Overview
| SHA1 Hash: | 2b07d53d04d3e65bba16afa907f36f09b82bd500 |
|---|---|
| Date: | 2012-07-07 14:14:07 |
| User: | kinaba |
| Comment: | 528 |
| 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/548-U/1A.cpp version [4bd4984796b0669c]
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 KingdomAndTrees { public: 23 + int minLevel(vector <int> heights) 24 + { 25 + // (L,R] 26 + int L = -1; 27 + int R = 1000000000; 28 + while(R-L>1) 29 + { 30 + int C = (L+R)/2; 31 + (possible(C,heights) ? R : L) = C; 32 + } 33 + return R; 34 + } 35 + 36 + bool possible(int C, const vector<int>& h) 37 + { 38 + int last = max(1, h[0]-C); 39 + for(int i=1; i<h.size(); ++i) 40 + { 41 + if( !(last < h[i]+C) ) 42 + return false; 43 + last = max(last+1, h[i]-C); 44 + } 45 + return true; 46 + } 47 +}; 48 + 49 +// BEGIN CUT HERE 50 +#include <ctime> 51 +double start_time; string timer() 52 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 53 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 54 + { os << "{ "; 55 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 56 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 57 +void verify_case(const int& Expected, const int& Received) { 58 + bool ok = (Expected == Received); 59 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 60 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 61 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 62 +#define END verify_case(_, KingdomAndTrees().minLevel(heights));} 63 +int main(){ 64 + 65 +CASE(0) 66 + int heights_[] = {9, 5, 11}; 67 + vector <int> heights(heights_, heights_+sizeof(heights_)/sizeof(*heights_)); 68 + int _ = 3; 69 +END 70 +CASE(1) 71 + int heights_[] = {5, 8}; 72 + vector <int> heights(heights_, heights_+sizeof(heights_)/sizeof(*heights_)); 73 + int _ = 0; 74 +END 75 +CASE(2) 76 + int heights_[] = {1, 1, 1, 1, 1}; 77 + vector <int> heights(heights_, heights_+sizeof(heights_)/sizeof(*heights_)); 78 + int _ = 4; 79 +END 80 +CASE(3) 81 + int heights_[] = {548, 47, 58, 250, 2012}; 82 + vector <int> heights(heights_, heights_+sizeof(heights_)/sizeof(*heights_)); 83 + int _ = 251; 84 +END 85 +CASE(4) 86 + int heights_[] = {337994619,837714986,7014426,516695490,268514071,590654553,940024470,79308071,891444369,231310251,172567010,283491054,951215936,92716118,911004789,896372476,617116292,874491895,120052194,635772188,938392572,466867891,418351197,278475278,635224368,38779964,762367612,370214557,20108108,314281202,644947239,868648377,617056931,542328796,280916141,281585869,895175595,529854516,862330692,733665485,173060292,579136324,401396401,303236137,161627936,410922706,172892990,840336279,848958999,849348801}; 87 + vector <int> heights(heights_, heights_+sizeof(heights_)/sizeof(*heights_)); 88 + int _ = -1; 89 +END 90 +CASE(5) 91 + int heights_[] = {1000000000,1}; 92 + vector <int> heights(heights_, heights_+sizeof(heights_)/sizeof(*heights_)); 93 + int _ = 500000000; 94 +END 95 + 96 +} 97 +// END CUT HERE
Added SRM/548-U/1B.cpp version [3c1fd7f25faac951]
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 +template<typename T> 23 +struct DP3 24 +{ 25 + int N1, N2, N3; 26 + vector<T> data; 27 + DP3(int N1, int N2, int N3, const T& t = T()) 28 + : N1(N1), N2(N2), N3(N3), data(N1*N2*N3, t) { assert(data.size()*sizeof(T)<(1<<26)); } 29 + T& operator()(int i1, int i2, int i3) 30 + { return data[ ((i1*N2)+i2)*N3+i3 ]; } 31 + void swap(DP3& rhs) 32 + { data.swap(rhs.data); } 33 +}; 34 + 35 +struct cmp { 36 + int N; 37 + cmp(int N):N(N){} 38 + bool operator()(int a, int b) const 39 + { 40 + if( abs(2*a - N*N) != abs(2*b - N*N) ) 41 + return abs(2*a - N*N) < abs(2*b - N*N); 42 + return a < b; 43 + } 44 +}; 45 +class KingdomAndDice { public: 46 + double newFairness(vector <int> firstDie, vector <int> secondDie, int X) 47 + { 48 + int N = firstDie.size(); 49 + sort(secondDie.begin(), secondDie.end()); 50 + 51 + vector<int> choice; 52 + { 53 + choice.push_back(N); 54 + for(int i=0; i+1<N; ++i) 55 + choice.push_back(secondDie[i+1]-secondDie[i]-1); 56 + choice.push_back(X-secondDie.back()); 57 + } 58 + int base = 0; 59 + { 60 + for(int k=0; k<N; ++k) 61 + if( firstDie[k]!=0 && firstDie[k]<secondDie[0] ) { 62 + choice[0] --; 63 + base += 0; 64 + } 65 + for(int i=0; i+1<N; ++i) 66 + for(int k=0; k<N; ++k) 67 + if( firstDie[k]!=0 && secondDie[i]<firstDie[k] && firstDie[k]<secondDie[i+1] ) { 68 + choice[i+1] --; 69 + base += i+1; 70 + } 71 + for(int k=0; k<N; ++k) 72 + if( firstDie[k]!=0 && secondDie[N-1]<firstDie[k] ) { 73 + choice[N] --; 74 + base += N; 75 + } 76 + } 77 + return solve(N, base, choice, count(firstDie.begin(), firstDie.end(), 0)); 78 + } 79 + 80 + double solve(int N, int base, const vector<int>& choice, int K) 81 + { 82 + DP3<int> dp(N+1, K+1, N*N+1); 83 + for(int i=0; i<=N; ++i) 84 + for(int p=0; p<=K; ++p) 85 + for(int sum=0; sum<=N*N; ++sum) 86 + { 87 + if(i==0) 88 + { 89 + dp(i,p,sum) = (sum==base && p<=choice[i]); 90 + } 91 + else 92 + { 93 + bool b = false; 94 + for(int z=0; z<=p && z<=choice[i]; ++z) 95 + if(sum>=i*z) 96 + b = b | dp(i-1,p-z,sum-i*z); 97 + dp(i,p,sum) = b; 98 + } 99 + } 100 + 101 + vector<int> cand; 102 + for(int sum=0; sum<=N*N; ++sum) 103 + if( dp(N,K,sum) ) 104 + cand.push_back( sum ); 105 + return *min_element(cand.begin(), cand.end(), cmp(N)) / double(N*N); 106 + } 107 +}; 108 + 109 +// BEGIN CUT HERE 110 +#include <ctime> 111 +double start_time; string timer() 112 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 113 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 114 + { os << "{ "; 115 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 116 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 117 +void verify_case(const double& Expected, const double& Received) { 118 + bool ok = (abs(Expected - Received) < 1e-9); 119 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 120 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 121 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 122 +#define END verify_case(_, KingdomAndDice().newFairness(firstDie, secondDie, X));} 123 +int main(){ 124 + 125 +CASE(0) 126 + int firstDie_[] = {0, 2, 7, 0}; 127 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 128 + int secondDie_[] = {6, 3, 8, 10}; 129 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 130 + int X = 12; 131 + double _ = 0.4375; 132 +END 133 +CASE(1) 134 + int firstDie_[] = {0, 2, 7, 0}; 135 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 136 + int secondDie_[] = {6, 3, 8, 10}; 137 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 138 + int X = 10; 139 + double _ = 0.375; 140 +END 141 +CASE(2) 142 + int firstDie_[] = {0, 0}; 143 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 144 + int secondDie_[] = {5, 8}; 145 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 146 + int X = 47; 147 + double _ = 0.5; 148 +END 149 +CASE(3) 150 + int firstDie_[] = {19, 50, 4}; 151 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 152 + int secondDie_[] = {26, 100, 37}; 153 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 154 + int X = 1000; 155 + double _ = 0.2222222222222222; 156 +END 157 +CASE(4) 158 + int firstDie_[] = {6371, 0, 6256, 1852, 0, 0, 6317, 3004, 5218, 9012}; 159 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 160 + int secondDie_[] = {1557, 6318, 1560, 4519, 2012, 6316, 6315, 1559, 8215, 1561}; 161 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 162 + int X = 10000; 163 + double _ = 0.49; 164 +END 165 +CASE(5) 166 + int firstDie_[] = {278130165,933636493,607327308,19369203,439158229,445295066,370731340,551180273,163280323,359800317,834663837,108871632,362106962,921853660,145507840,284869553,246938492,379648759,956330140,525562675,251028940,270135098,862786589,513909283,412651940,499422899,724171306,922270222,938213346,61418124,248820926,891527589,812074952,155495258,23280465,761818758,328244247,975585791,108105856,414583437,424242761,168720992,585728188,0,0,0,0,0,0,0}; 167 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 168 + int secondDie_[] = {475017760,773630717,985005264,963668637,320647204,665487259,585555327,272107932,203172682,57845645,311126817,496577583,834654861,77335024,405827438,231342594,943378345,971851607,455697802,119475931,551079372,838525393,192593102,990828850,382044077,590561977,229071016,962163538,621629435,727621063,109926457,152882146,9199017,615779540,160320904,216276208,675743894,414050471,126645085,238141513,151262148,280509327,923103663,125699296,790073355,738597671,864455279,384833125,510401421,219630179}; 169 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 170 + int X = 1000000000; 171 + double _ = 0.5; 172 +END 173 +CASE(6) 174 + int firstDie_[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; 175 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 176 + int secondDie_[] = {475017760,773630717,985005264,963668637,320647204,665487259,585555327,272107932,203172682,57845645,311126817,496577583,834654861,77335024,405827438,231342594,943378345,971851607,455697802,119475931,551079372,838525393,192593102,990828850,382044077,590561977,229071016,962163538,621629435,727621063,109926457,152882146,9199017,615779540,160320904,216276208,675743894,414050471,126645085,238141513,151262148,280509327,923103663,125699296,790073355,738597671,864455279,384833125,510401421,219630179}; 177 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 178 + int X = 1000000000; 179 + double _ = 0.5; 180 +END 181 +CASE(6) 182 + int firstDie_[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; 183 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 184 + int secondDie_[] = {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50}; 185 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 186 + int X = 100; 187 + double _ = 0.5; 188 +END 189 +CASE(7) 190 +int firstDie_[] = {0,0}; 191 + vector <int> firstDie(firstDie_, firstDie_+sizeof(firstDie_)/sizeof(*firstDie_)); 192 + int secondDie_[] = {1,2}; 193 + vector <int> secondDie(secondDie_, secondDie_+sizeof(secondDie_)/sizeof(*secondDie_)); 194 + int X = 4; 195 + double _ = 1; 196 +END 197 + 198 +} 199 +// END CUT HERE