Example #1
0
        public ActionResult TestView2(string id)
        {
            // Controller負責(控制流程):
            // 商業邏輯P0010物件, 使用BusinessTestView2()方法, 產出P0010ViewModel物件到View.
            P0010          p1  = new P0010();
            P0010ViewModel vm1 = p1.BusinessTestView2(id);

            return(View(vm1));
        }
Example #2
0
        static void Main(string[] args)
        {
            try
            {
                IO.Output("--------------------------------------------------------");
                IO.Output(Assembly.GetEntryAssembly()?.GetCustomAttribute <TargetFrameworkAttribute>()?.FrameworkName);
                IO.Output("--------------------------------------------------------");

                foreach (var arg in args)
                {
                    switch (arg.ToLower())
                    {
                    case "missing_integer":
                        var missingElementsInput = new List <int>()
                        {
                            0, 3, 4, 5, 7, 8, 11
                        };
                        var missingList = new FindMissingElements().Integers(missingElementsInput);
                        IO.Output(string.Format("Missing element(s) in {0}: {1}", String.Join(", ", missingElementsInput), String.Join(", ", missingList)));
                        break;

                    case "p0001":
                        var multiplesOf = new List <int>()
                        {
                            3, 5
                        };
                        var o = new P0001().Of(multiplesOf, 1000);
                        IO.Output(string.Format("Multiples of {0}: {1}", String.Join(',', multiplesOf), o));
                        break;

                    case "p0002":
                        var lessThan = 4000000;
                        var sumOfFibonacciEvenValues = new P0002().GetSumOfFibonacciEvenValues(lessThan);
                        IO.Output(string.Format("Sum of the even-valued fibonacci numbers less than {0}: {1}", lessThan, sumOfFibonacciEvenValues));
                        break;

                    case "p0003":
                        var primeFactorsInput = 600851475143;
                        var maxPrimeFactor    = new P0003().GetLargestPrimeFactor(primeFactorsInput);
                        IO.Output(string.Format("The largest prime factor of {0}: {1}", primeFactorsInput, maxPrimeFactor));
                        break;

                    case "p0004":
                        var digitSize = 3;
                        var largestPalindromeProduct = new P0004().LargestPalindromeProduct(digitSize);
                        IO.Output(string.Format("The largest palindrome product of two {0}-digit number: {1}", digitSize, largestPalindromeProduct));
                        break;

                    case "p0005":
                        var smallestMultipleInput  = 20;
                        var smallestMultipleOutput = new P0005().DivisibleByAll(smallestMultipleInput);
                        IO.Output(string.Format("The smallest positive number that is evenly divisible by all of the numbers from 1 to {0}: {1}", smallestMultipleInput, smallestMultipleOutput));
                        break;

                    case "p0006":
                        var sumSquareDifferenceInput  = 20;
                        var sumSquareDifferenceOutput = new P0006().Difference(sumSquareDifferenceInput);
                        IO.Output(string.Format("The difference between the sum of the squares and the square of the sum of the first {0}: {1}", sumSquareDifferenceInput, sumSquareDifferenceOutput));
                        break;

                    case "p0007":
                        var nthPrimeInput  = 10001;
                        var nthPrimeOutput = new P0007().NthPrimeNumber(nthPrimeInput);
                        IO.Output(string.Format("The {0}th prime number: {1}", nthPrimeInput, nthPrimeOutput));
                        break;

                    case "p0008":
                        var prodOfNAdjacentNumInput  = 13;
                        var prodOfNAdjacentNumOutput = new P0008().ProdOfNAdjacentNum(prodOfNAdjacentNumInput);
                        IO.Output(string.Format("The product of {0} adjacent numbers: {1}", prodOfNAdjacentNumInput, prodOfNAdjacentNumOutput));
                        break;

                    case "p0009":
                        var prodOfPythagoreanTripletInput  = 1000;
                        var prodOfPythagoreanTripletOutput = new P0009().ProdOfPythagoreanTriplet(prodOfPythagoreanTripletInput);
                        IO.Output(string.Format("The product of Pythagorean Triplet: {0}", prodOfPythagoreanTripletOutput));
                        break;

                    case "p0010":
                        var sumOfPrimeBelowInput  = 2000000;
                        var sumOfPrimeBelowOutput = new P0010().SumOfPrimeBelow(sumOfPrimeBelowInput);
                        IO.Output(string.Format("The sum of all primes below {0}: {1}", sumOfPrimeBelowInput, sumOfPrimeBelowOutput));
                        break;

                    case "p0011":
                        var largestProdInGridInput  = 4;
                        var largestProdInGridOutput = new P0011().LargestProductOfGrid(largestProdInGridInput);
                        IO.Output(string.Format("The product of the largest sequence of {0} in the grid: {1}", largestProdInGridInput, largestProdInGridOutput));
                        break;

                    default:
                        break;
                    }

                    IO.Input();
                }
            }
            catch (Exception e)
            {
                Console.WriteLine(e.Message);
                Console.WriteLine(e.StackTrace);
            }
        }