117 + double _ = 1; 118 +END 119 +/* 120 +CASE(4) 121 + int cityX_[] = ; 122 + vector <int> cityX(cityX_, cityX_+sizeof(cityX_)/sizeof(*cityX_)); 123 + int cityY_[] = ; 124 + vector <int> cityY(cityY_, cityY_+sizeof(cityY_)/sizeof(*cityY_)); 125 + int villageX_[] = ; 126 + vector <int> villageX(villageX_, villageX_+sizeof(villageX_)/sizeof(*villageX_)); 127 + int villageY_[] = ; 128 + vector <int> villageY(villageY_, villageY_+sizeof(villageY_)/sizeof(*villageY_)); 129 + double _ = ; 130 +END 131 +*/ 132 +} 133 +// END CUT HERE
Added SRM/503-U/1C-U.cpp version [852235c2e0a91bd6]
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 <cstring> 18 +using namespace std; 19 +typedef long long LL; 20 +typedef complex<double> CMP; 21 + 22 +template<typename T> 23 +struct DP2 24 +{ 25 + const int N1, N2; 26 + vector<T> data; 27 + DP2(int N1, int N2, const T& t = T()) 28 + : N1(N1), N2(N2), data(N1*N2, t) { assert(data.size()*sizeof(T)<(1<<26)); } 29 + T& operator()(int i1, int i2) 30 + { return data[ (i1*N2)+i2 ]; } 31 +}; 32 + 33 +class KingdomXEmergencyStaircase { public: 34 + long long determineCost(string leftBuilding, string rightBuilding, vector <int> cost) 35 + { 36 + const LL oo = 1LL<<50; 37 + const int W = cost.size(); 38 + const int L = leftBuilding.find_last_of('Y')+1; 39 + const int R = rightBuilding.find_last_of('Y')+1; 40 + const int H = 2*max(L,R)+W; 41 + 42 + LL best = oo; 43 + DP2<LL> dp(H+1, H+1, oo); 44 + for(int l=0; l<=H; l+=2) 45 + for(int r=0; r<=H; r+=2) 46 + if( abs(l-r)<=W && W<=l+r ) 47 + { 48 + if( l==0 ) 49 + { 50 + LL cover_cost = 0; 51 + for(int rr=r-2; rr>=0; rr-=2) 52 + if( rightBuilding[rr/2-1] == 'Y' ) 53 + cover_cost += cost[(r-rr)/2-1]; 54 + dp(l,r) = cost[W-1] + cover_cost; 55 + } 56 + else if( r==0 ) 57 + { 58 + LL cover_cost = 0; 59 + for(int ll=l-2; ll>=0; ll-=2) 60 + if( leftBuilding[ll/2-1] == 'Y' ) 61 + cover_cost += cost[(l-ll)/2-1]; 62 + dp(l,r) = cost[W-1] + cover_cost; 63 + } 64 + else 65 + { 66 + const int mid = W/2 - (r-l)/2; 67 + 68 + LL cur_best = oo; 69 + LL cover_cost = 0; 70 + for(int ll=l-2; ll>=0 && ll>=r-W; ll-=2) 71 + { 72 + if( ll+2 != l && leftBuilding[(ll+2)/2-1]=='Y' ) 73 + cover_cost += cost[(l-ll-2)/2 - 1]; 74 + cur_best = min(cur_best, dp(ll,r)+cost[mid-1]+cover_cost); 75 + } 76 + cover_cost = 0; 77 + for(int rr=r-2; rr>=0 && rr>=l-W; rr-=2) 78 + { 79 + if( rr+2 != r && rightBuilding[(rr+2)/2-1]=='Y' ) 80 + cover_cost += cost[(r-rr-2)/2 - 1]; 81 + cur_best = min(cur_best, dp(l,rr)+cost[W-mid-1]+cover_cost); 82 + } 83 + dp(l,r) = cur_best; 84 + } 85 + if( 2*L<=l && 2*R<=r ) 86 + best = min(best, dp(l,r)); 87 + } 88 + return best; 89 + } 90 +}; 91 + 92 +// BEGIN CUT HERE 93 +#include <ctime> 94 +double start_time; string timer() 95 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 96 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 97 + { os << "{ "; 98 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 99 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 100 +void verify_case(const long long& Expected, const long long& Received) { 101 + bool ok = (Expected == Received); 102 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 103 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 104 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 105 +#define END verify_case(_, KingdomXEmergencyStaircase().determineCost(leftBuilding, rightBuilding, cost));} 106 +int main(){ 107 + 108 +CASE(0) 109 + string leftBuilding = "YNYY"; 110 + string rightBuilding = "NNNY"; 111 + int cost_[] = {10, 40, 18, 25}; 112 + vector <int> cost(cost_, cost_+sizeof(cost_)/sizeof(*cost_)); 113 + long long _ = 98LL; 114 +END 115 +CASE(1) 116 + string leftBuilding = "N"; 117 + string rightBuilding = "Y"; 118 + int cost_[] = {1, 1000}; 119 + vector <int> cost(cost_, cost_+sizeof(cost_)/sizeof(*cost_)); 120 + long long _ = 1000LL; 121 +END 122 +CASE(2) 123 + string leftBuilding = "NNNNNNNY"; 124 + string rightBuilding = "NNNNNNNY"; 125 + int cost_[] = {1, 2}; 126 + vector <int> cost(cost_, cost_+sizeof(cost_)/sizeof(*cost_)); 127 + long long _ = 17LL; 128 +END 129 +CASE(3) 130 + string leftBuilding = "NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN"; 131 + string rightBuilding = "NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNY"; 132 + int cost_[] = {800000000,800000000,800000000,800000000,800000000,800000000,800000000,800000000}; 133 + vector <int> cost(cost_, cost_+sizeof(cost_)/sizeof(*cost_)); 134 + long long _ = 6400000000LL; 135 +END 136 +CASE(4) 137 + string leftBuilding = "NNY"; 138 + string rightBuilding = "NNYYY"; 139 + int cost_[] = {10000, 10, 40, 10000, 80, 80}; 140 + vector <int> cost(cost_, cost_+sizeof(cost_)/sizeof(*cost_)); 141 + long long _ = 220LL; 142 +END 143 +CASE(5) 144 +string leftBuilding = "YNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNY"; 145 +string rightBuilding = "YNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNYYNYNY"; 146 + int cost_[] = {958231113, 959939939, 999999999, 954321321, 1000000000, 998998998, 987987987, 999888777, 1000000000, 1000000000}; 147 + vector <int> cost(cost_, cost_+sizeof(cost_)/sizeof(*cost_)); 148 + long long _ = 58212305211LL; 149 +END 150 +/* 151 +CASE(6) 152 + string leftBuilding = ; 153 + string rightBuilding = ; 154 + int cost_[] = ; 155 + vector <int> cost(cost_, cost_+sizeof(cost_)/sizeof(*cost_)); 156 + long long _ = LL; 157 +END 158 +*/ 159 +} 160 +// END CUT HERE