public static ulong LeastCommonMultiple(this int value1, int value2) { return(NumberExtensionsGenerics.LeastCommonMultiple(value1, value2)); }
/// <summary> /// This returns an array of the digits in a number. /// </summary> /// <param name="number"></param> /// <returns></returns> public static long[] ToArray(this int number) { return(NumberExtensionsGenerics.ToArray <long>(number)); }
public static bool IsFibonacci(this int a) { return(NumberExtensionsGenerics.IsFibonacci(a)); }
public static ulong GreatestCommonDenominator(this int value1, int value2) { return(NumberExtensionsGenerics.GreatestCommonDenominator(value1, value2)); }
public static bool IsPerfectSquare(this ulong a) { return(NumberExtensionsGenerics.IsPerfectSquare(a)); }
/// <summary> /// This will return true if an number is prime; false otherwise. /// </summary> /// <param name="n"></param> /// <returns></returns> public static bool IsPrime(this int n) { return(NumberExtensionsGenerics.IsPrime(n)); }
public static bool IsOdd(this int number) { return(NumberExtensionsGenerics.IsOdd(number)); }
/// <summary> /// Return true if the number is even. /// </summary> /// <param name="number"></param> /// <returns></returns> public static bool IsEven(this long number) { return(NumberExtensionsGenerics.IsEven(number)); }
public static int Length(this int number) { return(NumberExtensionsGenerics.Length(number)); }