Esempio n. 1
0
        public static void Run()
        {
            string option = "1";

            while (Convert.ToInt32(option) < 8)
            {
                option = DisplayRunOptions();
                switch (option)
                {
                case "1":
                    PrimeFinding.RunFindPrime();
                    break;

                case "2":
                    DistinctPowers.RunDistinctPowers();
                    break;

                case "3":
                    ConsecutivePrimes.RunConsecutivePrimeSum();
                    break;

                case "4":
                    Fibonacci.RunEvenFibonacciSum();
                    break;

                case "5":
                    SumSquareDifference.RunSumSquareDifference();
                    break;

                case "6":
                    SmallestMultiple.RunSmallestMultiple();
                    break;

                case "7":
                    ProductInGrid.RunLargestProductInGrid();
                    break;

                default:
                    break;
                }
            }
        }
Esempio n. 2
0
        static void Main(string[] args)
        {
            #region multiples of 3 and 5
            if (IS_MULTIPLES_3_5)
            {
                Console.WriteLine("Sum of all multiples of 3 or 5 below 1000: ");
                ProblemsDoneByHand pdbh = new ProblemsDoneByHand();
                Console.WriteLine(_closeOut);
                Console.WriteLine(pdbh.Answer1());
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Fibonacci
            if (IS_FIBONACCI_SIMPLE == true)
            {
                Fibonacci f = new Fibonacci();
                Console.WriteLine("Input a desired Fibonnaci number: ");
                string value = Console.ReadLine();
                Console.WriteLine(value + " Fibonnaci number! " + f.FibonacciSimple(Convert.ToInt32(value)));
                if (IS_FIBONACCI_SHOW_TERMS == true)
                {
                    for (int i = 0; i < Convert.ToInt32(value); i++)
                    {
                        Console.WriteLine(f.FibonacciSimple(i));
                    }
                }
                Console.WriteLine(_closeOut);
            }

            if (IS_EVEN_FIBONACCI_NUMBERS == true)
            {
                Fibonacci f = new Fibonacci();
                Console.WriteLine("Input Number of Terms");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                Console.WriteLine(value + "" + f.SumOfEvenFibonacciTerms(Convert.ToInt32(value)));
                Console.WriteLine(_closeOut);
            }

            if (IS_1000Digit_FIBONACCI)
            {
                Stopwatch sw = new Stopwatch();
                Fibonacci f  = new Fibonacci();
                Console.WriteLine("Input Number of Digits");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Index for first {0} digit number: {1}", value, f.FibonacciDigitCount(Convert.ToInt32(value)));
                sw.Stop();
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region LargestPrime
            if (IS_LARGEST_PRIME_FACTOR_RECURSIVE)
            {
                Stopwatch          sw  = new Stopwatch();
                LargestPrimeFactor lfp = new LargestPrimeFactor();
                Console.WriteLine("Input Number you want the Largest Prime factor of");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Largest Prime factor: " + lfp.LargestPrimeFactorSlow(Convert.ToInt64(value)));
                sw.Stop();
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }

            if (IS_LARGEST_PRIME_FACTOR_QUICKER)
            {
                Stopwatch          sw  = new Stopwatch();
                LargestPrimeFactor lfp = new LargestPrimeFactor();
                Console.WriteLine("Input Number you want the Largest Prime factor of");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Largest Prime factor: " + lfp.LargestPrimeFactorFaster(Convert.ToInt64(value)));
                sw.Stop();
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Palindrome
            if (IS_PALINDROME_3_DIGITS_RECURSIVE)
            {
                Stopwatch  sw = new Stopwatch();
                Palindrome p  = new Palindrome();
                Console.WriteLine("Calculating largest Palindrome from the product of two 3 digit numbers (recursive):");
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Answer: " + p.LargestPalindromeThreeDigitsRecursive());
                sw.Stop();
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }

            if (IS_PALINDROME_3_DIGITS_QUICKER)
            {
                Stopwatch  sw = new Stopwatch();
                Palindrome p  = new Palindrome();
                Console.WriteLine("Calculating largest Palindrome from the product of two 3 digit numbers (p builder):");
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Answer: " + p.LargestPalindromeThreeDigitsQuicker());
                Console.WriteLine("Made by multiplying " + p.Factor + " and " + p.Factor1);
                sw.Stop();
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region SmallestMultiple

            if (IS_SMALLEST_MULTIPLE_RANGE_GCD_EUCLIDEAN)
            {
                Stopwatch        sw = new Stopwatch();
                SmallestMultiple sm = new SmallestMultiple();
                Console.WriteLine("Enter Max number for range of Smallest Multiple (starts at 1): ");
                Console.WriteLine(_closeOut);
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Answer: " + sm.SmallestMultipleByRange(Convert.ToInt32(value)));
                sw.Stop();
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }

            #endregion

            #region SumSquareDifference
            if (IS_SUM_SQUARE_DIFFERENCE)
            {
                Stopwatch           sw  = new Stopwatch();
                SumSquareDifference ssd = new SumSquareDifference();
                Console.WriteLine("Input Max Natural Number: ");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Square of Sums: " + ssd.squareSum(Convert.ToInt32(value)));
                Console.WriteLine("Sum of Square: " + ssd.sumSquare(Convert.ToInt32(value)));
                Console.WriteLine("Sum Square Difference: " + ssd.SumSquareDifferenceAnswer(Convert.ToInt32(value)));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }

            #endregion

            #region 10001st prime
            if (IS_FIND_PRIME_BY_NUMBER)
            {
                Stopwatch sw = new Stopwatch();
                Prime     p  = new Prime();
                Console.WriteLine("Input Desired Prime Number: ");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Selected Prime: " + p.GetPrimeAtNumber(Convert.ToInt32(value)));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Largest Product in a series
            if (IS_LARGEST_PRODUCT_IN_SERIES)
            {
                Stopwatch            sw  = new Stopwatch();
                Prime                p   = new Prime();
                LargestProductSeries lps = new LargestProductSeries();
                sw.Start();
                Console.WriteLine("Answer 8 for long series: " + lps.Answer8());
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Pythagorean Triplet
            if (IS_PYTHAGOREAN_TRIPLET)
            {
                Stopwatch          sw = new Stopwatch();
                Palindrome         p  = new Palindrome();
                PythagoreanTriplet pt = new PythagoreanTriplet();
                Console.WriteLine("Input sum of desired Pythagorean Triplet product:");
                Console.WriteLine(_closeOut);
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Answer: " + pt.Answer9(Convert.ToInt64(value)));
                Console.WriteLine("Values A {0}, B {1}, C {2} ", pt.A, pt.B, pt.C);
                sw.Stop();
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Summation of Primes
            if (IS_SUMMATION_OF_PRIMES)
            {
                Stopwatch sw = new Stopwatch();
                Prime     p  = new Prime();
                Console.WriteLine("Input max number (primes below it will be summed) : ");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Sum of Primes: " + p.GetSumOfPrimes(Convert.ToInt32(value)));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }

            #endregion

            #region Largest Product in a grid
            if (IS_LARGEST_PRODUCT_IN_GRID)
            {
                Stopwatch            sw  = new Stopwatch();
                LargestProductSeries lps = new LargestProductSeries();
                sw.Start();
                Console.WriteLine("Answer 11 for product in Grid: " + lps.Answer11());
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Highly divisible trangular number
            if (IS_HIGHLY_DIVISIBLE_TRIANGLE_NUMBER)
            {
                Stopwatch        sw = new Stopwatch();
                TriangularNumber tn = new TriangularNumber();
                Console.WriteLine("Input max number (for divisors of triangular number) : ");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Number of first triangle with 500 divisors: " + tn.Answer12(Convert.ToInt64(value)));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Large Sum
            if (IS_LARGE_SUM)
            {
                Stopwatch        sw  = new Stopwatch();
                LargestSumSeries lss = new LargestSumSeries();
                Console.WriteLine("Answer 13 coming up! : ");
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("First 10 digits of Sum for Answer 13: " + lss.Answer13());
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Longest Collatz sequence
            if (IS_LONGEST_COLLATZ)
            {
                Stopwatch       sw = new Stopwatch();
                CollatzSequence cs = new CollatzSequence();
                Console.WriteLine("Input max number: ");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("Starting number: " + cs.CollatzLargestUnderInput(Convert.ToInt64(value)) + " Sequence length: " + cs.SequenceLength);
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region LatticePath
            if (IS_LATTICE_PATH)
            {
                Stopwatch   sw = new Stopwatch();
                LatticePath lp = new LatticePath();
                Console.WriteLine("Input square grid dimensions: ");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("For a {0}x{0} grid there are {1} possible paths. ", Convert.ToInt64(value), lp.LatticePathForSpecifiedGrid(Convert.ToInt64(value)));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region PowerDigitSum
            if (IS_POWER_DIGIT_SUM)
            {
                Stopwatch     sw  = new Stopwatch();
                PowerDigitSum pds = new PowerDigitSum();
                Console.WriteLine("Input base number: ");
                string value = Console.ReadLine();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Input power: ");
                string value1 = Console.ReadLine();
                Console.WriteLine(_closeOut);
                sw.Start();
                Console.WriteLine("{0} to the {1} power: ", Convert.ToInt64(value), (Convert.ToInt64(value1)));
                Console.WriteLine("Equals: {0}", pds.Power(Convert.ToInt64(value), Convert.ToInt32(value1)));
                Console.WriteLine(_closeOut);
                Console.WriteLine("Sum of Digits: ");
                Console.WriteLine(pds.BetterSumOfDigits(pds.Power(Convert.ToInt64(value), Convert.ToInt32(value1))));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Number Letter Counts
            if (IS_NUMBER_LETTER_COUNTS)
            {
                ProblemsDoneByHand pdbh = new ProblemsDoneByHand();
                Console.WriteLine("1- 1000 in words total letters (no spaces or hyphens include ands): ");
                Console.WriteLine(_closeOut);
                Console.WriteLine(pdbh.Answer17());
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Maximum path sum
            if (IS_MAX_PATH_SUM)
            {
                Stopwatch      sw  = new Stopwatch();
                MaximumPathSum mps = new MaximumPathSum();
                Console.WriteLine("Maximum Path Sum Problem 18: ");
                sw.Start();
                Console.WriteLine("Answer:  " + mps.Problem18());
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Counting Sundays
            if (IS_COUNTING_SUNDAYS)
            {
                Stopwatch          sw  = new Stopwatch();
                DayDateCalculation ddc = new DayDateCalculation();
                Console.WriteLine("Sundays on the first between 1901 - 2000: ");
                sw.Start();
                Console.WriteLine("Answer:  " + ddc.Problem19());
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Factorial Digit Sum
            if (IS_FACTORIAL_DIGIT_SUM)
            {
                Stopwatch    sw = new Stopwatch();
                FactorialSum fs = new FactorialSum();
                Console.WriteLine("Enter Factorial digit sum: ");
                string value = Console.ReadLine();
                sw.Start();
                Console.WriteLine("Answer:  " + fs.FactorialDigitSum(Convert.ToInt64(value)));
                Console.WriteLine(_closeOut);
                Console.WriteLine("Number:  " + fs.Factor);
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }

            if (IS_FACTORIAL_SUM)
            {
                Stopwatch    sw = new Stopwatch();
                FactorialSum fs = new FactorialSum();
                Console.WriteLine("Sum of Factorials from digits = number answer 34: ");
                sw.Start();
                Console.WriteLine("The Sum of all numbers who are equal to the sum of their digit's factorials " + fs.SumOfFactorialsIsNumber());
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Amicable Numbers
            if (IS_AMICABLE_NUMBERS)
            {
                Stopwatch       sw = new Stopwatch();
                AmicableNumbers an = new AmicableNumbers();
                Console.WriteLine("Enter max number for amicable numbers: ");
                string value = Console.ReadLine();
                sw.Start();
                Console.WriteLine("Answer:  " + an.Simple(Convert.ToInt64(value)));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Non-abundant Sums
            if (IS_NON_ABUNDANT_SUMS)
            {
                Stopwatch       sw  = new Stopwatch();
                NonAbundantSums nas = new NonAbundantSums();
                Console.WriteLine("Enter max number for non-abundant sums: ");
                string value = Console.ReadLine();
                sw.Start();
                Console.WriteLine("Answer:  " + nas.Answer23(Convert.ToInt32(value)));
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Lexicographic Permutations
            if (IS_LEXICOGRAPHIC_PERMUTATIONS)
            {
                Stopwatch sw = new Stopwatch();
                LexicographicPermutations lp = new LexicographicPermutations();
                sw.Start();
                Console.WriteLine("Answer 24 Lexicographic Permutation for 1-9: " + lp.Answer24());
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Reciprocal cycles
            if (IS_RECIPROCAL_CYCLES)
            {
                Stopwatch       sw = new Stopwatch();
                ReciprocalCycle rc = new ReciprocalCycle();
                Console.WriteLine("Enter max number for reciprocal cycle (1000): ");
                string value = Console.ReadLine();
                sw.Start();
                Console.WriteLine("The number with the longest recurring cycle is {0}, and the cycle is length {1}", rc.Answer26(Convert.ToInt32(value)), rc.SequenceLength);
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            #region Quadratic Primes
            if (IS_QUADRATIC_PRIMES)
            {
                Stopwatch       sw = new Stopwatch();
                QuadraticPrimes qp = new QuadraticPrimes();
                Console.WriteLine("Quadratic Primes answer 27: ");
                sw.Start();
                Console.WriteLine("A sequence of length {0}, is generated by a = {1}, b = {2}, the product is {3}", qp.Problem27(), qp.AMax, qp.BMax, qp.AMax * qp.BMax);
                sw.Stop();
                Console.WriteLine(_closeOut);
                Console.WriteLine("Duration: " + sw.Elapsed);
                Console.WriteLine(_closeOut);
            }
            #endregion

            Console.ReadLine();
        }