/**
  * Determine window width to use for a scalar multiplication of the given size.
  *
  * @param bits the bit-length of the scalar to multiply by
  * @return the window size to use
  */
 protected virtual int GetWindowSize(int bits)
 {
     return(WNafUtilities.GetWindowSize(bits));
 }
        /**
         * Multiplies <code>this</code> by an integer <code>k</code> using the
         * Window NAF method.
         * @param k The integer by which <code>this</code> is multiplied.
         * @return A new <code>ECPoint</code> which equals <code>this</code>
         * multiplied by <code>k</code>.
         */
        protected override ECPoint MultiplyPositive(ECPoint p, BigInteger k)
        {
            // Clamp the window width in the range [2, 16]
            int width = System.Math.Max(2, System.Math.Min(16, GetWindowSize(k.BitLength)));

            WNafPreCompInfo wnafPreCompInfo = WNafUtilities.Precompute(p, width, true);

            ECPoint[] preComp    = wnafPreCompInfo.PreComp;
            ECPoint[] preCompNeg = wnafPreCompInfo.PreCompNeg;

            int[] wnaf = WNafUtilities.GenerateCompactWindowNaf(width, k);

            ECPoint R = p.Curve.Infinity;

            int i = wnaf.Length;

            /*
             * NOTE: We try to optimize the first window using the precomputed points to substitute an
             * addition for 2 or more doublings.
             */
            if (i > 1)
            {
                int wi = wnaf[--i];
                int digit = wi >> 16, zeroes = wi & 0xFFFF;

                int       n     = System.Math.Abs(digit);
                ECPoint[] table = digit < 0 ? preCompNeg : preComp;

                // Optimization can only be used for values in the lower half of the table
                if ((n << 2) < (1 << width))
                {
                    int highest = LongArray.BitLengths[n];

                    // TODO Get addition/doubling cost ratio from curve and compare to 'scale' to see if worth substituting?
                    int scale   = width - highest;
                    int lowBits = n ^ (1 << (highest - 1));

                    int i1 = ((1 << (width - 1)) - 1);
                    int i2 = (lowBits << scale) + 1;
                    R = table[i1 >> 1].Add(table[i2 >> 1]);

                    zeroes -= scale;

                    //Console.WriteLine("Optimized: 2^" + scale + " * " + n + " = " + i1 + " + " + i2);
                }
                else
                {
                    R = table[n >> 1];
                }

                R = R.TimesPow2(zeroes);
            }

            while (i > 0)
            {
                int wi = wnaf[--i];
                int digit = wi >> 16, zeroes = wi & 0xFFFF;

                int       n     = System.Math.Abs(digit);
                ECPoint[] table = digit < 0 ? preCompNeg : preComp;
                ECPoint   r     = table[n >> 1];

                R = R.TwicePlus(r);
                R = R.TimesPow2(zeroes);
            }

            return(R);
        }