MultByULong() private méthode

private MultByULong ( uint uiMultiplier ) : void
uiMultiplier uint
Résultat void
Exemple #1
0
        private static SqlDecimal Round(SqlDecimal n, int lPosition, bool fTruncate)
        {
            if (n.IsNull)
                return SqlDecimal.Null;

            if (lPosition >= 0)
            {
                //If round to the right of decimal number
                lPosition = Math.Min(s_NUMERIC_MAX_PRECISION, lPosition);
                if (lPosition >= n.m_bScale)
                    return n;   //No need to round
            }
            else
            {
                //If round to the left of the decimal point
                lPosition = Math.Max(-s_NUMERIC_MAX_PRECISION, lPosition);

                //Return +0.00 if truncation of integer part
                if (lPosition < n.m_bScale - n.m_bPrec)
                {
                    n.SetToZero();
                    return n;
                }
            }

            uint ulRem = 0;                                         // Remainder: the highest significant digit to be truncated
            int lAdjust = Math.Abs(lPosition - (int)n.m_bScale);    // Precision adjustment
            uint ulLastDivBase = 1;                                 //

            //Compute the integral part of the numeric
            while (lAdjust > 0)
            {
                if (lAdjust >= 9)
                {
                    ulRem = n.DivByULong(s_rgulShiftBase[8]);
                    ulLastDivBase = s_rgulShiftBase[8];
                    lAdjust -= 9;
                }
                else
                {
                    ulRem = n.DivByULong(s_rgulShiftBase[lAdjust - 1]);
                    ulLastDivBase = s_rgulShiftBase[lAdjust - 1];
                    lAdjust = 0;
                }
            }

            // The rounding only depends on the first digit after the rounding position
            if (ulLastDivBase > 1)
            {
                ulRem /= (ulLastDivBase / 10);
            }

            //If result is zero, return
            if (n.FZero() && (fTruncate || ulRem < 5))
            {
                n.SetPositive();
                n.AssertValid();
                return n;
            }

            // Adjust by adding 1 if remainder is larger than 5
            if (ulRem >= 5 && !fTruncate)
                n.AddULong(1);

            // Convert back to original scale
            lAdjust = Math.Abs(lPosition - n.m_bScale);

            while (lAdjust-- > 0)
            {
                n.MultByULong(s_ulBase10);
            }

            n.AssertValid();
            return n;
        }
 private static SqlDecimal Round(SqlDecimal n, int lPosition, bool fTruncate)
 {
     if (n.IsNull)
     {
         return Null;
     }
     if (lPosition >= 0)
     {
         lPosition = Math.Min(NUMERIC_MAX_PRECISION, lPosition);
         if (lPosition >= n.m_bScale)
         {
             return n;
         }
     }
     else
     {
         lPosition = Math.Max(-NUMERIC_MAX_PRECISION, lPosition);
         if (lPosition < (n.m_bScale - n.m_bPrec))
         {
             n.SetToZero();
             return n;
         }
     }
     uint num2 = 0;
     int num = Math.Abs((int) (lPosition - n.m_bScale));
     uint num3 = 1;
     while (num > 0)
     {
         if (num >= 9)
         {
             num2 = n.DivByULong(x_rgulShiftBase[8]);
             num3 = x_rgulShiftBase[8];
             num -= 9;
         }
         else
         {
             num2 = n.DivByULong(x_rgulShiftBase[num - 1]);
             num3 = x_rgulShiftBase[num - 1];
             num = 0;
         }
     }
     if (num3 > 1)
     {
         num2 /= num3 / 10;
     }
     if (n.FZero() && (fTruncate || (num2 < 5)))
     {
         n.SetPositive();
         return n;
     }
     if ((num2 >= 5) && !fTruncate)
     {
         n.AddULong(1);
     }
     num = Math.Abs((int) (lPosition - n.m_bScale));
     while (num-- > 0)
     {
         n.MultByULong(x_ulBase10);
     }
     return n;
 }