• branch=trunk inherited from [9165bd3629]
• sym-trunk inherited from [9165bd3629]

Modified lib/numeric/modArith.cpp from [4dd19b13cd92c7f0] to [e5662c451b84a185].

   24  mint operator+(mint x, mint y) { return x+=y; }                                       24  mint operator+(mint x, mint y) { return x+=y; }
   25  mint operator-(mint x, mint y) { return x-=y; }                                       25  mint operator-(mint x, mint y) { return x-=y; }
   26  mint operator*(mint x, mint y) { return x*=y; }                                       26  mint operator*(mint x, mint y) { return x*=y; }
   27  mint operator/(mint x, mint y) { return x/=y; }                                       27  mint operator/(mint x, mint y) { return x/=y; }
   28  vector<mint> FAC_(1,1);                                                               28  vector<mint> FAC_(1,1);
   29  mint FAC(LL n) { while( FAC_.size()<=n ) FAC_.push_back( FAC_.back()*FAC_.size()      29  mint FAC(LL n) { while( FAC_.size()<=n ) FAC_.push_back( FAC_.back()*FAC_.size()
   30  mint C(LL n, LL k) { return k<0 || n<k ? 0 : FAC(n) / (FAC(k) * FAC(n-k)); }          30  mint C(LL n, LL k) { return k<0 || n<k ? 0 : FAC(n) / (FAC(k) * FAC(n-k)); }
   31                                                                                   <
   32  // Pascal's triangle: if O(1) nCk is needed.                                     |    31  vector< vector<mint> > CP_; // Pascal's triangle: if O(1) nCk is needed.
   33  vector< vector<mint> > CP_(2001);                                                <
   34  mint C(LL n, LL k) {                                                                  32  mint C(LL n, LL k) {
   35          if(CP_[0].empty()) {                                                     |    33          while( CP_.size() <= n ) {
   36                  CP_[0].push_back(1);                                             <
   37                  for(int nn=1; nn<CP_.size(); ++nn)                               |    34                  int nn = CP_.size();
                                                                                        >    35                  CP_.push_back(vector<mint>(nn+1,1));
   38                  for(int kk=0; kk<=nn; ++kk)                                      |    36                  for(int kk=1; kk<nn; ++kk)
   39                          CP_[nn].push_back( (kk?CP_[nn-1][kk-1]:0) + (kk<nn?CP_[n |    37                          CP_[nn][kk] = CP_[nn-1][kk-1] + CP_[nn-1][kk];
   40          }                                                                             38          }
   41          return k<0 || n<k ? 0 : CP_[n][k];                                            39          return k<0 || n<k ? 0 : CP_[n][k];
   42  }                                                                                     40  }
   43                                                                                   <
   44                                                                                   <
   45                                                                                        41  
   46  /*                                                                                    42  /*
   47  // MODVAL must be a prime!!                                                           43  // MODVAL must be a prime!!
   48  LL GSS(LL k, LL b, LL e) // k^b + k^b+1 + ... + k^e                                   44  LL GSS(LL k, LL b, LL e) // k^b + k^b+1 + ... + k^e
   49  {                                                                                     45  {
   50          if( b >  e ) return 0;                                                        46          if( b >  e ) return 0;
   51          if( k <= 1 ) return k*(e-b+1);                                                47          if( k <= 1 ) return k*(e-b+1);