.NET 4.0 Beta2中的BigInteger和Complex类

等了八年,终于出来了。要是再加上矩阵Matrix类,就更好了。

在此基础上,就可以开发几何,代数,高数,数理统计等常用的数学库。

希望有人能把R转成.net版本!!!

以下转自 http://www.cnblogs.com/carysun/archive/2009/10/25/Numerics-BigIntegerComplex.html

 

.NET4.0 Beta2中提供了新的System.Numerics命名空间,对应于System.Numerics.dll。该命名空间下就两个类BigInteger和Complex,我们来简单了解下
这两个类的用法。

BigInteger:任意大小的带符号整数

1.Int64, SByte, UInt16, UInt32, and UInt64这些都有一个MinValue和MaxValue属性。而BigInteger没有这两个属性,因为它没有大小限制。
2.不可变的类型.
3.由于他没有大小限制,理论上当它足够大的时候会出现OutOfMemoryException异常.

BigInteger初始化

1.我们可以使用已有的数据类型来初始化BigInteger,如下:

BigInteger bigIntFromDouble = new BigInteger(179032.6541);//会截取小点前的
BigInteger bigIntFromInt64 = new BigInteger(934157136952);
2.我们也可以使用超出现有数据类型范围的方式来得到BigInteger:
byte[] bytes = { 5, 4, 3, 2, 1 };
BigInteger number = new BigInteger(bytes);
Console.WriteLine("The value of number is {0} (or 0x{0:x}).", number); 
//The value of number is 4328719365 (or 0x102030405).   
字节数组的第一个元素为16进制的最低位,依次升高.

3.可以使用ParseTryParse方法将string的实例化为BigInteger:

string positiveString = "91389681247993671255432112000000";
string negativeString = "-90315837410896312071002088037140000";
BigInteger posBigInt = 0;
BigInteger negBigInt = 0;

posBigInt = BigInteger.Parse(positiveString);
Console.WriteLine(posBigInt);

BigInteger.TryParse(negativeString, out negBigInt);
Console.WriteLine(negBigInt);

4. 还可以使用静态方法Pow如下:

BigInteger number = BigInteger.Pow(Int64.MaxValue, 3);

BigInteger支持所有的数学运算,我们可以完全象使用其他整数类型一样使用BigInteger

 

Complex复数类

1.var z1 = new Complex(); // this creates complex zero (0, 0)
  var z2 = new Complex(2, 4);
  var z3 = new Complex(3, 5);

  Console.WriteLine("Complex zero: " + z1);
  Console.WriteLine(z2 + " + " + z3 + " = " + (z2 + z3));

  Console.WriteLine("|z2| = " + z2.Magnitude);
  Console.WriteLine("Phase of z2 = " + z2.Phase);
2.我们可以使用一个ComplexFormatter类来辅助我们做格式化输出,如下:
using System;
using System.Numerics;

public class ComplexFormatter :IFormatProvider, ICustomFormatter
{
   public object GetFormat(Type formatType) 
   {   
      if (formatType == typeof(ICustomFormatter))
         return this;
      else
         return null;
   }

   public string Format(string format, object arg, 
                        IFormatProvider provider)
   {
      if (arg is Complex)
      {
         Complex c1 = (Complex) arg; 
         // Check if the format string has a precision specifier.
         int precision;
         string fmtString = String.Empty;
         if (format.Length > 1) {
            try {
               precision = Int32.Parse(format.Substring(1));
            }
            catch (FormatException) {
               precision = 0;
            }
            fmtString = "N" + precision.ToString();
         }
         if (format.Substring(0, 1).Equals("I", StringComparison.OrdinalIgnoreCase))
            return c1.Real.ToString("N2") + " + " + c1.Imaginary.ToString("N2") + "i";
         else if (format.Substring(0, 1).Equals("J", StringComparison.OrdinalIgnoreCase))
            return c1.Real.ToString("N2") + " + " + c1.Imaginary.ToString("N2") + "j";
         else
            return c1.ToString(format, provider);
      }
      else
      {
         if (arg is IFormattable)
            return ((IFormattable) arg).ToString(format, provider);
         else if (arg != null) 
            return arg.ToString();
         else
            return String.Empty;
      }                        
   }
}
3.使用如下:
Complex c1 = new Complex(12.1, 15.4);
Console.WriteLine("Formatting with ToString():" + c1.ToString());
Console.WriteLine("Formatting with ToString(format): " +  c1.ToString("N2"));
Console.WriteLine("Custom formatting with I0:" +  String.Format(new ComplexFormatter(), "{0:I0}", c1));
Console.WriteLine("Custom formatting with J3:" +  String.Format(new ComplexFormatter(), "{0:J3}", c1));

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