Esempio n. 1
0
        static async Task Main(string[] args)
        {
            var result = await Tupler.ProcessLanguage();


            //Review 1 Null Conditional
            var nullConditional = new NullConditional();

            nullConditional.PurchaseProduct();

            //nifty way of checking argument length
            switch (args?.Length)
            {
            case 1:
                //one arg passed in
                break;

            case 2:
                //you get the idea
                break;
            }


            //2 Interpolation
            Interpolation.InterpolateDemo();


            //3 Null conditional
            var nc = new NullConditional();

            nc.PurchaseProduct();

            //As you see fit...



            //*****************************************************
            //1. Binary Literal and digit separator
            DigitAndBinary.Process();

            //*****************************************************
            //2. Ref returns - pointer to a structure

            //Cannot use with async. Compiler can't know if ref'd variable is set before it returns
            var refReturns = new RefReturnsAndLocal();

            refReturns.TestRefs();

            //*****************************************************
            //3. Expression bodied accessors, constructors, destructor/finalizer
            // C# 6
            var zombie = new CSharp6.ExpressionBodied6.Zombie("Fred", 30);

            Console.WriteLine(zombie.ToString());

            //3a. Note C#6 collection initialization
            List <Order> orders = new List <Order>()
            {
                new Order(), new Order(), new Order()
            };
            var processor = new OrderProcessor(orders);

            //4
            //Throw expressions - allow throw in expression bodied methods
            //                        (these could be used all throughout api stubs, like reference assemblies for compilation)
            //Also allows null coalescing (single line function calls)
            try
            {
                var person = new CSharp7.Person(null);
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Caught throw expression:{ex}");
            }

            //*****************************************************
            //4. Local Functions
            int[] numbers = { 3, 8, 7, 5, 2, 1, 9, 6, 4 };
            LocalFunctions.QuickSort(numbers, 0, numbers.Length - 1);
            Console.WriteLine("Sorted items");
            numbers.ToList().ForEach(o => Console.WriteLine(o));

            //Ex 2
            LocalFunctions.Fibonacci(5);


            //*****************************************************
            //5. Out vars
            OutVars.Process();

            //*****************************************************
            //6. Pattern Matching

            var pm = new PatternMatching();

            pm.MatchSomething(new Circle(3.5d));
            pm.MatchSomething(new Rectangle(2d, 4d));


            //Int
            pm.PrintStars(5);

            //String
            pm.PrintStars("5");

            //Shape
            pm.PrintStars(new Rectangle(3, 4));


            //*****************************************************
            //8. Tuples

            //Now a valuetuple - NO GC PRESSURE. Stack based!

            //Lets check it out
            //https://docs.microsoft.com/en-us/dotnet/api/?view=netframework-4.6.2&term=ValueTuple
            //https://docs.microsoft.com/en-us/dotnet/api/?view=netframework-4.5&term=System.Tuple



            //Literals - note IL is optimized
            // [130 13 - 130 53]
            // IL_01c3: ldc.i4.1
            // IL_01c4: stloc.s a
            // IL_01c6: ldc.i4.2
            // IL_01c7: stloc.s b


            var(a, b, c, c1, c2) = (1, 2, 3, 4, 5);

            //We have variables now
            var addThemUp = a + b + c;


            //Tuple compatibility with System.Tuple
            (var userName, var pass) = Tuple.Create("adam", "91281821JASJHDAHssh2#h4H#H@#Hh2h3H#H");

            //Type inference - note right hand side intellisense
            (float i, int j, int k) = (1, 2, 3);

            //named
            (int p, int q, int r)theTup = (2, 3, 4);

            theTup   = (5, 6, 7);
            theTup.p = 8;

            //adam
            var adam = ("adam", "m", "tuliper");

            //123-44-1234
            (string firstName, string middleName, string lastName)cestMoi = adam;

            //If we don't care about names

            (string, string, string)stringTuple = default((string tup1, string tup2, string tup3));

            stringTuple.Item1 = "Mary";


            //var result = task.Result;


            Console.WriteLine($"{result.keyPhrases}\r\n{result.sentiment}\r\n{result.language}");


            //named type inference
            var speedAndHealth = (health : 100, speed : 10);

            //This isn't meant to be hungarian notation :)
            (int id1, int id2, int id3)t = (2, 3, 4);
            Console.WriteLine($"{t.id1} {t.id2} {t.id3}");


            //can't convert dbl to float, and also a:1 - 'a' will be ignored
            //(int a1, float b1, int c20) conversions = (a: 1, 2d, 3);


            var item = (num : 1f, count : 2f, name : "hello", person : new Person()
            {
                Name = "Mary"
            });

            item.Item1 = item.Item2 * item.Item1;

            //Tuple.Create("item1", "item2", "item", "item", "item", "item", "item7", Tuple.Create("item 8"))
            //     .Set(out var item1, out var item2, out var item3, out var item4, out var item5, out var item6, out var item7)
            //     .Set(out var item8);



            //8b. Deconstruction
            var point = new Point(5, 4);

            var(p1, p2) = point;

            //overloaded deconstruction
            var(x1, y1, q1) = point;

            //Note can't have a single value deconstruction or tuple
            //(int aqqqq) = (5);

            //Deconstruction, I only want one item
            (int a10, _, _, _, _) = (1, 2, 3, 4, 5);
            var(x, _)             = point;

            //Equality - checks
            var(first, address) = ("1", "2");
            return;
        }
Esempio n. 2
0
        static void Main(string[] args)
        {
            (string p1, string p2, string keyLang, string keyNum) = (null, null, "", "");
            switch (args?.Length)
            {
            case 1:
                p1 = args[0];
                break;

            case 2:
                p2 = args[1];
                goto case 1;
            }
            if (!string.IsNullOrEmpty(p1))
            {
                Console.WriteLine("Demo Language (C# X) [5=C#5, 6=C#6, 7=C#7.0, 1=C#7.1, 2=C#7.2, 3=C#7.3");
                keyLang = Console.ReadKey().KeyChar.ToString();
            }
            else
            {
                keyLang = p1;
            }
            Console.WriteLine();
            if (!string.IsNullOrEmpty(p2))
            {
                Console.WriteLine("Demo Number (1-F)");
                keyNum = Console.ReadKey().KeyChar.ToString().ToUpper();
            }
            else
            {
                keyNum = p2;
            }
            Console.WriteLine($"Call demo: {keyLang}.{keyNum}");
            switch ($"{keyLang}.{keyNum}")
            {
            case "5.1":
                Console.WriteLine("Async Await");
                break;

            case "5.2":
                Console.WriteLine("Async Load");
                break;

            case "5.3":
                Console.WriteLine("CallerInfo");
                break;

            case "6.1":
                Console.WriteLine("Auto Props");
                break;

            case "6.2":
                Console.WriteLine("Collection Initializer");
                break;

            case "6.3":
                Console.WriteLine("Dictionaries");
                break;

            case "6.4":
                Console.WriteLine("Exception Filter");
                break;

            case "6.5":
                Console.WriteLine("ExpressionBodies");
                var eb = new ExpressionBodies.Zombie("Some Name", 100);
                Console.WriteLine($"Health = {eb.Health}; Name = {eb.Name}");
                break;

            case "6.6":
                Console.WriteLine("Index Init");
                break;

            case "6.7":
                Console.WriteLine("Interpolation");
                //2 Interpolation
                Interpolation.InterpolateDemo();
                break;

            case "6.8":
                Console.WriteLine("NameOf");
                break;

            case "6.9":
                Console.WriteLine("Null Conditional");
                break;

            case "6.10":
                Console.WriteLine("Partial Interface");
                //Review 1 Null Conditional
                var nullConditional = new NullConditional();
                nullConditional.PurchaseProduct();
                break;

            case "6.11":
                Console.WriteLine("Using Static");
                break;

            case "7.0":
                Console.WriteLine("DigitAndBinary");
                //1. Binary Literal and digit separator
                DigitAndBinary.Process();
                break;

            case "7.1":
                Console.WriteLine("RefReturnAndOuts");
                //2. Ref returns - pointer to a structure
                var refReturns = new RefReturnsAndOuts();
                refReturns.TestRefs();
                break;

            case "7.2":
                Console.WriteLine("ExpressionBodied");
                //3. Expression bodied accessors, constructors, destructor/finalizer
                // C# 6
                var zombie = new CSharp6.ExpressionBodies.Zombie("Fred", 30);
                Console.WriteLine(zombie.ToString());
                break;

            case "7.3":
                Console.WriteLine("LocalFunction");
                break;

            case "7.4":
                Console.WriteLine("Local Functions");
                int[] numbers = { 3, 8, 7, 5, 2, 1, 9, 6, 4 };
                LocalFunctions.QuickSort(numbers, 0, numbers.Length - 1);
                Console.WriteLine("Sorted items");
                numbers.ToList().ForEach(o => Console.WriteLine(o));
                //Ex 2
                LocalFunctions.Fibonacci(5);
                break;

            case "7.5":
                OutVars.Process();
                break;

            case "7.6":
                Console.WriteLine("PatternMatching");
                //6. Pattern Matching
                var pm = new PatternMatching();
                pm.MatchSomething(new Circle(3.5d));
                pm.MatchSomething(new Rectangle(2d, 4d));
                //Int
                pm.PrintStars(5);
                //String
                pm.PrintStars("5");
                //Shape
                pm.PrintStars(new Rectangle(3, 4));
                break;

            case "7.7":
                Console.WriteLine("ThrowExpression");
                try
                {
                    Person p = new Person("");
                    p.Name = null; // throws an exception
                }
                catch (Exception)
                {
                    Console.WriteLine("Exception thrown");
                }
                break;

            case "7.8":
                Console.WriteLine("Tupler");
                var task = Tupler.ProcessPageRead();
                task.Wait();
                var result = task.Result;
                Console.WriteLine($"{result.url} sent {result.data.Length} bytes");
                break;

            case "7.9":
                Console.WriteLine("Deconstruct");
                break;

            case "7.A":
                Console.WriteLine("GeneralizedAsyncReturn");
                break;

            // C# 7.1
            case "1.1":
                break;

            case "1.2":
                break;

            case "1.3":
                var dil = new DiscardsInLambdas();
                dil.Run();
                break;

            case "1.4":
                break;

            case "1.5":
                break;

            case "1.6":
                var tt = new TargetTypedDefault();
                Console.WriteLine($"Ausgabe: {tt.DoSomething()}"); // 0
                break;

            case "1.7":
                var tp = new TupleProjectionInitializers();
                tp.Run();
                break;

            // C# 7.2
            case "2.1":
                Console.WriteLine("ExpressionVariablesInInit");
                break;

            case "2.2":
                Console.WriteLine("MixedNamedArguments");
                MixedNamedArguments.Execute();
                break;

            case "2.3":
                Console.WriteLine("ReferenceSemanticsIn");
                break;

            // C# 7.3
            case "3.3":
                Console.WriteLine("Tuples Equality");
                break;
            }

            Console.WriteLine();
            Console.ReadLine();
        }