public void GetApproxParts(out int exp, out ulong man) { if (_iuLast == 0) { man = _uSmall; exp = 0; return; } var num = _iuLast - 1; man = NumericHelper.BuildUInt64(_bits[num + 1], _bits[num]); exp = num * 32; if (num <= 0) { return; } var num1 = NumericHelper.CbitHighZero(_bits[num + 1]); if (num1 <= 0) { return; } man = (man << num1) | (_bits[num - 1] >> (32 - num1)); exp -= num1; }
private static void ModDivCore(ref BigIntegerBuilder regNum, ref BigIntegerBuilder regDen, bool fQuo, ref BigIntegerBuilder regQuo) { regQuo.Set(0); if (regNum._iuLast < regDen._iuLast) { return; } var num1 = regDen._iuLast + 1; var num2 = regNum._iuLast - regDen._iuLast; var num3 = num2; var num4 = regNum._iuLast; while (true) { if (num4 < num2) { num3++; break; } if (regDen._bits[num4 - num2] == regNum._bits[num4]) { num4--; } else { if (regDen._bits[num4 - num2] < regNum._bits[num4]) { num3++; } break; } } if (num3 == 0) { return; } if (fQuo) { regQuo.SetSizeLazy(num3); } var num5 = regDen._bits[num1 - 1]; var num6 = regDen._bits[num1 - 2]; var num7 = NumericHelper.CbitHighZero(num5); var num8 = 32 - num7; if (num7 > 0) { num5 = (num5 << (num7 & 31)) | (num6 >> (num8 & 31)); num6 <<= num7 & 31; if (num1 > 2) { num6 |= regDen._bits[num1 - 3] >> (num8 & 31); } } regNum.EnsureWritable(); var num9 = num3; while (true) { var num10 = num9 - 1; num9 = num10; if (num10 < 0) { break; } var num = num9 + num1 > regNum._iuLast ? 0 : regNum._bits[num9 + num1]; var num11 = num; var num12 = NumericHelper.BuildUInt64(num11, regNum._bits[num9 + num1 - 1]); var num13 = regNum._bits[num9 + num1 - 2]; if (num7 > 0) { num12 = (num12 << (num7 & 63)) | (num13 >> (num8 & 31)); num13 <<= num7 & 31; if (num9 + num1 >= 3) { num13 |= regNum._bits[num9 + num1 - 3] >> (num8 & 31); } } var num14 = num12 / num5; var num15 = (ulong)(uint)(num12 % num5); if (num14 > uint.MaxValue) { num15 += num5 * (num14 - uint.MaxValue); num14 = uint.MaxValue; } while (num15 <= uint.MaxValue && num14 * num6 > NumericHelper.BuildUInt64((uint)num15, num13)) { num14--; num15 += num5; } if (num14 > 0) { var num16 = (ulong)0; for (var i = 0; i < num1; i++) { num16 += regDen._bits[i] * num14; var num17 = (uint)num16; num16 >>= 32; if (regNum._bits[num9 + i] < num17) { num16++; } regNum._bits[num9 + i] -= num17; } if (num11 < num16) { uint num18 = 0; for (var j = 0; j < num1; j++) { num18 = AddCarry(ref regNum._bits[num9 + j], regDen._bits[j], num18); } num14--; } regNum._iuLast = num9 + num1 - 1; } if (!fQuo) { continue; } if (num3 != 1) { regQuo._bits[num9] = (uint)num14; } else { regQuo._uSmall = (uint)num14; } } regNum._iuLast = num1 - 1; regNum.Trim(); }
private static void LehmerGcd(ref BigIntegerBuilder reg1, ref BigIntegerBuilder reg2) { var num = 1; while (true) { var num1 = reg1._iuLast + 1; var num2 = reg2._iuLast + 1; if (num1 < num2) { NumericHelper.Swap(ref reg1, ref reg2); NumericHelper.Swap(ref num1, ref num2); } if (num2 == 1) { if (num1 == 1) { reg1._uSmall = NumericHelper.GCD(reg1._uSmall, reg2._uSmall); } else if (reg2._uSmall != 0) { reg1.Set(NumericHelper.GCD(Mod(ref reg1, reg2._uSmall), reg2._uSmall)); } return; } if (num1 == 2) { break; } if (num2 > num1 - 2) { var high2 = reg1.GetHigh2(num1); var high21 = reg2.GetHigh2(num1); var num3 = NumericHelper.CbitHighZero(high2 | high21); if (num3 > 0) { high2 = (high2 << (num3 & 63)) | (reg1._bits[num1 - 3] >> ((32 - num3) & 31)); high21 = (high21 << (num3 & 63)) | (reg2._bits[num1 - 3] >> ((32 - num3) & 31)); } if (high2 < high21) { NumericHelper.Swap(ref high2, ref high21); NumericHelper.Swap(ref reg1, ref reg2); } if (high2 == ulong.MaxValue || high21 == ulong.MaxValue) { high2 >>= 1; high21 >>= 1; } if (high2 == high21) { reg1.Sub(ref num, ref reg2); } else if (NumericHelper.GetHi(high21) != 0) { uint num4 = 1; uint num5 = 0; uint num6 = 0; uint num7 = 1; while (true) { uint num8 = 1; var num9 = high2 - high21; while (num9 >= high21 && num8 < 32) { num9 -= high21; num8++; } if (num9 >= high21) { var num10 = high2 / high21; if (num10 <= uint.MaxValue) { num8 = (uint)num10; num9 = high2 - (num8 * high21); } else { break; } } var num11 = num4 + (num8 * (ulong)num6); var num12 = num5 + (num8 * (ulong)num7); if (num11 > 2147483647 || num12 > 2147483647) { break; } if (num9 < num12 || num9 + num11 > high21 - num6) { break; } num4 = (uint)num11; num5 = (uint)num12; high2 = num9; if (high2 > num5) { num8 = 1; num9 = high21 - high2; while (num9 >= high2 && num8 < 32) { num9 -= high2; num8++; } if (num9 >= high2) { var num13 = high21 / high2; if (num13 <= uint.MaxValue) { num8 = (uint)num13; num9 = high21 - (num8 * high2); } else { break; } } num11 = num7 + (num8 * (ulong)num5); num12 = num6 + (num8 * (ulong)num4); if (num11 > 2147483647 || num12 > 2147483647) { break; } if (num9 < num12 || num9 + num11 > high2 - num5) { break; } num7 = (uint)num11; num6 = (uint)num12; high21 = num9; if (high21 <= num6) { break; } } else { break; } } if (num5 != 0) { reg1.SetSizeKeep(num2, 0); reg2.SetSizeKeep(num2, 0); var num14 = 0; var num15 = 0; for (var i = 0; i < num2; i++) { var num16 = reg1._bits[i]; var num17 = reg2._bits[i]; var num18 = ((long)num16 * num4) - ((long)num17 * num5) + num14; var num19 = ((long)num17 * num7) - ((long)num16 * num6) + num15; num14 = (int)(num18 >> 32); num15 = (int)(num19 >> 32); reg1._bits[i] = (uint)num18; reg2._bits[i] = (uint)num19; } reg1.Trim(); reg2.Trim(); } else if (high2 / 2 < high21) { reg1.Sub(ref num, ref reg2); } else { reg1.Mod(ref reg2); } } else { reg1.Mod(ref reg2); } } else { reg1.Mod(ref reg2); } } reg1.Set(NumericHelper.GCD(reg1.GetHigh2(2), reg2.GetHigh2(2))); }