我需要计算高达100左右的阶乘数!为了确定一系列硬币翻转式数据是否是随机的,根据this Wikipedia entry on Bayesian probability.正如你在那里看到的那样,必要的公式涉及3个因子计算(但是,有趣的是,这些因子计算中的两个是计算到第三个)。
我看到this question here,但我认为这个整数很快就会被吹灭。我也可以创建一个更加智能的因子计算功能(即,如果我有11!/(7!3!),根据wiki示例,我可以去(11 * 10 * 9 * 8)/ 3!),但这对我来说过早优化,在某种意义上我希望它能够工作,但我并不关心速度(还)。
那么,为了获得这个概率,我可以调用什么样的C#库来计算阶乘?我对可以进入阶乘计算的所有可怕性感兴趣,我只想以一种我可以操纵它的方式得到结果。在Math命名空间中似乎没有因子函数,因此问题。
你可以尝试Math.NET - 我没有使用过那个库,但他们确实列出了Factorial和Logarithmic Factorial。
在类似的主题上有一个previous question。那里有人联系了Fast Factorial Functions网站,其中包括对高效算法甚至C#源代码的一些解释。
您想计算阶乘或二项式系数吗?
听起来你想要计算二项式系数 - 尤其是当你提到11!/(7!3!)时。
可能有一个库可以为你做这个,但作为(大概)程序员访问堆栈溢出,没有理由不自己写一个。这不是太复杂。
为避免内存溢出,请不要在删除所有公共因子之前评估结果。
这个算法仍然需要改进,但是你有一个好算法的基础。分母值需要分成其最佳结果的主要因素。就目前而言,这将非常快地运行n = 50。
float CalculateBinomial(int n, int k)
{
var numerator = new List<int>();
var denominator = new List<int>();
var denominatorOld = new List<int>();
// again ignore the k! common terms
for (int i = k + 1; i <= n; i++)
numerator.Add(i);
for (int i = 1; i <= (n - k); i++)
{
denominator.AddRange(SplitIntoPrimeFactors(i));
}
// remove all common factors
int remainder;
for (int i = 0; i < numerator.Count(); i++)
{
for (int j = 0; j < denominator.Count()
&& numerator[i] >= denominator[j]; j++)
{
if (denominator[j] > 1)
{
int result = Math.DivRem(numerator[i], denominator[j], out remainder);
if (remainder == 0)
{
numerator[i] = result;
denominator[j] = 1;
}
}
}
}
float denominatorResult = 1;
float numeratorResult = 1;
denominator.RemoveAll(x => x == 1);
numerator.RemoveAll(x => x == 1);
denominator.ForEach(d => denominatorResult = denominatorResult * d);
numerator.ForEach(num => numeratorResult = numeratorResult * num);
return numeratorResult / denominatorResult;
}
static List<int> Primes = new List<int>() { 2, 3, 5, 7, 11, 13, 17, 19,
23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97 };
List<int> SplitIntoPrimeFactors(int x)
{
var results = new List<int>();
int remainder = 0;
int i = 0;
while (!Primes.Contains(x) && x != 1)
{
int result = Math.DivRem(x, Primes[i], out remainder);
if (remainder == 0)
{
results.Add(Primes[i]);
x = result;
i = 0;
}
else
{
i++;
}
}
results.Add(x);
return results;
}
我可以估计n = 110,k = 50(返回6x10 ^ 31)但不能运行n = 120,k = 50。
using System;
//calculating factorial with recursion
namespace ConsoleApplication2
{
class Program
{
long fun(long a)
{
if (a <= 1)
{
return 1;}
else
{
long c = a * fun(a - 1);
return c;
}}
static void Main(string[] args)
{
Console.WriteLine("enter the number");
long num = Convert.ToInt64(Console.ReadLine());
Console.WriteLine(new Program().fun(num));
Console.ReadLine();
}
}
}
以下可以在1秒内计算5000的阶乘。
public class Number
{
#region Fields
private static long _valueDivision = 1000000000;
private static int _valueDivisionDigitCount = 9;
private static string _formatZeros = "000000000";
List<long> _value;
#endregion
#region Properties
public int ValueCount { get { return _value.Count; } }
public long ValueAsLong
{
get
{
return long.Parse(ToString());
}
set { SetValue(value.ToString()); }
}
#endregion
#region Constructors
public Number()
{
_value = new List<long>();
}
public Number(long value)
: this()
{
SetValue(value.ToString());
}
public Number(string value)
: this()
{
SetValue(value);
}
private Number(List<long> list)
{
_value = list;
}
#endregion
#region Public Methods
public void SetValue(string value)
{
_value.Clear();
bool finished = false;
while (!finished)
{
if (value.Length > _valueDivisionDigitCount)
{
_value.Add(long.Parse(value.Substring(value.Length - _valueDivisionDigitCount)));
value = value.Remove(value.Length - _valueDivisionDigitCount, _valueDivisionDigitCount);
}
else
{
_value.Add(long.Parse(value));
finished = true;
}
}
}
#endregion
#region Static Methods
public static Number operator +(Number c1, Number c2)
{
return Add(c1, c2);
}
public static Number operator *(Number c1, Number c2)
{
return Mul(c1, c2);
}
private static Number Add(Number value1, Number value2)
{
Number result = new Number();
int count = Math.Max(value1._value.Count, value2._value.Count);
long reminder = 0;
long firstValue, secondValue;
for (int i = 0; i < count; i++)
{
firstValue = 0;
secondValue = 0;
if (value1._value.Count > i)
{
firstValue = value1._value[i];
}
if (value2._value.Count > i)
{
secondValue = value2._value[i];
}
reminder += firstValue + secondValue;
result._value.Add(reminder % _valueDivision);
reminder /= _valueDivision;
}
while (reminder > 0)
{
result._value.Add(reminder % _valueDivision);
reminder /= _valueDivision;
}
return result;
}
private static Number Mul(Number value1, Number value2)
{
List<List<long>> values = new List<List<long>>();
for (int i = 0; i < value2._value.Count; i++)
{
values.Add(new List<long>());
long lastremain = 0;
for (int j = 0; j < value1._value.Count; j++)
{
values[i].Add(((value1._value[j] * value2._value[i] + lastremain) % _valueDivision));
lastremain = ((value1._value[j] * value2._value[i] + lastremain) / _valueDivision);
//result.Add(();
}
while (lastremain > 0)
{
values[i].Add((lastremain % _valueDivision));
lastremain /= _valueDivision;
}
}
List<long> result = new List<long>();
for (int i = 0; i < values.Count; i++)
{
for (int j = 0; j < i; j++)
{
values[i].Insert(0, 0);
}
}
int count = values.Select(list => list.Count).Max();
int index = 0;
long lastRemain = 0;
while (count > 0)
{
for (int i = 0; i < values.Count; i++)
{
if (values[i].Count > index)
lastRemain += values[i][index];
}
result.Add((lastRemain % _valueDivision));
lastRemain /= _valueDivision;
count -= 1;
index += 1;
}
while (lastRemain > 0)
{
result.Add((lastRemain % _valueDivision));
lastRemain /= _valueDivision;
}
return new Number(result);
}
#endregion
#region Overriden Methods Of Object
public override string ToString()
{
string result = string.Empty;
for (int i = 0; i < _value.Count; i++)
{
result = _value[i].ToString(_formatZeros) + result;
}
return result.TrimStart('0');
}
#endregion
}
class Program
{
static void Main(string[] args)
{
Number number1 = new Number(5000);
DateTime dateTime = DateTime.Now;
string s = Factorial(number1).ToString();
TimeSpan timeSpan = DateTime.Now - dateTime;
long sum = s.Select(c => (long) (c - '0')).Sum();
}
static Number Factorial(Number value)
{
if( value.ValueCount==1 && value.ValueAsLong==2)
{
return value;
}
return Factorial(new Number(value.ValueAsLong - 1)) * value;
}
}
大家根据这个解决方案我有自己的解决方案,我计算阵列1D元素的阶乘。代码是`int [] array = new int [5] {4,3,4,3,8};
int fac = 1;
int[] facs = new int[array.Length+1];
for (int i = 0; i < array.Length; i++)
{
for (int j = array[i]; j > 0; j--)
{
fac *= j;
}
facs[i] = fac;
textBox1.Text += facs[i].ToString() + " ";
fac = 1;
}`
复制并粘贴按钮上面的^代码,它解决了数组1D元素的阶乘。最好的祝福。