public void TestCopyFromAndTo()
 {
     using (var item = new ExternalCacheItem())
     {
         var obj = new TestClass {
             Prop1 = "P1", Prop2 = "P2", Prop3 = "P3", Prop4 = -1
         };
         item.CopyFrom(obj);
         Assert.AreEqual("P1", item.Container.Prop1);
         Assert.AreEqual("P2", item.Container.Prop2);
         Assert.AreEqual("P3", item.Container.Prop3);
         Assert.AreEqual(-1, item.Container.Prop4);
         obj = new TestClass();
         Assert.AreEqual(null, obj.Prop1);
         Assert.AreEqual(null, obj.Prop2);
         Assert.AreEqual(null, obj.Prop3);
         Assert.AreEqual(0, obj.Prop4);
         item.CopyTo(obj);
         Assert.AreEqual("P1", obj.Prop1);
         Assert.AreEqual("P2", obj.Prop2);
         Assert.AreEqual("P3", obj.Prop3);
         Assert.AreEqual(-1, obj.Prop4);
         using (var item2 = new ExternalCacheItem())
         {
             item.CopyTo(item2._container);
             Assert.AreEqual(4, item2.Container.Count);
             Assert.AreEqual("P1", item2.Container.Prop1);
             Assert.AreEqual("P2", item2.Container.Prop2);
             Assert.AreEqual("P3", item2.Container.Prop3);
             Assert.AreEqual(-1, item2.Container.Prop4);
             using (var item3 = new ExternalCacheItem())
             {
                 item3.CopyFrom(item2._container);
                 Assert.AreEqual(4, item3.Container.Count);
                 Assert.AreEqual("P1", item3.Container.Prop1);
                 Assert.AreEqual("P2", item3.Container.Prop2);
                 Assert.AreEqual("P3", item3.Container.Prop3);
                 Assert.AreEqual(-1, item3.Container.Prop4);
             }
         }
     }
 }
示例#2
0
        static void Main()
        {
            const int    loops       = 100000;
            const int    threadCount = 4;
            NumbersAdder adder       = new NumbersAdder();             // This object now created within the context of COM Surrogate (32 bit) process

            Console.WriteLine("10 + 12 = " + adder.add(10, 12));       // This call marshaled to COM Surrogate process hosting a copy of NumberOperators.dll
            NumbersSubstracter substracter = new NumbersSubstracter(); // This object created within current AppDomain as a normal .NET assembly

            Console.WriteLine("10 - 12 = " + substracter.sub(10, 12)); // Normal call to .NET object
            IntPair pair = new IntPair()
            {
                a = 10, b = 12
            };

            Console.WriteLine("pair.a = 10, pair.b = 12. adder.add(pair) = " + adder.add(pair));
            pair = adder.buildPair(5, 10);
            Console.WriteLine("Built pair in COM Server. pair.a = " + pair.a + ". pair.b = " + pair.b);
            pair.Clear();
            Console.WriteLine("Called pair.Clear()");
            Console.WriteLine("Built pair in COM Server. pair.a = " + pair.a + ". pair.b = " + pair.b);

            var initialTicks = Environment.TickCount;

            for (var i = 0; i < loops; i++)
            {
                adder.add(10, 2);
            }
            Console.WriteLine("Requests per second (Single threaded): " + (loops / ((float)(Environment.TickCount - initialTicks) / 1000)));

            initialTicks = Environment.TickCount;
            var threads = new Thread[threadCount];

            for (var i = 0; i < threadCount; i++)
            {
                (threads[i] = new Thread((innerAdder =>
                {
                    for (var j = 0; j < loops; j++)
                    {
                        ((NumbersAdder)innerAdder).add(10, 2);
                    }
                }))).Start(new NumbersAdder());
            }
            foreach (var thread in threads)
            {
                thread.Join();
            }
            Console.WriteLine($"Aggregate requests per second ({threadCount} threads): " + (int)(threadCount * loops / ((float)(Environment.TickCount - initialTicks) / 1000)));
            Console.WriteLine($"Per thread requests per second ({threadCount} threads): " + (int)(loops / ((float)(Environment.TickCount - initialTicks) / 1000)));

            initialTicks = Environment.TickCount;
            var adderi = (INumbersAdder)adder;

            for (var i = 0; i < loops; i++)
            {
                adderi.add(10, 2);
            }
            Console.WriteLine("Requests per second (Single threaded using interface): " + (loops / ((float)(Environment.TickCount - initialTicks) / 1000)));

            var externalCache = new ExternalCache();

            // externalCache.Select("CacheTest");
            externalCache.Add("test", 1);
            var item = new ExternalCacheItem();

            item["Test"] = "hello";
            externalCache.Add("test 2", item, new TimeSpan(5000));
            var retrieved = (ExternalCacheItem)externalCache.Get("test 2");

            Console.WriteLine(retrieved.Container.Test);
            Thread.Sleep(10000);
            retrieved = (ExternalCacheItem)externalCache.Get("test 2");
            Console.WriteLine("Retrieved = null:" + (retrieved == null));

            var tester = new Tester {
                Val = "Value 1"
            };

            item = new ExternalCacheItem();
            item.CopyFrom(tester);
            externalCache.Add("test 2", item);
            item   = (ExternalCacheItem)externalCache.Get("test 2");
            tester = new Tester();
            item.CopyTo(tester);
            Console.WriteLine(tester.Val);

            Console.WriteLine("Press any key to finish");
            Console.ReadLine();
        }