internal static void twowaysAMI(Ice.Communicator communicator, Test.IMyClassPrx p) { { var i = Enumerable.Range(0, Length).Select(x => (byte)x).ToArray(); var r = p.opAByteSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (byte)x).ToList(); var r = p.opLByteSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <byte>(Enumerable.Range(0, Length).Select(x => (byte)x).ToArray()); var r = p.opKByteSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <byte>(Enumerable.Range(0, Length).Select(x => (byte)x).ToArray()); var r = p.opQByteSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <byte>(Enumerable.Range(0, Length).Select(x => (byte)x).ToArray()); var r = p.opSByteSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => x % 1 == 1).ToArray(); var r = p.opABoolSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => x % 1 == 1).ToList(); var r = p.opLBoolSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <bool>(Enumerable.Range(0, Length).Select(x => x % 1 == 1).ToArray()); var r = p.opKBoolSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <bool>(Enumerable.Range(0, Length).Select(x => x % 1 == 1).ToArray()); var r = p.opQBoolSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <bool>(Enumerable.Range(0, Length).Select(x => x % 1 == 1).ToArray()); var r = p.opSBoolSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (short)x).ToArray(); var r = p.opAShortSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (short)x).ToList(); var r = p.opLShortSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <short>(Enumerable.Range(0, Length).Select(x => (short)x).ToArray()); var r = p.opKShortSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <short>(Enumerable.Range(0, Length).Select(x => (short)x).ToArray()); var r = p.opQShortSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <short>(Enumerable.Range(0, Length).Select(x => (short)x).ToArray()); var r = p.opSShortSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).ToArray(); var r = p.opAIntSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).ToList(); var r = p.opLIntSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <int>(Enumerable.Range(0, Length).ToArray()); var r = p.opKIntSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <int>(Enumerable.Range(0, Length).ToArray()); var r = p.opQIntSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <int>(Enumerable.Range(0, Length).ToArray()); var r = p.opSIntSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (long)x).ToArray(); var r = p.opALongSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (long)x).ToList(); var r = p.opLLongSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <long>(Enumerable.Range(0, Length).Select(x => (long)x).ToArray()); var r = p.opKLongSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <long>(Enumerable.Range(0, Length).Select(x => (long)x).ToArray()); var r = p.opQLongSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <long>(Enumerable.Range(0, Length).Select(x => (long)x).ToArray()); var r = p.opSLongSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (float)x).ToArray(); var r = p.opAFloatSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (float)x).ToList(); var r = p.opLFloatSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <float>(Enumerable.Range(0, Length).Select(x => (float)x).ToArray()); var r = p.opKFloatSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <float>(Enumerable.Range(0, Length).Select(x => (float)x).ToArray()); var r = p.opQFloatSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <float>(Enumerable.Range(0, Length).Select(x => (float)x).ToArray()); var r = p.opSFloatSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (double)x).ToArray(); var r = p.opADoubleSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (double)x).ToList(); var r = p.opLDoubleSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <double>(Enumerable.Range(0, Length).Select(x => (double)x).ToArray()); var r = p.opKDoubleSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <double>(Enumerable.Range(0, Length).Select(x => (double)x).ToArray()); var r = p.opQDoubleSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <double>(Enumerable.Range(0, Length).Select(x => (double)x).ToArray()); var r = p.opSDoubleSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => x.ToString()).ToArray(); var r = p.opAStringSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => x.ToString()).ToList(); var r = p.opLStringSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <string>(Enumerable.Range(0, Length).Select(x => x.ToString()).ToArray()); var r = p.opKStringSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <string>(Enumerable.Range(0, Length).Select(x => x.ToString()).ToArray()); var r = p.opQStringSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <string>(Enumerable.Range(0, Length).Select(x => x.ToString()).ToArray()); var r = p.opSStringSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => new Test.CV(x) as AnyClass).ToArray(); var r = p.opAObjectSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i, new CVComparer())); TestHelper.Assert(r.ReturnValue.SequenceEqual(i, new CVComparer())); } { var i = Enumerable.Range(0, Length).Select(x => new Test.CV(x) as AnyClass).ToList <AnyClass?>(); var r = p.opLObjectSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i, new CVComparer())); TestHelper.Assert(r.ReturnValue.SequenceEqual(i, new CVComparer())); } { var i = Enumerable.Range(0, Length).Select( x => IObjectPrx.Parse(x.ToString(), communicator)).ToArray(); var r = p.opAObjectPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select( x => IObjectPrx.Parse(x.ToString(), communicator)).ToList <IObjectPrx?>(); var r = p.opLObjectPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <IObjectPrx?>(Enumerable.Range(0, Length).Select( x => IObjectPrx.Parse(x.ToString(), communicator)).ToArray()); var r = p.opQObjectPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <IObjectPrx?>(Enumerable.Range(0, Length).Select( x => IObjectPrx.Parse(x.ToString(), communicator)).ToArray()); var r = p.opSObjectPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => new Test.S(x)).ToArray(); var r = p.opAStructSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => new Test.S(x)).ToList(); var r = p.opLStructSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <Test.S>(Enumerable.Range(0, Length).Select(x => new Test.S(x)).ToArray()); var r = p.opKStructSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <Test.S>(Enumerable.Range(0, Length).Select(x => new Test.S(x)).ToArray()); var r = p.opQStructSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <Test.S>(Enumerable.Range(0, Length).Select(x => new Test.S(x)).ToArray()); var r = p.opSStructSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => new Test.CV(x)).ToArray(); var r = p.opACVSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i, new CVComparer())); TestHelper.Assert(r.ReturnValue.SequenceEqual(i, new CVComparer())); } { var i = Enumerable.Range(0, Length).Select(x => new Test.CV(x)).ToList <Test.CV?>(); var r = p.opLCVSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i, new CVComparer())); TestHelper.Assert(r.ReturnValue.SequenceEqual(i, new CVComparer())); } { var i = Enumerable.Range(0, Length).Select( x => Test.IIPrx.Parse(x.ToString(), communicator)).ToArray(); var r = p.opAIPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select( x => Test.IIPrx.Parse(x.ToString(), communicator)).ToList <Test.IIPrx?>(); var r = p.opLIPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <Test.IIPrx?>(Enumerable.Range(0, Length).Select( x => Test.IIPrx.Parse(x.ToString(), communicator)).ToArray()); var r = p.opKIPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <Test.IIPrx?>(Enumerable.Range(0, Length).Select( x => Test.IIPrx.Parse(x.ToString(), communicator)).ToArray()); var r = p.opQIPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <Test.IIPrx?>(Enumerable.Range(0, Length).Select( x => Test.IIPrx.Parse(x.ToString(), communicator)).ToArray()); var r = p.opSIPrxSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => new Test.CR(new Test.CV(x))).ToArray(); var r = p.opACRSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i, new CRComparer())); TestHelper.Assert(r.ReturnValue.SequenceEqual(i, new CRComparer())); } { var i = Enumerable.Range(0, Length).Select(x => new Test.CR(new Test.CV(x))).ToList <Test.CR?>(); var r = p.opLCRSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i, new CRComparer())); TestHelper.Assert(r.ReturnValue.SequenceEqual(i, new CRComparer())); } { var i = Enumerable.Range(0, Length).Select(x => (Test.En)(x % 3)).ToArray(); var r = p.opAEnSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = Enumerable.Range(0, Length).Select(x => (Test.En)(x % 3)).ToList(); var r = p.opLEnSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new LinkedList <Test.En>(Enumerable.Range(0, Length).Select( x => (Test.En)(x % 3)).ToArray()); var r = p.opKEnSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Queue <Test.En>(Enumerable.Range(0, Length).Select(x => (Test.En)(x % 3)).ToArray()); var r = p.opQEnSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Stack <Test.En>(Enumerable.Range(0, Length).Select(x => (Test.En)(x % 3)).ToArray()); var r = p.opSEnSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Custom <int>(Enumerable.Range(0, Length).ToList()); var r = p.opCustomIntSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Custom <Test.CV?>( Enumerable.Range(0, Length).Select(x => new Test.CV(x)).ToList <Test.CV?>()); var r = p.opCustomCVSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i, new CVComparer())); TestHelper.Assert(r.ReturnValue.SequenceEqual(i, new CVComparer())); } { var i = new Custom <Custom <int> >(); for (int c = 0; c < Length; ++c) { i.Add(new Custom <int>(Enumerable.Range(0, Length).ToList())); } var r = p.opCustomIntSSAsync(i).Result; TestHelper.Assert(r.o.SequenceEqual(i)); TestHelper.Assert(r.ReturnValue.SequenceEqual(i)); } { var i = new Custom <Custom <Test.CV?> >(); for (int c = 0; c < Length; ++c) { i.Add(new Custom <Test.CV?>(Enumerable.Range(0, Length).Select( x => new Test.CV(x)).ToList <Test.CV?>())); } var r = p.opCustomCVSSAsync(i).Result; for (int c = 0; c < Length; ++c) { TestHelper.Assert(r.o[c].SequenceEqual(i[c], new CVComparer())); TestHelper.Assert(r.ReturnValue[c].SequenceEqual(i[c], new CVComparer())); } } { var i = new Serialize.Small(); i.i = 99; (Serialize.Small ReturnValue, Serialize.Small o) = p.opSerialSmallCSharpAsync(i).Result; TestHelper.Assert(o.i == 99); TestHelper.Assert(ReturnValue.i == 99); } { var i = new Serialize.Large(); i.d1 = 1.0; i.d2 = 2.0; i.d3 = 3.0; i.d4 = 4.0; i.d5 = 5.0; i.d6 = 6.0; i.d7 = 7.0; i.d8 = 8.0; i.d9 = 9.0; i.d10 = 10.0; i.d11 = 11.0; i.s1 = Serialize.Large.LargeString; (Serialize.Large ReturnValue, Serialize.Large o) = p.opSerialLargeCSharpAsync(i).Result; TestHelper.Assert(o.d1 == 1.0); TestHelper.Assert(o.d2 == 2.0); TestHelper.Assert(o.d3 == 3.0); TestHelper.Assert(o.d4 == 4.0); TestHelper.Assert(o.d5 == 5.0); TestHelper.Assert(o.d6 == 6.0); TestHelper.Assert(o.d7 == 7.0); TestHelper.Assert(o.d8 == 8.0); TestHelper.Assert(o.d9 == 9.0); TestHelper.Assert(o.d10 == 10.0); TestHelper.Assert(o.d11 == 11.0); TestHelper.Assert(o.s1 == Serialize.Large.LargeString); TestHelper.Assert(ReturnValue.d1 == 1.0); TestHelper.Assert(ReturnValue.d2 == 2.0); TestHelper.Assert(ReturnValue.d3 == 3.0); TestHelper.Assert(ReturnValue.d4 == 4.0); TestHelper.Assert(ReturnValue.d5 == 5.0); TestHelper.Assert(ReturnValue.d6 == 6.0); TestHelper.Assert(ReturnValue.d7 == 7.0); TestHelper.Assert(ReturnValue.d8 == 8.0); TestHelper.Assert(ReturnValue.d9 == 9.0); TestHelper.Assert(ReturnValue.d10 == 10.0); TestHelper.Assert(ReturnValue.d11 == 11.0); TestHelper.Assert(ReturnValue.s1 == Serialize.Large.LargeString); } { var i = new Serialize.Struct(); i.o = null; i.o2 = i; i.s = null; i.s2 = "Hello"; (Serialize.Struct ReturnValue, Serialize.Struct o) = p.opSerialStructCSharpAsync(i).Result; TestHelper.Assert(o.o == null); TestHelper.Assert(o.o2 == o); TestHelper.Assert(o.s == null); TestHelper.Assert(o.s2 == "Hello"); TestHelper.Assert(ReturnValue.o == null); TestHelper.Assert(ReturnValue.o2 == ReturnValue); TestHelper.Assert(ReturnValue.s == null); TestHelper.Assert(ReturnValue.s2 == "Hello"); } }