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SHA1 Hash:a6b1fd4985ed49811e32f53c5e9adb82fbf2e507
Date: 2011-09-28 15:31:48
User: kinaba
Comment:518
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Added SRM/518-U/1C.cpp version [1b6b6f1bf178804b]

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 <valarray> 15 +#include <stack> 16 +#include <cmath> 17 +#include <cassert> 18 +#include <cstring> 19 +using namespace std; 20 +typedef long long LL; 21 +typedef complex<double> CMP; 22 + 23 +static const int MODVAL = 1000000007; 24 +struct mint 25 +{ 26 + int val; 27 + mint():val(0){} 28 + mint(int x):val(x%MODVAL) {} 29 + mint(size_t x):val(x%MODVAL) {} 30 + mint(LL x):val(x%MODVAL) {} 31 +}; 32 +mint& operator+=(mint& x, mint y) { return x = x.val+y.val; } 33 +mint& operator-=(mint& x, mint y) { return x = x.val-y.val+MODVAL; } 34 +mint& operator*=(mint& x, mint y) { return x = LL(x.val)*y.val; } 35 +mint POW(mint x, LL e) { mint v=1; for(;e;x*=x,e>>=1) if(e&1) v*=x; return v; } 36 +mint& operator/=(mint& x, mint y) { return x *= POW(y, MODVAL-2); } 37 +mint operator+(mint x, mint y) { return x+=y; } 38 +mint operator-(mint x, mint y) { return x-=y; } 39 +mint operator*(mint x, mint y) { return x*=y; } 40 +mint operator/(mint x, mint y) { return x/=y; } 41 +mint inv2 = mint(1) / 2; 42 + 43 +class Nim { public: 44 + int count(int K, int L) 45 + { 46 + valarray<mint> v(65536); 47 + v[slice(2,L-1,1)] = 1; 48 + for(unsigned p=2; p<=L; ++p) 49 + if( v[p].val ) 50 + for(unsigned q=p*p; q<=L; q+=p) 51 + v[q] = 0; 52 + 53 + pre(v, 0, 65536); 54 + valarray<mint> a(1, 65536); 55 + for(int i=1; i<=K; i<<=1, v*=v) 56 + if( K & i ) 57 + a *= v; 58 + post(a, 0, 65536); 59 + return a[0].val; 60 + } 61 + 62 + void pre(valarray<mint>& v, int s, int e) 63 + { 64 + if( s+1 == e ) 65 + return; 66 + int m = (s+e)/2; 67 + pre(v, s, m); 68 + pre(v, m, e); 69 + for(int i=s,j=m; i<m; ++i,++j) { 70 + mint vi=v[i], vj=v[j]; 71 + v[i] = vi - vj; 72 + v[j] = vi + vj; 73 + } 74 + } 75 + 76 + void post(valarray<mint>& v, int s, int e) 77 + { 78 + if( s+1 == e ) 79 + return; 80 + int m = (s+e)/2; 81 + for(int i=s,j=m; i<m; ++i,++j) { 82 + mint dif=v[i], sum=v[j]; 83 + v[i] = (sum + dif) * inv2; 84 + v[j] = (sum - dif) * inv2; 85 + } 86 + post(v, s, m); 87 + post(v, m, e); 88 + } 89 +}; 90 + 91 +// BEGIN CUT HERE 92 +#include <ctime> 93 +double start_time; string timer() 94 + { ostringstream os; os << " (" << int((clock()-start_time)/CLOCKS_PER_SEC*1000) << " msec)"; return os.str(); } 95 +template<typename T> ostream& operator<<(ostream& os, const vector<T>& v) 96 + { os << "{ "; 97 + for(typename vector<T>::const_iterator it=v.begin(); it!=v.end(); ++it) 98 + os << '\"' << *it << '\"' << (it+1==v.end() ? "" : ", "); os << " }"; return os; } 99 +void verify_case(const int& Expected, const int& Received) { 100 + bool ok = (Expected == Received); 101 + if(ok) cerr << "PASSED" << timer() << endl; else { cerr << "FAILED" << timer() << endl; 102 + cerr << "\to: \"" << Expected << '\"' << endl << "\tx: \"" << Received << '\"' << endl; } } 103 +#define CASE(N) {cerr << "Test Case #" << N << "..." << flush; start_time=clock(); 104 +#define END verify_case(_, Nim().count(K, L));} 105 +int main(){ 106 + 107 +CASE(0) 108 + int K = 3; 109 + int L = 7; 110 + int _ = 6; 111 +END 112 +CASE(1) 113 + int K = 4; 114 + int L = 13; 115 + int _ = 120; 116 +END 117 +CASE(2) 118 + int K = 10; 119 + int L = 100; 120 + int _ = 294844622; 121 +END 122 +CASE(3) 123 + int K = 123456789; 124 + int L = 12345; 125 + int _ = 235511047; 126 +END 127 +CASE(4) 128 + int K = 1000000000; 129 + int L = 50000; 130 + int _ = 428193537; 131 +END 132 +/* 133 +CASE(5) 134 + int K = ; 135 + int L = ; 136 + int _ = ; 137 +END 138 +*/ 139 +} 140 +// END CUT HERE

Added lib/doc/fft.txt version [893844b7e5ed0726]

1 + 2 +http://apps.topcoder.com/wiki/display/tc/SRM+518 3 + 4 + 5 +以下のような関数を考える。 6 + 7 +int[] xor_count(int[] a, int[] b, int N) 8 +{ 9 + int[] c = {0} * N; 10 + for(int i=0; i<N; ++i) 11 + for(int k=0; k<N; ++k) 12 + c[i ^ k] += a[i] * b[k]; 13 + return c; 14 +} 15 + 16 +高速化。 17 + 18 +int[] xor_count_ultra(int[] a, int[] b, int N) 19 +{ 20 + a = xor_pre(a); 21 + b = xor_pre(b); 22 + c = a * b; // element-wise product 23 + return xor_post(c); 24 +} 25 + 26 +このようになるマジカルな変換 xor_pre, xor_post が存在する。 27 + 28 +N=1 の場合、pre : {x} --> {x} 29 +N=2 の場合、pre : {x,y} --> {x-y, x+y} 30 + xor_count( {x,y}, {u,v} ) = {xu+yv, yu+xv} 31 + と {x-y, x+y} * {u-v, u+v} = {xu+yv-xu-xv, xu+yv+yu+xv} 32 + から確認できる。 33 +一般にNが2のベキの場合、xorの作用するビットのパターンが再帰的なので 34 + pre( [X,Y] ) = [pre(X)-pre(Y), pre(X)+pre(Y)] 35 +と再帰的にすれば成り立つ 36 + 37 + 38 + 39 + 40 + 41 + 42 +xorでなくて足し算の場合 43 + 44 +int[] plus_count(int[] a, int[] b, int N) 45 +{ 46 + int[] c = {0} * 2N; 47 + for(int i=0; i<N; ++i) 48 + for(int k=0; k<N; ++k) 49 + c[i + k] += a[i] * b[k]; 50 + return c; 51 +} 52 + 53 +も同様に。 54 + 55 +int[] plus_count_ultra(int[] a, int[] b, int N) 56 +{ 57 + a = plus_pre(a); 58 + b = plus_pre(b); 59 + c = a * b; // element-wise product 60 + return plus_post(c); 61 +} 62 + 63 +とできるのが FFT