コード例 #1
0
ファイル: ntlwrap.cpp プロジェクト: saraedum/sage-renamed
static long ZZ_remove(struct ZZ &dest, const struct ZZ &src, const struct ZZ &f)
{
    // Based on the code for mpz_remove
    ZZ fpow[40];            // inexaustible...until year 2020 or so
    ZZ x, rem;
    long pwr;
    int p;

    if (compare(f, 1) <= 0 && compare(f, -1) >= 0)
        Error("Division by zero");

    if (compare(src, 0) == 0)
    {
        if (src != dest)
           dest = src;
        return 0;
    }

    if (compare(f, 2) == 0)
    {
        dest = src;
        return MakeOdd(dest);
    }

    /* We could perhaps compute mpz_scan1(src,0)/mpz_scan1(f,0).  It is an
     upper bound of the result we're seeking.  We could also shift down the
     operands so that they become odd, to make intermediate values smaller.  */

    pwr = 0;
    fpow[0] = ZZ(f);
    dest = src;
    rem = ZZ();
    x = ZZ();

    /* Divide by f, f^2, ..., f^(2^k) until we get a remainder for f^(2^k).  */
    for (p = 0;;p++)
    {
        DivRem(x, rem, dest, fpow[p]);
        if (compare(rem, 0) != 0)
            break;
        fpow[p+1] = ZZ();
        NTL::mul(fpow[p+1], fpow[p], fpow[p]);
        dest = x;
    }

    pwr = (1 << p) - 1;

    /* Divide by f^(2^(k-1)), f^(2^(k-2)), ..., f for all divisors that give a
       zero remainder.  */
    while (--p >= 0)
    {
        DivRem(x, rem, dest, fpow[p]);
        if (compare(rem, 0) == 0)
        {
            pwr += 1 << p;
            dest = x;
        }
    }
    return pwr;
}
コード例 #2
0
ファイル: RR.c プロジェクト: 95krasovsky/SecretSharingSchemes
static
void normalize1(RR& z, const ZZ& y_x, long y_e, long prec, long residual)
{
   long len = NumBits(y_x);

   if (len > prec) {
      long correction = ZZ_RoundCorrection(y_x, len - prec, residual);

      RightShift(z.x, y_x, len - prec);

      if (correction) 
         add(z.x, z.x, correction);

      z.e = y_e + len - prec;
   }
   else if (len == 0) {
      clear(z.x);
      z.e = 0;
   }
   else {
      z.x = y_x;
      z.e = y_e;
   }

   if (!IsOdd(z.x))
      z.e += MakeOdd(z.x);

   if (z.e >= NTL_OVFBND)
      ResourceError("RR: overflow");

   if (z.e <= -NTL_OVFBND)
      ResourceError("RR: underflow");
}
コード例 #3
0
ファイル: LLL_XD.c プロジェクト: axelexic/NTL
static void RowTransform2(vec_ZZ& A, vec_ZZ& B, const ZZ& MU1)
// x = x + y*MU
{
   NTL_ZZRegister(T);
   NTL_ZZRegister(MU);
   long k;

   long n = A.length();
   long i;

   MU = MU1;

   if (MU == 1) {
      for (i = 1; i <= n; i++)
         add(A(i), A(i), B(i));

      return;
   }

   if (MU == -1) {
      for (i = 1; i <= n; i++)
         sub(A(i), A(i), B(i));

      return;
   }

   if (MU == 0) return;

   if (NumTwos(MU) >= NTL_ZZ_NBITS) 
      k = MakeOdd(MU);
   else
      k = 0;

   if (MU.WideSinglePrecision()) {
      long mu1;
      conv(mu1, MU);

      for (i = 1; i <= n; i++) {
         mul(T, B(i), mu1);
         if (k > 0) LeftShift(T, T, k);
         add(A(i), A(i), T);
      }
   }
   else {
      for (i = 1; i <= n; i++) {
         mul(T, B(i), MU);
         if (k > 0) LeftShift(T, T, k);
         add(A(i), A(i), T);
      }
   }
}
コード例 #4
0
ファイル: ZZFactoring.cpp プロジェクト: onechip/ecm
/* Quickly find factor of n in the case where n is a prime power (and not
 * a power of 2).  n>2, odd.  Returns q, a factor of n, or 1 in case of
 * failure.
 */
void PrimePowerTest(ZZ& q, const ZZ& n) {
  // n-1 == 2^k * m, m odd
  ZZ n1,m;
  sub(n1,n,1);
  m=n1;
  long k = MakeOdd(m);
  set(q);
  
  ZZ z;
  conv(z,2);
  PowerMod(z,z,m,n);
  do {
    if (IsOne(z) || z==n1) return;
    SqrMod(z,z,n);
  } while (--k>0);
  if (IsOne(z)) return;
  z*=2;
  z-=2;
  GCD(q,z,n);
  if (q==0 || q==n)
    set(q);
}
コード例 #5
0
ファイル: G_LLL_XD.c プロジェクト: JamesHirschorn/QFCL
NTL_START_IMPL


static void RowTransform(vec_ZZ& A, vec_ZZ& B, const ZZ& MU1)
// x = x - y*MU
{
   static ZZ T, MU;
   long k;

   long n = A.length();
   long i;

   MU = MU1;

   if (MU == 1) {
      for (i = 1; i <= n; i++)
         sub(A(i), A(i), B(i));

      return;
   }

   if (MU == -1) {
      for (i = 1; i <= n; i++)
         add(A(i), A(i), B(i));

      return;
   }

   if (MU == 0) return;

   if (NumTwos(MU) >= NTL_ZZ_NBITS) 
      k = MakeOdd(MU);
   else
      k = 0;


   if (MU.WideSinglePrecision()) {
      long mu1;
      conv(mu1, MU);

      if (k > 0) {

         for (i = 1; i <= n; i++) {
            mul(T, B(i), mu1);
            LeftShift(T, T, k);
            sub(A(i), A(i), T);
         }

      }
      else {

         for (i = 1; i <= n; i++) {
            MulSubFrom(A(i), B(i), mu1);
         }

      }
   }
   else {
      for (i = 1; i <= n; i++) {
         mul(T, B(i), MU);
         if (k > 0) LeftShift(T, T, k);
         sub(A(i), A(i), T);
      }
   }
}