Exemplo n.º 1
0
        public override int run(string[] args)
        {
            if (args.Length > 0)
            {
                Console.Error.WriteLine(appName() + ": too many arguments");
                return(1);
            }

            InitialPrx initial = InitialPrxHelper.checkedCast(communicator().propertyToProxy("Initial.Proxy"));

            if (initial == null)
            {
                Console.Error.WriteLine("invalid object reference");
                return(1);
            }

            Console.Out.WriteLine();
            Console.Out.WriteLine("Let's first transfer a simple object, for a class without");
            Console.Out.WriteLine("operations, and print its contents. No factory is required");
            Console.Out.WriteLine("for this.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            Simple simple = initial.getSimple();

            Console.Out.WriteLine("==> " + simple.message);

            Console.Out.WriteLine();
            Console.Out.WriteLine("Yes, this worked. Now let's try to transfer an object for a class");
            Console.Out.WriteLine("with operations as type Demo.Printer, without installing a factory first.");
            Console.Out.WriteLine("This should give us a `no factory' exception.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            Printer    printer;
            PrinterPrx printerProxy;

            try
            {
                initial.getPrinter(out printer, out printerProxy);
                Console.Error.WriteLine("Did not get the expected NoValueFactoryException!");
                return(1);
            }
            catch (Ice.NoValueFactoryException ex)
            {
                Console.Out.WriteLine("==> " + ex);
            }

            Console.Out.WriteLine();
            Console.Out.WriteLine("Yep, that's what we expected. Now let's try again, but with");
            Console.Out.WriteLine("installing an appropriate factory first. If successful, we print");
            Console.Out.WriteLine("the object's content.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            communicator().getValueFactoryManager().add(ValueFactory.create, Demo.Printer.ice_staticId());

            initial.getPrinter(out printer, out printerProxy);
            Console.Out.WriteLine("==> " + printer.message);

            Console.Out.WriteLine();
            Console.Out.WriteLine("Cool, it worked! Let's try calling the printBackwards() method");
            Console.Out.WriteLine("on the object we just received locally.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            Console.Out.Write("==> ");
            printer.printBackwards();

            Console.Out.WriteLine();
            Console.Out.WriteLine("Now we call the same method, but on the remote object. Watch the");
            Console.Out.WriteLine("server's output.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            printerProxy.printBackwards();

            Console.Out.WriteLine();
            Console.Out.WriteLine("Next, we transfer a derived object from the server as a base");
            Console.Out.WriteLine("object. Since we haven't yet installed a factory for the derived");
            Console.Out.WriteLine("class, the derived class (Demo.DerivedPrinter) is sliced");
            Console.Out.WriteLine("to its base class (Demo.Printer).");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            Printer derivedAsBase = initial.getDerivedPrinter();

            Console.Out.WriteLine("==> The type ID of the received object is \"" + derivedAsBase.ice_id() + "\"");
            Debug.Assert(derivedAsBase.ice_id().Equals(Demo.Printer.ice_staticId()));

            Console.Out.WriteLine();
            Console.Out.WriteLine("Now we install a factory for the derived class, and try again.");
            Console.Out.WriteLine("Because we receive the derived object as a base object,");
            Console.Out.WriteLine("we need to do a class cast to get from the base to the derived object.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            communicator().getValueFactoryManager().add(ValueFactory.create, Demo.DerivedPrinter.ice_staticId());

            derivedAsBase = initial.getDerivedPrinter();
            DerivedPrinter derived = (DerivedPrinter)derivedAsBase;

            Console.Out.WriteLine("==> class cast to derived object succeeded");
            Console.Out.WriteLine("==> The type ID of the received object is \"" + derived.ice_id() + "\"");

            Console.Out.WriteLine();
            Console.Out.WriteLine("Let's print the message contained in the derived object, and");
            Console.Out.WriteLine("call the operation printUppercase() on the derived object");
            Console.Out.WriteLine("locally.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            Console.Out.WriteLine("==> " + derived.derivedMessage);
            Console.Out.Write("==> ");
            derived.printUppercase();

            Console.Out.WriteLine();
            Console.Out.WriteLine("Now let's make sure that slice is preserved with [\"preserve-slice\"]");
            Console.Out.WriteLine("metadata. We create a derived type on the client and pass it to the");
            Console.Out.WriteLine("server, which does not have a factory for the derived type. We do a");
            Console.Out.WriteLine("class cast to make sure we can still access the derived type when");
            Console.Out.WriteLine("it has been returned from the server.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            ClientPrinter clientp = new ClientPrinterI();

            clientp.message = "a message 4 u";
            communicator().getValueFactoryManager().add(ValueFactory.create, Demo.ClientPrinter.ice_staticId());

            derivedAsBase = initial.updatePrinterMessage(clientp);
            clientp       = (ClientPrinter)derivedAsBase;
            Console.Out.WriteLine("==> " + clientp.message);

            Console.Out.WriteLine();
            Console.Out.WriteLine("Finally, we try the same again, but instead of returning the");
            Console.Out.WriteLine("derived object, we throw an exception containing the derived");
            Console.Out.WriteLine("object.");
            Console.Out.WriteLine("[press enter]");
            Console.In.ReadLine();

            try
            {
                initial.throwDerivedPrinter();
            }
            catch (DerivedPrinterException ex)
            {
                derived = ex.derived;
                Debug.Assert(derived != null);
            }

            Console.Out.WriteLine("==> " + derived.derivedMessage);
            Console.Out.Write("==> ");
            derived.printUppercase();

            Console.Out.WriteLine();
            Console.Out.WriteLine("That's it for this demo. Have fun with Ice!");

            initial.shutdown();

            return(0);
        }
Exemplo n.º 2
0
    public static InitialPrx allTests(TestCommon.Application app)
    {
        Ice.Communicator communicator = app.communicator();
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::B");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::C");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::D");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::E");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::F");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::I");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::J");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::H");

// Disable Obsolete warning/error
#pragma warning disable 612, 618
        communicator.addObjectFactory(new MyObjectFactory(), "TestOF");
#pragma warning restore 612, 618

        Write("testing stringToProxy... ");
        Flush();
        String        @ref  = "initial:" + app.getTestEndpoint(0);
        Ice.ObjectPrx @base = communicator.stringToProxy(@ref);
        test(@base != null);
        WriteLine("ok");

        Write("testing checked cast... ");
        Flush();
        InitialPrx initial = InitialPrxHelper.checkedCast(@base);
        test(initial != null);
        test(initial.Equals(@base));
        WriteLine("ok");

        Write("getting B1... ");
        Flush();
        B b1 = initial.getB1();
        test(b1 != null);
        WriteLine("ok");

        Write("getting B2... ");
        Flush();
        B b2 = initial.getB2();
        test(b2 != null);
        WriteLine("ok");

        Write("getting C... ");
        Flush();
        C c = initial.getC();
        test(c != null);
        WriteLine("ok");

        Write("getting D... ");
        Flush();
        D d = initial.getD();
        test(d != null);
        WriteLine("ok");

        Write("checking consistency... ");
        Flush();
        test(b1 != b2);
        //test(b1 != c);
        //test(b1 != d);
        //test(b2 != c);
        //test(b2 != d);
        //test(c != d);
        test(b1.theB == b1);
        test(b1.theC == null);
        test(b1.theA is B);
        test(((B)b1.theA).theA == b1.theA);
        test(((B)b1.theA).theB == b1);
        //test(((B)b1.theA).theC is C); // Redundant -- theC is always of type C
        test(((C)(((B)b1.theA).theC)).theB == b1.theA);
        test(b1.preMarshalInvoked);
        test(b1.postUnmarshalInvoked);
        test(b1.theA.preMarshalInvoked);
        test(b1.theA.postUnmarshalInvoked);
        test(((B)b1.theA).theC.preMarshalInvoked);
        test(((B)b1.theA).theC.postUnmarshalInvoked);

        // More tests possible for b2 and d, but I think this is already
        // sufficient.
        test(b2.theA == b2);
        test(d.theC == null);
        WriteLine("ok");

        Write("getting B1, B2, C, and D all at once... ");
        Flush();
        B b1out;
        B b2out;
        C cout;
        D dout;
        initial.getAll(out b1out, out b2out, out cout, out dout);
        test(b1out != null);
        test(b2out != null);
        test(cout != null);
        test(dout != null);
        WriteLine("ok");

        Write("checking consistency... ");
        Flush();
        test(b1out != b2out);
        test(b1out.theA == b2out);
        test(b1out.theB == b1out);
        test(b1out.theC == null);
        test(b2out.theA == b2out);
        test(b2out.theB == b1out);
        test(b2out.theC == cout);
        test(cout.theB == b2out);
        test(dout.theA == b1out);
        test(dout.theB == b2out);
        test(dout.theC == null);
        test(dout.preMarshalInvoked);
        test(dout.postUnmarshalInvoked);
        test(dout.theA.preMarshalInvoked);
        test(dout.theA.postUnmarshalInvoked);
        test(dout.theB.preMarshalInvoked);
        test(dout.theB.postUnmarshalInvoked);
        test(dout.theB.theC.preMarshalInvoked);
        test(dout.theB.theC.postUnmarshalInvoked);

        WriteLine("ok");

        Write("testing protected members... ");
        Flush();
        EI e = (EI)initial.getE();
        test(e != null && e.checkValues());
        System.Reflection.BindingFlags flags = System.Reflection.BindingFlags.NonPublic |
                                               System.Reflection.BindingFlags.Public |
                                               System.Reflection.BindingFlags.Instance;
        test(!typeof(E).GetField("i", flags).IsPublic&& !typeof(E).GetField("i", flags).IsPrivate);
        test(!typeof(E).GetField("s", flags).IsPublic&& !typeof(E).GetField("s", flags).IsPrivate);
        FI f = (FI)initial.getF();
        test(f.checkValues());
        test(((EI)f.e2).checkValues());
        test(!typeof(F).GetField("e1", flags).IsPublic&& !typeof(F).GetField("e1", flags).IsPrivate);
        test(typeof(F).GetField("e2", flags).IsPublic&& !typeof(F).GetField("e2", flags).IsPrivate);
        WriteLine("ok");

        Write("getting I, J and H... ");
        Flush();
        var i = initial.getI();
        test(i != null);
        var j = initial.getJ();
        test(j != null);
        var h = initial.getH();
        test(h != null);
        WriteLine("ok");

        Write("getting D1... ");
        Flush();
        D1 d1 = new D1(new A1("a1"), new A1("a2"), new A1("a3"), new A1("a4"));
        d1 = initial.getD1(d1);
        test(d1.a1.name.Equals("a1"));
        test(d1.a2.name.Equals("a2"));
        test(d1.a3.name.Equals("a3"));
        test(d1.a4.name.Equals("a4"));
        WriteLine("ok");

        Write("throw EDerived... ");
        Flush();
        try
        {
            initial.throwEDerived();
            test(false);
        }
        catch (EDerived ederived)
        {
            test(ederived.a1.name.Equals("a1"));
            test(ederived.a2.name.Equals("a2"));
            test(ederived.a3.name.Equals("a3"));
            test(ederived.a4.name.Equals("a4"));
        }
        WriteLine("ok");

        Write("setting I... ");
        Flush();
        initial.setI(i);
        initial.setI(j);
        initial.setI(h);
        WriteLine("ok");

        Write("testing sequences...");
        Flush();
        try
        {
            Base[] inS = new Base[0];
            Base[] outS;
            Base[] retS;
            retS = initial.opBaseSeq(inS, out outS);

            inS    = new Base[1];
            inS[0] = new Base(new S(), "");
            retS   = initial.opBaseSeq(inS, out outS);
            test(retS.Length == 1 && outS.Length == 1);
        }
        catch (Ice.OperationNotExistException)
        {
        }
        WriteLine("ok");

        Write("testing recursive type... ");
        Flush();
        Recursive top   = new Recursive();
        Recursive p     = top;
        int       depth = 0;
        try
        {
            for (; depth <= 1000; ++depth)
            {
                p.v = new Recursive();
                p   = p.v;
                if ((depth < 10 && (depth % 10) == 0) ||
                    (depth < 1000 && (depth % 100) == 0) ||
                    (depth < 10000 && (depth % 1000) == 0) ||
                    (depth % 10000) == 0)
                {
                    initial.setRecursive(top);
                }
            }
            test(!initial.supportsClassGraphDepthMax());
        }
        catch (Ice.UnknownLocalException)
        {
            // Expected marshal exception from the server (max class graph depth reached)
        }
        catch (Ice.UnknownException)
        {
            // Expected stack overflow from the server (Java only)
        }
        initial.setRecursive(new Recursive());
        WriteLine("ok");

        Write("testing compact ID...");
        Flush();
        try
        {
            test(initial.getCompact() != null);
        }
        catch (Ice.OperationNotExistException)
        {
        }
        WriteLine("ok");

        Write("testing marshaled results...");
        Flush();
        b1 = initial.getMB();
        test(b1 != null && b1.theB == b1);
        b1 = initial.getAMDMBAsync().Result;
        test(b1 != null && b1.theB == b1);
        WriteLine("ok");

        Write("testing UnexpectedObjectException...");
        Flush();
        @ref  = "uoet:" + app.getTestEndpoint(0);
        @base = communicator.stringToProxy(@ref);
        test(@base != null);
        UnexpectedObjectExceptionTestPrx uoet = UnexpectedObjectExceptionTestPrxHelper.uncheckedCast(@base);
        test(uoet != null);
        try
        {
            uoet.op();
            test(false);
        }
        catch (Ice.UnexpectedObjectException ex)
        {
            test(ex.type.Equals("::Test::AlsoEmpty"));
            test(ex.expectedType.Equals("::Test::Empty"));
        }
        catch (System.Exception ex)
        {
            WriteLine(ex.ToString());
            test(false);
        }
        WriteLine("ok");

// Disable Obsolete warning/error
#pragma warning disable 612, 618
        Write("testing getting ObjectFactory...");
        Flush();
        test(communicator.findObjectFactory("TestOF") != null);
        WriteLine("ok");
        Write("testing getting ObjectFactory as ValueFactory...");
        Flush();
        test(communicator.getValueFactoryManager().find("TestOF") != null);
        WriteLine("ok");
#pragma warning restore 612, 618

        Write("testing partial ice_initialize...");
        Flush();
        var ib1 = new IBase();
        test(ib1.id.Equals("My id"));
        var id1 = new IDerived();
        test(id1.id.Equals("My id"));
        test(id1.name.Equals("My name"));

        var id2 = new IDerived2();
        test(id2.id.Equals("My id"));
        var i2 = new I2();
        test(i2.called);

        var s1 = new S1();
        // The struct default constructor do not call ice_initialize
        test(s1.id == 0);
        s1 = new S1(2);
        // The id should have the value set by ice_initialize and not 2
        test(s1.id == 1);

        var sc1 = new SC1();
        test(sc1.id.Equals("My id"));
        WriteLine("ok");
        return(initial);
    }
Exemplo n.º 3
0
    public static InitialPrx allTests(Ice.Communicator communicator)
    {
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::B");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::C");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::D");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::E");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::F");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::I");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::J");
        communicator.getValueFactoryManager().add(MyValueFactory, "::Test::H");

// Disable Obsolete warning/error
#pragma warning disable 612, 618
        communicator.addObjectFactory(new MyObjectFactory(), "TestOF");
#pragma warning restore 612, 618


        Write("testing stringToProxy... ");
        Flush();
        String        @ref  = "initial:default -p 12010";
        Ice.ObjectPrx @base = communicator.stringToProxy(@ref);
        test(@base != null);
        WriteLine("ok");

        Write("testing checked cast... ");
        Flush();
        InitialPrx initial = InitialPrxHelper.checkedCast(@base);
        test(initial != null);
        test(initial.Equals(@base));
        WriteLine("ok");

        Write("getting B1... ");
        Flush();
        B b1 = initial.getB1();
        test(b1 != null);
        WriteLine("ok");

        Write("getting B2... ");
        Flush();
        B b2 = initial.getB2();
        test(b2 != null);
        WriteLine("ok");

        Write("getting C... ");
        Flush();
        C c = initial.getC();
        test(c != null);
        WriteLine("ok");

        Write("getting D... ");
        Flush();
        D d = initial.getD();
        test(d != null);
        WriteLine("ok");

        Write("checking consistency... ");
        Flush();
        test(b1 != b2);
        //test(b1 != c);
        //test(b1 != d);
        //test(b2 != c);
        //test(b2 != d);
        //test(c != d);
        test(b1.theB == b1);
        test(b1.theC == null);
        test(b1.theA is B);
        test(((B)b1.theA).theA == b1.theA);
        test(((B)b1.theA).theB == b1);
        //test(((B)b1.theA).theC is C); // Redundant -- theC is always of type C
        test(((C)(((B)b1.theA).theC)).theB == b1.theA);
        test(b1.preMarshalInvoked);
        test(b1.postUnmarshalInvoked);
        test(b1.theA.preMarshalInvoked);
        test(b1.theA.postUnmarshalInvoked);
        test(((B)b1.theA).theC.preMarshalInvoked);
        test(((B)b1.theA).theC.postUnmarshalInvoked);

        // More tests possible for b2 and d, but I think this is already
        // sufficient.
        test(b2.theA == b2);
        test(d.theC == null);
        WriteLine("ok");

        Write("getting B1, B2, C, and D all at once... ");
        Flush();
        B b1out;
        B b2out;
        C cout;
        D dout;
        initial.getAll(out b1out, out b2out, out cout, out dout);
        test(b1out != null);
        test(b2out != null);
        test(cout != null);
        test(dout != null);
        WriteLine("ok");

        Write("checking consistency... ");
        Flush();
        test(b1out != b2out);
        test(b1out.theA == b2out);
        test(b1out.theB == b1out);
        test(b1out.theC == null);
        test(b2out.theA == b2out);
        test(b2out.theB == b1out);
        test(b2out.theC == cout);
        test(cout.theB == b2out);
        test(dout.theA == b1out);
        test(dout.theB == b2out);
        test(dout.theC == null);
        test(dout.preMarshalInvoked);
        test(dout.postUnmarshalInvoked);
        test(dout.theA.preMarshalInvoked);
        test(dout.theA.postUnmarshalInvoked);
        test(dout.theB.preMarshalInvoked);
        test(dout.theB.postUnmarshalInvoked);
        test(dout.theB.theC.preMarshalInvoked);
        test(dout.theB.theC.postUnmarshalInvoked);

        WriteLine("ok");

        Write("testing protected members... ");
        Flush();
        EI e = (EI)initial.getE();
        test(e != null && e.checkValues());
        System.Reflection.BindingFlags flags = System.Reflection.BindingFlags.NonPublic |
                                               System.Reflection.BindingFlags.Public |
                                               System.Reflection.BindingFlags.Instance;
        test(!typeof(E).GetField("i", flags).IsPublic&& !typeof(E).GetField("i", flags).IsPrivate);
        test(!typeof(E).GetField("s", flags).IsPublic&& !typeof(E).GetField("s", flags).IsPrivate);
        FI f = (FI)initial.getF();
        test(f.checkValues());
        test(((EI)f.e2).checkValues());
        test(!typeof(F).GetField("e1", flags).IsPublic&& !typeof(F).GetField("e1", flags).IsPrivate);
        test(typeof(F).GetField("e2", flags).IsPublic&& !typeof(F).GetField("e2", flags).IsPrivate);
        WriteLine("ok");

        Write("getting I, J and H... ");
        Flush();
        var i = initial.getI();
        test(i != null);
        var j = initial.getJ();
        test(j != null);
        var h = initial.getH();
        test(h != null);
        WriteLine("ok");

        Write("getting D1... ");
        Flush();
        D1 d1 = new D1(new A1("a1"), new A1("a2"), new A1("a3"), new A1("a4"));
        d1 = initial.getD1(d1);
        test(d1.a1.name.Equals("a1"));
        test(d1.a2.name.Equals("a2"));
        test(d1.a3.name.Equals("a3"));
        test(d1.a4.name.Equals("a4"));
        WriteLine("ok");

        Write("throw EDerived... ");
        Flush();
        try
        {
            initial.throwEDerived();
            test(false);
        }
        catch (EDerived ederived)
        {
            test(ederived.a1.name.Equals("a1"));
            test(ederived.a2.name.Equals("a2"));
            test(ederived.a3.name.Equals("a3"));
            test(ederived.a4.name.Equals("a4"));
        }
        WriteLine("ok");

        Write("setting I... ");
        Flush();
        initial.setI(i);
        initial.setI(j);
        initial.setI(h);
        WriteLine("ok");

        Write("testing sequences...");
        Flush();
        try
        {
            Base[] inS = new Base[0];
            Base[] outS;
            Base[] retS;
            retS = initial.opBaseSeq(inS, out outS);

            inS    = new Base[1];
            inS[0] = new Base(new S(), "");
            retS   = initial.opBaseSeq(inS, out outS);
            test(retS.Length == 1 && outS.Length == 1);
        }
        catch (Ice.OperationNotExistException)
        {
        }
        WriteLine("ok");

        Write("testing compact ID...");
        Flush();
        try
        {
            test(initial.getCompact() != null);
        }
        catch (Ice.OperationNotExistException)
        {
        }
        WriteLine("ok");

        Write("testing marshaled results...");
        Flush();
        b1 = initial.getMB();
        test(b1 != null && b1.theB == b1);
        b1 = initial.getAMDMBAsync().Result;
        test(b1 != null && b1.theB == b1);
        WriteLine("ok");

        Write("testing UnexpectedObjectException...");
        Flush();
        @ref  = "uoet:default -p 12010";
        @base = communicator.stringToProxy(@ref);
        test(@base != null);
        UnexpectedObjectExceptionTestPrx uoet = UnexpectedObjectExceptionTestPrxHelper.uncheckedCast(@base);
        test(uoet != null);
        try
        {
            uoet.op();
            test(false);
        }
        catch (Ice.UnexpectedObjectException ex)
        {
            test(ex.type.Equals("::Test::AlsoEmpty"));
            test(ex.expectedType.Equals("::Test::Empty"));
        }
        catch (System.Exception ex)
        {
            WriteLine(ex.ToString());
            test(false);
        }
        WriteLine("ok");

// Disable Obsolete warning/error
#pragma warning disable 612, 618
        Write("testing getting ObjectFactory...");
        Flush();
        test(communicator.findObjectFactory("TestOF") != null);
        WriteLine("ok");
        Write("testing getting ObjectFactory as ValueFactory...");
        Flush();
        test(communicator.getValueFactoryManager().find("TestOF") != null);
        WriteLine("ok");
#pragma warning restore 612, 618

        return(initial);
    }
Exemplo n.º 4
0
    public static InitialPrx allTests(Ice.Communicator communicator, bool collocated)
#endif
    {
#if SILVERLIGHT
        bool collocated = false;
#endif
        Ice.ObjectFactory factory = new MyObjectFactory();
        communicator.addObjectFactory(factory, "::Test::B");
        communicator.addObjectFactory(factory, "::Test::C");
        communicator.addObjectFactory(factory, "::Test::D");
        communicator.addObjectFactory(factory, "::Test::E");
        communicator.addObjectFactory(factory, "::Test::F");
        communicator.addObjectFactory(factory, "::Test::I");
        communicator.addObjectFactory(factory, "::Test::J");
        communicator.addObjectFactory(factory, "::Test::H");

        Write("testing stringToProxy... ");
        Flush();
        String        @ref  = "initial:default -p 12010";
        Ice.ObjectPrx @base = communicator.stringToProxy(@ref);
        test(@base != null);
        WriteLine("ok");

        Write("testing checked cast... ");
        Flush();
        InitialPrx initial = InitialPrxHelper.checkedCast(@base);
        test(initial != null);
        test(initial.Equals(@base));
        WriteLine("ok");

        Write("getting B1... ");
        Flush();
        B b1 = initial.getB1();
        test(b1 != null);
        WriteLine("ok");

        Write("getting B2... ");
        Flush();
        B b2 = initial.getB2();
        test(b2 != null);
        WriteLine("ok");

        Write("getting C... ");
        Flush();
        C c = initial.getC();
        test(c != null);
        WriteLine("ok");

        Write("getting D... ");
        Flush();
        D d = initial.getD();
        test(d != null);
        WriteLine("ok");

        Write("checking consistency... ");
        Flush();
        test(b1 != b2);
        //test(b1 != c);
        //test(b1 != d);
        //test(b2 != c);
        //test(b2 != d);
        //test(c != d);
        test(b1.theB == b1);
        test(b1.theC == null);
        test(b1.theA is B);
        test(((B)b1.theA).theA == b1.theA);
        test(((B)b1.theA).theB == b1);
        //test(((B)b1.theA).theC is C); // Redundant -- theC is always of type C
        test(((C)(((B)b1.theA).theC)).theB == b1.theA);
        if (!collocated)
        {
            test(b1.preMarshalInvoked);
            test(b1.postUnmarshalInvoked());
            test(b1.theA.preMarshalInvoked);
            test(b1.theA.postUnmarshalInvoked());
            test(((B)b1.theA).theC.preMarshalInvoked);
            test(((B)b1.theA).theC.postUnmarshalInvoked());
        }
        // More tests possible for b2 and d, but I think this is already
        // sufficient.
        test(b2.theA == b2);
        test(d.theC == null);
        WriteLine("ok");

        Write("getting B1, B2, C, and D all at once... ");
        Flush();
        B b1out;
        B b2out;
        C cout;
        D dout;
        initial.getAll(out b1out, out b2out, out cout, out dout);
        test(b1out != null);
        test(b2out != null);
        test(cout != null);
        test(dout != null);
        WriteLine("ok");

        Write("checking consistency... ");
        Flush();
        test(b1out != b2out);
        test(b1out.theA == b2out);
        test(b1out.theB == b1out);
        test(b1out.theC == null);
        test(b2out.theA == b2out);
        test(b2out.theB == b1out);
        test(b2out.theC == cout);
        test(cout.theB == b2out);
        test(dout.theA == b1out);
        test(dout.theB == b2out);
        test(dout.theC == null);
        if (!collocated)
        {
            test(dout.preMarshalInvoked);
            test(dout.postUnmarshalInvoked());
            test(dout.theA.preMarshalInvoked);
            test(dout.theA.postUnmarshalInvoked());
            test(dout.theB.preMarshalInvoked);
            test(dout.theB.postUnmarshalInvoked());
            test(dout.theB.theC.preMarshalInvoked);
            test(dout.theB.theC.postUnmarshalInvoked());
        }
        WriteLine("ok");

        Write("testing protected members... ");
        Flush();
        E e = initial.getE();
        test(e.checkValues());
        System.Reflection.BindingFlags flags = System.Reflection.BindingFlags.NonPublic |
                                               System.Reflection.BindingFlags.Public |
                                               System.Reflection.BindingFlags.Instance;
        test(!typeof(E).GetField("i", flags).IsPublic&& !typeof(E).GetField("i", flags).IsPrivate);
        test(!typeof(E).GetField("s", flags).IsPublic&& !typeof(E).GetField("s", flags).IsPrivate);
        F f = initial.getF();
        test(f.checkValues());
        test(f.e2.checkValues());
        test(!typeof(F).GetField("e1", flags).IsPublic&& !typeof(F).GetField("e1", flags).IsPrivate);
        test(typeof(F).GetField("e2", flags).IsPublic&& !typeof(F).GetField("e2", flags).IsPrivate);
        WriteLine("ok");

        Write("getting I, J and H... ");
        Flush();
        I i = initial.getI();
        test(i != null);
        I j = initial.getJ();
        test(j != null && ((J)j) != null);
        I h = initial.getH();
        test(h != null && ((H)h) != null);
        WriteLine("ok");

        Write("setting I... ");
        Flush();
        initial.setI(i);
        initial.setI(j);
        initial.setI(h);
        WriteLine("ok");

        Write("testing sequences...");
        Flush();
        try
        {
            Base[] inS = new Base[0];
            Base[] outS;
            Base[] retS;
            retS = initial.opBaseSeq(inS, out outS);

            inS    = new Base[1];
            inS[0] = new Base(new S(), "");
            retS   = initial.opBaseSeq(inS, out outS);
            test(retS.Length == 1 && outS.Length == 1);
        }
        catch (Ice.OperationNotExistException)
        {
        }
        WriteLine("ok");

        Write("testing compact ID...");
        Flush();
        try
        {
            test(initial.getCompact() != null);
        }
        catch (Ice.OperationNotExistException)
        {
        }
        WriteLine("ok");

        if (!collocated)
        {
            Write("testing UnexpectedObjectException...");
            Flush();
            @ref  = "uoet:default -p 12010";
            @base = communicator.stringToProxy(@ref);
            test(@base != null);
            UnexpectedObjectExceptionTestPrx uoet = UnexpectedObjectExceptionTestPrxHelper.uncheckedCast(@base);
            test(uoet != null);
            try
            {
                uoet.op();
                test(false);
            }
            catch (Ice.UnexpectedObjectException ex)
            {
                test(ex.type.Equals("::Test::AlsoEmpty"));
                test(ex.expectedType.Equals("::Test::Empty"));
            }
            catch (System.Exception ex)
            {
                WriteLine(ex.ToString());
                test(false);
            }
            WriteLine("ok");
        }
#if SILVERLIGHT
        initial.shutdown();
#else
        return(initial);
#endif
    }
Exemplo n.º 5
0
    public static InitialPrx allTests(Ice.Communicator communicator)
    {
        Write("testing stringToProxy... ");
        Flush();
        string ref_Renamed = "initial:default -p 12010";

        Ice.ObjectPrx @base = communicator.stringToProxy(ref_Renamed);
        test(@base != null);
        WriteLine("ok");

        Write("testing checked cast... ");
        Flush();
        InitialPrx initial = InitialPrxHelper.checkedCast(@base);

        test(initial != null);
        test(initial.Equals(@base));
        WriteLine("ok");

        Write("getting proxies for class hierarchy... ");
        Flush();
        Test.MA.CAPrx ca = initial.caop();
        Test.MB.CBPrx cb = initial.cbop();
        Test.MA.CCPrx cc = initial.ccop();
        Test.MA.CDPrx cd = initial.cdop();
        test(ca != cb);
        test(ca != cc);
        test(ca != cd);
        test(cb != cc);
        test(cb != cd);
        test(cc != cd);
        WriteLine("ok");

        Write("getting proxies for interface hierarchy... ");
        Flush();
        Test.MA.IAPrx  ia  = initial.iaop();
        Test.MB.IB1Prx ib1 = initial.ib1op();
        Test.MB.IB2Prx ib2 = initial.ib2op();
        Test.MA.ICPrx  ic  = initial.icop();
        test(ia != ib1);
        test(ia != ib2);
        test(ia != ic);
        test(ib1 != ic);
        test(ib2 != ic);
        WriteLine("ok");

        Write("invoking proxy operations on class hierarchy... ");
        Flush();
        Test.MA.CAPrx cao;
        Test.MB.CBPrx cbo;
        Test.MA.CCPrx cco;

        cao = ca.caop(ca);
        test(cao.Equals(ca));
        cao = ca.caop(cb);
        test(cao.Equals(cb));
        cao = ca.caop(cc);
        test(cao.Equals(cc));
        cao = cb.caop(ca);
        test(cao.Equals(ca));
        cao = cb.caop(cb);
        test(cao.Equals(cb));
        cao = cb.caop(cc);
        test(cao.Equals(cc));
        cao = cc.caop(ca);
        test(cao.Equals(ca));
        cao = cc.caop(cb);
        test(cao.Equals(cb));
        cao = cc.caop(cc);
        test(cao.Equals(cc));

        cao = cb.cbop(cb);
        test(cao.Equals(cb));
        cbo = cb.cbop(cb);
        test(cbo.Equals(cb));
        cao = cb.cbop(cc);
        test(cao.Equals(cc));
        cbo = cb.cbop(cc);
        test(cbo.Equals(cc));
        cao = cc.cbop(cb);
        test(cao.Equals(cb));
        cbo = cc.cbop(cb);
        test(cbo.Equals(cb));
        cao = cc.cbop(cc);
        test(cao.Equals(cc));
        cbo = cc.cbop(cc);
        test(cbo.Equals(cc));

        cao = cc.ccop(cc);
        test(cao.Equals(cc));
        cbo = cc.ccop(cc);
        test(cbo.Equals(cc));
        cco = cc.ccop(cc);
        test(cco.Equals(cc));
        WriteLine("ok");

        Write("ditto, but for interface hierarchy... ");
        Flush();
        Test.MA.IAPrx  iao;
        Test.MB.IB1Prx ib1o;
        Test.MB.IB2Prx ib2o;
        Test.MA.ICPrx  ico;

        iao = ia.iaop(ia);
        test(iao.Equals(ia));
        iao = ia.iaop(ib1);
        test(iao.Equals(ib1));
        iao = ia.iaop(ib2);
        test(iao.Equals(ib2));
        iao = ia.iaop(ic);
        test(iao.Equals(ic));
        iao = ib1.iaop(ia);
        test(iao.Equals(ia));
        iao = ib1.iaop(ib1);
        test(iao.Equals(ib1));
        iao = ib1.iaop(ib2);
        test(iao.Equals(ib2));
        iao = ib1.iaop(ic);
        test(iao.Equals(ic));
        iao = ib2.iaop(ia);
        test(iao.Equals(ia));
        iao = ib2.iaop(ib1);
        test(iao.Equals(ib1));
        iao = ib2.iaop(ib2);
        test(iao.Equals(ib2));
        iao = ib2.iaop(ic);
        test(iao.Equals(ic));
        iao = ic.iaop(ia);
        test(iao.Equals(ia));
        iao = ic.iaop(ib1);
        test(iao.Equals(ib1));
        iao = ic.iaop(ib2);
        test(iao.Equals(ib2));
        iao = ic.iaop(ic);
        test(iao.Equals(ic));

        iao = ib1.ib1op(ib1);
        test(iao.Equals(ib1));
        ib1o = ib1.ib1op(ib1);
        test(ib1o.Equals(ib1));
        iao = ib1.ib1op(ic);
        test(iao.Equals(ic));
        ib1o = ib1.ib1op(ic);
        test(ib1o.Equals(ic));
        iao = ic.ib1op(ib1);
        test(iao.Equals(ib1));
        ib1o = ic.ib1op(ib1);
        test(ib1o.Equals(ib1));
        iao = ic.ib1op(ic);
        test(iao.Equals(ic));
        ib1o = ic.ib1op(ic);
        test(ib1o.Equals(ic));

        iao = ib2.ib2op(ib2);
        test(iao.Equals(ib2));
        ib2o = ib2.ib2op(ib2);
        test(ib2o.Equals(ib2));
        iao = ib2.ib2op(ic);
        test(iao.Equals(ic));
        ib2o = ib2.ib2op(ic);
        test(ib2o.Equals(ic));
        iao = ic.ib2op(ib2);
        test(iao.Equals(ib2));
        ib2o = ic.ib2op(ib2);
        test(ib2o.Equals(ib2));
        iao = ic.ib2op(ic);
        test(iao.Equals(ic));
        ib2o = ic.ib2op(ic);
        test(ib2o.Equals(ic));

        iao = ic.icop(ic);
        test(iao.Equals(ic));
        ib1o = ic.icop(ic);
        test(ib1o.Equals(ic));
        ib2o = ic.icop(ic);
        test(ib2o.Equals(ic));
        ico = ic.icop(ic);
        test(ico.Equals(ic));
        WriteLine("ok");

        Write("ditto, but for class implementing interfaces... ");
        Flush();

        cao = cd.caop(cd);
        test(cao.Equals(cd));
        cbo = cd.cbop(cd);
        test(cbo.Equals(cd));
        cco = cd.ccop(cd);
        test(cco.Equals(cd));

        iao = cd.iaop(cd);
        test(iao.Equals(cd));
        ib1o = cd.ib1op(cd);
        test(ib1o.Equals(cd));
        ib2o = cd.ib2op(cd);
        test(ib2o.Equals(cd));

        cao = cd.cdop(cd);
        test(cao.Equals(cd));
        cbo = cd.cdop(cd);
        test(cbo.Equals(cd));
        cco = cd.cdop(cd);
        test(cco.Equals(cd));

        iao = cd.cdop(cd);
        test(iao.Equals(cd));
        ib1o = cd.cdop(cd);
        test(ib1o.Equals(cd));
        ib2o = cd.cdop(cd);
        test(ib2o.Equals(cd));
        WriteLine("ok");
        return(initial);
    }
Exemplo n.º 6
0
                public static Test.InitialPrx allTests(global::Test.TestHelper helper)
                {
                    Ice.Communicator communicator = helper.communicator();

                    var output = helper.getWriter();

                    var initial = InitialPrx.Parse($"initial:{helper.getTestEndpoint(0)}", communicator);

                    output.Write("getting B1... ");
                    output.Flush();
                    B b1 = initial.getB1();

                    test(b1 != null);
                    output.WriteLine("ok");

                    output.Write("getting B2... ");
                    output.Flush();
                    B b2 = initial.getB2();

                    test(b2 != null);
                    output.WriteLine("ok");

                    output.Write("getting C... ");
                    output.Flush();
                    C c = initial.getC();

                    test(c != null);
                    output.WriteLine("ok");

                    output.Write("getting D... ");
                    output.Flush();
                    D d = initial.getD();

                    test(d != null);
                    output.WriteLine("ok");

                    output.Write("checking consistency... ");
                    output.Flush();
                    test(b1 != b2);
                    //test(b1 != c);
                    //test(b1 != d);
                    //test(b2 != c);
                    //test(b2 != d);
                    //test(c != d);
                    test(b1.theB == b1);
                    test(b1.theC == null);
                    test(b1.theA is B);
                    test(((B)b1.theA).theA == b1.theA);
                    test(((B)b1.theA).theB == b1);
                    //test(((B)b1.theA).theC is C); // Redundant -- theC is always of type C
                    test(((C)(((B)b1.theA).theC)).theB == b1.theA);

                    // More tests possible for b2 and d, but I think this is already
                    // sufficient.
                    test(b2.theA == b2);
                    test(d.theC == null);
                    output.WriteLine("ok");

                    output.Write("getting B1, B2, C, and D all at once... ");
                    output.Flush();
                    B b1out;
                    B b2out;
                    C cout;
                    D dout;

                    initial.getAll(out b1out, out b2out, out cout, out dout);
                    test(b1out != null);
                    test(b2out != null);
                    test(cout != null);
                    test(dout != null);
                    output.WriteLine("ok");

                    output.Write("checking consistency... ");
                    output.Flush();
                    test(b1out != b2out);
                    test(b1out.theA == b2out);
                    test(b1out.theB == b1out);
                    test(b1out.theC == null);
                    test(b2out.theA == b2out);
                    test(b2out.theB == b1out);
                    test(b2out.theC == cout);
                    test(cout.theB == b2out);
                    test(dout.theA == b1out);
                    test(dout.theB == b2out);
                    test(dout.theC == null);

                    output.WriteLine("ok");

                    output.Write("getting K... ");
                    {
                        output.Flush();
                        var k = initial.getK();
                        var l = k.value as L;
                        test(l != null);
                        test(l.data.Equals("l"));
                    }
                    output.WriteLine("ok");

                    output.Write("testing Value as parameter... ");
                    output.Flush();
                    {
                        Ice.Value v1 = new L("l");
                        Ice.Value v2;
                        Ice.Value v3 = initial.opValue(v1, out v2);
                        test(((L)v2).data.Equals("l"));
                        test(((L)v3).data.Equals("l"));
                    }
                    {
                        L           l  = new L("l");
                        Ice.Value[] v1 = new Ice.Value[] { l };
                        Ice.Value[] v2;
                        Ice.Value[] v3 = initial.opValueSeq(v1, out v2);
                        test(((L)v2[0]).data.Equals("l"));
                        test(((L)v3[0]).data.Equals("l"));
                    }
                    {
                        L l = new L("l");
                        Dictionary <string, Ice.Value> v1 = new Dictionary <string, Ice.Value> {
                            { "l", l }
                        };
                        Dictionary <string, Ice.Value> v2;
                        Dictionary <string, Ice.Value> v3 = initial.opValueMap(v1, out v2);
                        test(((L)v2["l"]).data.Equals("l"));
                        test(((L)v3["l"]).data.Equals("l"));
                    }
                    output.WriteLine("ok");

                    output.Write("getting D1... ");
                    output.Flush();
                    D1 d1 = new D1(new A1("a1"), new A1("a2"), new A1("a3"), new A1("a4"));

                    d1 = initial.getD1(d1);
                    test(d1.a1.name.Equals("a1"));
                    test(d1.a2.name.Equals("a2"));
                    test(d1.a3.name.Equals("a3"));
                    test(d1.a4.name.Equals("a4"));
                    output.WriteLine("ok");

                    output.Write("throw EDerived... ");
                    output.Flush();
                    try
                    {
                        initial.throwEDerived();
                        test(false);
                    }
                    catch (EDerived ederived)
                    {
                        test(ederived.a1.name.Equals("a1"));
                        test(ederived.a2.name.Equals("a2"));
                        test(ederived.a3.name.Equals("a3"));
                        test(ederived.a4.name.Equals("a4"));
                    }
                    output.WriteLine("ok");

                    output.Write("setting G... ");
                    output.Flush();
                    try
                    {
                        initial.setG(new G(new S("hello"), "g"));
                    }
                    catch (Ice.OperationNotExistException)
                    {
                    }
                    output.WriteLine("ok");

                    output.Write("testing sequences...");
                    output.Flush();
                    try
                    {
                        Base[] inS = new Test.Base[0];
                        Base[] outS;
                        Base[] retS;
                        retS = initial.opBaseSeq(inS, out outS);

                        inS    = new Test.Base[1];
                        inS[0] = new Test.Base(new S(), "");
                        retS   = initial.opBaseSeq(inS, out outS);
                        test(retS.Length == 1 && outS.Length == 1);
                    }
                    catch (Ice.OperationNotExistException)
                    {
                    }
                    output.WriteLine("ok");

                    output.Write("testing recursive type... ");
                    output.Flush();
                    var top   = new Test.Recursive();
                    var p     = top;
                    int depth = 0;

                    try
                    {
                        for (; depth <= 1000; ++depth)
                        {
                            p.v = new Test.Recursive();
                            p   = p.v;
                            if ((depth < 10 && (depth % 10) == 0) ||
                                (depth < 1000 && (depth % 100) == 0) ||
                                (depth < 10000 && (depth % 1000) == 0) ||
                                (depth % 10000) == 0)
                            {
                                initial.setRecursive(top);
                            }
                        }
                        test(!initial.supportsClassGraphDepthMax());
                    }
                    catch (Ice.UnknownLocalException)
                    {
                        // Expected marshal exception from the server(max class graph depth reached)
                    }
                    catch (Ice.UnknownException)
                    {
                        // Expected stack overflow from the server(Java only)
                    }
                    initial.setRecursive(new Test.Recursive());
                    output.WriteLine("ok");

                    output.Write("testing compact ID...");
                    output.Flush();
                    try
                    {
                        test(initial.getCompact() != null);
                    }
                    catch (Ice.OperationNotExistException)
                    {
                    }
                    output.WriteLine("ok");

                    output.Write("testing marshaled results...");
                    output.Flush();
                    b1 = initial.getMB();
                    test(b1 != null && b1.theB == b1);
                    b1 = initial.getAMDMBAsync().Result;
                    test(b1 != null && b1.theB == b1);
                    output.WriteLine("ok");

                    output.Write("testing UnexpectedObjectException...");
                    output.Flush();
                    var uoet = UnexpectedObjectExceptionTestPrx.Parse($"uoet:{helper.getTestEndpoint(0)}", communicator);

                    try
                    {
                        uoet.op();
                        test(false);
                    }
                    catch (UnexpectedObjectException ex)
                    {
                        test(ex.type.Equals("::Test::AlsoEmpty"));
                        test(ex.expectedType.Equals("::Test::Empty"));
                    }
                    catch (System.Exception ex)
                    {
                        output.WriteLine(ex.ToString());
                        test(false);
                    }
                    output.WriteLine("ok");

                    output.Write("testing partial ice_initialize...");
                    output.Flush();
                    var ib1 = new IBase();

                    test(ib1.id.Equals("My id"));
                    var id1 = new IDerived();

                    test(id1.id.Equals("My id"));
                    test(id1.name.Equals("My name"));

                    var id2 = new Test.IDerived2();

                    test(id2.id.Equals("My id"));
                    var i2 = new I2();

                    test(i2.called);

                    var s1 = new S1();

                    // The struct default constructor do not call ice_initialize
                    test(s1.id == 0);
                    s1 = new S1(2);
                    // The id should have the value set by ice_initialize and not 2
                    test(s1.id == 1);

                    var sc1 = new SC1();

                    test(sc1.id.Equals("My id"));
                    output.WriteLine("ok");

                    output.Write("testing class containing complex dictionary... ");
                    output.Flush();
                    {
                        var m = new Test.M();
                        m.v = new Dictionary <StructKey, L>();
                        var k1 = new StructKey(1, "1");
                        m.v[k1] = new L("one");
                        var k2 = new StructKey(2, "2");
                        m.v[k2] = new L("two");
                        Test.M m1;
                        var    m2 = initial.opM(m, out m1);
                        test(m1.v.Count == 2);
                        test(m2.v.Count == 2);

                        test(m1.v[k1].data.Equals("one"));
                        test(m2.v[k1].data.Equals("one"));

                        test(m1.v[k2].data.Equals("two"));
                        test(m2.v[k2].data.Equals("two"));
                    }
                    output.WriteLine("ok");

                    output.Write("testing forward declared types... ");
                    output.Flush();
                    {
                        F1 f12;
                        F1 f11 = initial.opF1(new F1("F11"), out f12);
                        test(f11.name.Equals("F11"));
                        test(f12.name.Equals("F12"));

                        F2Prx f22;
                        F2Prx f21 = initial.opF2(F2Prx.Parse($"F21:{helper.getTestEndpoint()}", communicator), out f22);
                        test(f21.Identity.name.Equals("F21"));
                        f21.op();
                        test(f22.Identity.name.Equals("F22"));

                        if (initial.hasF3())
                        {
                            F3 f32;
                            F3 f31 = initial.opF3(new F3(new F1("F11"), F2Prx.Parse("F21", communicator)), out f32);

                            test(f31.f1.name.Equals("F11"));
                            test(f31.f2.Identity.name.Equals("F21"));

                            test(f32.f1.name.Equals("F12"));
                            test(f32.f2.Identity.name.Equals("F22"));
                        }
                    }
                    output.WriteLine("ok");

                    return(initial);
                }