public void opString(Ice.AsyncResult result) { string cmp = testString; if (_useCookie) { Cookie cookie = (Cookie)result.AsyncState; cmp = cookie.getString(); } byte[] outEncaps; if (result.getProxy().end_ice_invoke(out outEncaps, result)) { Ice.InputStream inS = new Ice.InputStream(_communicator, outEncaps); inS.startEncapsulation(); string s = inS.readString(); test(s.Equals(cmp)); s = inS.readString(); test(s.Equals(cmp)); inS.endEncapsulation(); callback.called(); } else { test(false); } }
public EndpointI read(Ice.InputStream s) { lock (this) { short type = s.readShort(); EndpointFactory factory = get(type); EndpointI e = null; s.startEncapsulation(); if (factory != null) { e = factory.read(s); } else { e = new OpaqueEndpointI(type, s); } s.endEncapsulation(); return(e); } }
public EndpointI read(Ice.InputStream s) { lock (this) { short type = s.readShort(); EndpointFactory factory = get(type); EndpointI e = null; s.startEncapsulation(); if (factory != null) { e = factory.read(s); } // // If the factory failed to read the endpoint, return an opaque endpoint. This can // occur if for example the factory delegates to another factory and this factory // isn't available. In this case, the factory needs to make sure the stream position // is preserved for reading the opaque endpoint. // if (e == null) { e = new OpaqueEndpointI(type, s); } s.endEncapsulation(); return(e); } }
public void opExceptionNC(bool ok, byte[] outEncaps) { if (ok) { test(false); } else { Ice.InputStream inS = new Ice.InputStream(_communicator, outEncaps); inS.startEncapsulation(); try { inS.throwException(); } catch (Test.MyException) { inS.endEncapsulation(); callback.called(); } catch (Exception) { test(false); } } }
public void opException(Ice.AsyncResult result) { if (_useCookie) { Cookie cookie = (Cookie)result.AsyncState; test(cookie.getString().Equals(testString)); } byte[] outEncaps; if (result.getProxy().end_ice_invoke(out outEncaps, result)) { test(false); } else { Ice.InputStream inS = new Ice.InputStream(_communicator, outEncaps); inS.startEncapsulation(); try { inS.throwException(); } catch (Test.MyException) { inS.endEncapsulation(); callback.called(); } catch (Exception) { test(false); } } }
public void opStringNC(bool ok, byte[] outEncaps) { if (ok) { Ice.InputStream inS = new Ice.InputStream(_communicator, outEncaps); inS.startEncapsulation(); string s = inS.readString(); test(s.Equals(testString)); s = inS.readString(); test(s.Equals(testString)); inS.endEncapsulation(); callback.called(); } else { test(false); } }
public EndpointI create(string str, bool oaEndpoint) { string[] arr = IceUtilInternal.StringUtil.splitString(str, " \t\r\n"); if (arr == null) { Ice.EndpointParseException e = new Ice.EndpointParseException(); e.str = "mismatched quote"; throw e; } if (arr.Length == 0) { Ice.EndpointParseException e = new Ice.EndpointParseException(); e.str = "value has no non-whitespace characters"; throw e; } List <string> v = new List <string>(arr); string protocol = v[0]; v.RemoveAt(0); if (protocol.Equals("default")) { protocol = _instance.defaultsAndOverrides().defaultProtocol; } EndpointFactory factory = null; lock (this) { for (int i = 0; i < _factories.Count; i++) { EndpointFactory f = _factories[i]; if (f.protocol().Equals(protocol)) { factory = f; } } } if (factory != null) { EndpointI e = factory.create(v, oaEndpoint); if (v.Count > 0) { Ice.EndpointParseException ex = new Ice.EndpointParseException(); ex.str = "unrecognized argument `" + v[0] + "' in endpoint `" + str + "'"; throw ex; } return(e); // Code below left in place for debugging. /* * EndpointI e = f.create(s.Substring(m.Index + m.Length), oaEndpoint); * BasicStream bs = new BasicStream(_instance, true); * e.streamWrite(bs); * Buffer buf = bs.getBuffer(); * buf.b.position(0); * short type = bs.readShort(); * EndpointI ue = new IceInternal.OpaqueEndpointI(type, bs); * System.Console.Error.WriteLine("Normal: " + e); * System.Console.Error.WriteLine("Opaque: " + ue); * return e; */ } // // If the stringified endpoint is opaque, create an unknown endpoint, // then see whether the type matches one of the known endpoints. // if (protocol.Equals("opaque")) { EndpointI ue = new OpaqueEndpointI(v); if (v.Count > 0) { Ice.EndpointParseException ex = new Ice.EndpointParseException(); ex.str = "unrecognized argument `" + v[0] + "' in endpoint `" + str + "'"; throw ex; } factory = get(ue.type()); if (factory != null) { // // Make a temporary stream, write the opaque endpoint data into the stream, // and ask the factory to read the endpoint data from that stream to create // the actual endpoint. // Ice.OutputStream os = new Ice.OutputStream(_instance, Ice.Util.currentProtocolEncoding); os.writeShort(ue.type()); ue.streamWrite(os); Ice.InputStream iss = new Ice.InputStream(_instance, Ice.Util.currentProtocolEncoding, os.getBuffer(), true); iss.pos(0); iss.readShort(); // type iss.startEncapsulation(); EndpointI e = factory.read(iss); iss.endEncapsulation(); return(e); } return(ue); // Endpoint is opaque, but we don't have a factory for its type. } return(null); }
static public int allTests(global::Test.TestHelper helper) { var communicator = helper.communicator(); Ice.InputStream inS; Ice.OutputStream outS; var output = helper.getWriter(); output.Write("testing primitive types... "); output.Flush(); { byte[] data = new byte[0]; inS = new Ice.InputStream(communicator, data); } { outS = new Ice.OutputStream(communicator); outS.startEncapsulation(); outS.writeBool(true); outS.endEncapsulation(); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); inS.startEncapsulation(); test(inS.readBool()); inS.endEncapsulation(); inS = new Ice.InputStream(communicator, data); inS.startEncapsulation(); test(inS.readBool()); inS.endEncapsulation(); } { var data = new byte[0]; inS = new Ice.InputStream(communicator, data); try { inS.readBool(); test(false); } catch (Ice.UnmarshalOutOfBoundsException) { } } { outS = new Ice.OutputStream(communicator); outS.writeBool(true); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readBool()); } { outS = new Ice.OutputStream(communicator); outS.writeByte(1); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readByte() == 1); } { outS = new Ice.OutputStream(communicator); outS.writeShort(2); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readShort() == 2); } { outS = new Ice.OutputStream(communicator); outS.writeInt(3); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readInt() == 3); } { outS = new Ice.OutputStream(communicator); outS.writeLong(4); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readLong() == 4); } { outS = new Ice.OutputStream(communicator); outS.writeFloat((float)5.0); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readFloat() == (float)5.0); } { outS = new Ice.OutputStream(communicator); outS.writeDouble(6.0); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readDouble() == 6.0); } { outS = new Ice.OutputStream(communicator); outS.writeString("hello world"); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); test(inS.readString().Equals("hello world")); } output.WriteLine("ok"); output.Write("testing constructed types... "); output.Flush(); { outS = new Ice.OutputStream(communicator); Test.MyEnumHelper.write(outS, Test.MyEnum.enum3); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var e = Test.MyEnumHelper.read(inS); test(e == Test.MyEnum.enum3); } { outS = new Ice.OutputStream(communicator); var s = new Test.SmallStruct(); s.bo = true; s.by = 1; s.sh = 2; s.i = 3; s.l = 4; s.f = 5.0f; s.d = 6.0; s.str = "7"; s.e = Test.MyEnum.enum2; s.p = Test.MyInterfacePrx.Parse("test:default", communicator); Test.SmallStruct.ice_write(outS, s); var data = outS.finished(); var s2 = Test.SmallStruct.ice_read(new Ice.InputStream(communicator, data)); test(s2.Equals(s)); } { outS = new Ice.OutputStream(communicator); var o = new Test.OptionalClass(); o.bo = true; o.by = 5; o.sh = 4; o.i = 3; outS.writeValue(o); outS.writePendingValues(); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); TestReadValueCallback cb = new TestReadValueCallback(); inS.readValue(cb.invoke); inS.readPendingValues(); var o2 = (Test.OptionalClass)cb.obj; test(o2.bo == o.bo); test(o2.by == o.by); if (communicator.getProperties().getProperty("Ice.Default.EncodingVersion").Equals("1.0")) { test(!o2.sh.HasValue); test(!o2.i.HasValue); } else { test(o2.sh.Value == o.sh.Value); test(o2.i.Value == o.i.Value); } } { outS = new Ice.OutputStream(communicator, Ice.Util.Encoding_1_0); var o = new Test.OptionalClass(); o.bo = true; o.by = 5; o.sh = 4; o.i = 3; outS.writeValue(o); outS.writePendingValues(); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, Ice.Util.Encoding_1_0, data); var cb = new TestReadValueCallback(); inS.readValue(cb.invoke); inS.readPendingValues(); var o2 = (Test.OptionalClass)cb.obj; test(o2.bo == o.bo); test(o2.by == o.by); test(!o2.sh.HasValue); test(!o2.i.HasValue); } { bool[] arr = { true, false, true, false }; outS = new Ice.OutputStream(communicator); Ice.BoolSeqHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Ice.BoolSeqHelper.read(inS); test(Compare(arr2, arr)); bool[][] arrS = { arr, new bool[0], arr }; outS = new Ice.OutputStream(communicator); Test.BoolSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.BoolSSHelper.read(inS); test(Compare(arr2S, arrS)); } { byte[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); Ice.ByteSeqHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Ice.ByteSeqHelper.read(inS); test(Compare(arr2, arr)); byte[][] arrS = { arr, new byte[0], arr }; outS = new Ice.OutputStream(communicator); Test.ByteSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.ByteSSHelper.read(inS); test(Compare(arr2S, arrS)); } { Serialize.Small small = new Serialize.Small(); small.i = 99; outS = new Ice.OutputStream(communicator); outS.writeSerializable(small); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var small2 = (Serialize.Small)inS.readSerializable(); test(small2.i == 99); } { short[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); Ice.ShortSeqHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Ice.ShortSeqHelper.read(inS); test(Compare(arr2, arr)); short[][] arrS = { arr, new short[0], arr }; outS = new Ice.OutputStream(communicator); Test.ShortSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.ShortSSHelper.read(inS); test(Compare(arr2S, arrS)); } { int[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); Ice.IntSeqHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Ice.IntSeqHelper.read(inS); test(Compare(arr2, arr)); int[][] arrS = { arr, new int[0], arr }; outS = new Ice.OutputStream(communicator); Test.IntSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.IntSSHelper.read(inS); test(Compare(arr2S, arrS)); } { long[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); Ice.LongSeqHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Ice.LongSeqHelper.read(inS); test(Compare(arr2, arr)); long[][] arrS = { arr, new long[0], arr }; outS = new Ice.OutputStream(communicator); Test.LongSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.LongSSHelper.read(inS); test(Compare(arr2S, arrS)); } { float[] arr = { 1, 2, 3, 4 }; outS = new Ice.OutputStream(communicator); Ice.FloatSeqHelper.write(outS, arr); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); float[] arr2 = Ice.FloatSeqHelper.read(inS); test(Compare(arr2, arr)); float[][] arrS = { arr, new float[0], arr }; outS = new Ice.OutputStream(communicator); Test.FloatSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.FloatSSHelper.read(inS); test(Compare(arr2S, arrS)); } { double[] arr = { 1, 2, 3, 4 }; outS = new Ice.OutputStream(communicator); Ice.DoubleSeqHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Ice.DoubleSeqHelper.read(inS); test(Compare(arr2, arr)); double[][] arrS = { arr, new double[0], arr }; outS = new Ice.OutputStream(communicator); Test.DoubleSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.DoubleSSHelper.read(inS); test(Compare(arr2S, arrS)); } { string[] arr = { "string1", "string2", "string3", "string4" }; outS = new Ice.OutputStream(communicator); Ice.StringSeqHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Ice.StringSeqHelper.read(inS); test(Compare(arr2, arr)); string[][] arrS = { arr, new string[0], arr }; outS = new Ice.OutputStream(communicator); Test.StringSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.StringSSHelper.read(inS); test(Compare(arr2S, arrS)); } { Test.MyEnum[] arr = { Test.MyEnum.enum3, Test.MyEnum.enum2, Test.MyEnum.enum1, Test.MyEnum.enum2 }; outS = new Ice.OutputStream(communicator); Test.MyEnumSHelper.write(outS, arr); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Test.MyEnumSHelper.read(inS); test(Compare(arr2, arr)); Test.MyEnum[][] arrS = { arr, new Test.MyEnum[0], arr }; outS = new Ice.OutputStream(communicator); Test.MyEnumSSHelper.write(outS, arrS); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.MyEnumSSHelper.read(inS); test(Compare(arr2S, arrS)); } var smallStructArray = new Test.SmallStruct[3]; for (int i = 0; i < smallStructArray.Length; ++i) { smallStructArray[i] = new Test.SmallStruct(); smallStructArray[i].bo = true; smallStructArray[i].by = 1; smallStructArray[i].sh = 2; smallStructArray[i].i = 3; smallStructArray[i].l = 4; smallStructArray[i].f = 5.0f; smallStructArray[i].d = 6.0; smallStructArray[i].str = "7"; smallStructArray[i].e = Test.MyEnum.enum2; smallStructArray[i].p = Test.MyInterfacePrx.Parse("test:default", communicator); } var myClassArray = new Test.MyClass[4]; for (int i = 0; i < myClassArray.Length; ++i) { myClassArray[i] = new Test.MyClass(); myClassArray[i].c = myClassArray[i]; myClassArray[i].o = myClassArray[i]; myClassArray[i].s = new Test.SmallStruct(); myClassArray[i].s.e = Test.MyEnum.enum2; myClassArray[i].seq1 = new bool[] { true, false, true, false }; myClassArray[i].seq2 = new byte[] { 1, 2, 3, 4 }; myClassArray[i].seq3 = new short[] { 1, 2, 3, 4 }; myClassArray[i].seq4 = new int[] { 1, 2, 3, 4 }; myClassArray[i].seq5 = new long[] { 1, 2, 3, 4 }; myClassArray[i].seq6 = new float[] { 1, 2, 3, 4 }; myClassArray[i].seq7 = new double[] { 1, 2, 3, 4 }; myClassArray[i].seq8 = new string[] { "string1", "string2", "string3", "string4" }; myClassArray[i].seq9 = new Test.MyEnum[] { Test.MyEnum.enum3, Test.MyEnum.enum2, Test.MyEnum.enum1 }; myClassArray[i].seq10 = new Test.MyClass[4]; // null elements. myClassArray[i].d = new Dictionary <string, Test.MyClass>(); myClassArray[i].d["hi"] = myClassArray[i]; } { outS = new Ice.OutputStream(communicator); Test.MyClassSHelper.write(outS, myClassArray); outS.writePendingValues(); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2 = Test.MyClassSHelper.read(inS); inS.readPendingValues(); test(arr2.Length == myClassArray.Length); for (int i = 0; i < arr2.Length; ++i) { test(arr2[i] != null); test(arr2[i].c == arr2[i]); test(arr2[i].o == arr2[i]); test(arr2[i].s.e == Test.MyEnum.enum2); test(Compare(arr2[i].seq1, myClassArray[i].seq1)); test(Compare(arr2[i].seq2, myClassArray[i].seq2)); test(Compare(arr2[i].seq3, myClassArray[i].seq3)); test(Compare(arr2[i].seq4, myClassArray[i].seq4)); test(Compare(arr2[i].seq5, myClassArray[i].seq5)); test(Compare(arr2[i].seq6, myClassArray[i].seq6)); test(Compare(arr2[i].seq7, myClassArray[i].seq7)); test(Compare(arr2[i].seq8, myClassArray[i].seq8)); test(Compare(arr2[i].seq9, myClassArray[i].seq9)); test(arr2[i].d["hi"].Equals(arr2[i])); } Test.MyClass[][] arrS = { myClassArray, new Test.MyClass[0], myClassArray }; outS = new Ice.OutputStream(communicator); Test.MyClassSSHelper.write(outS, arrS); outS.writePendingValues(); data = outS.finished(); inS = new Ice.InputStream(communicator, data); var arr2S = Test.MyClassSSHelper.read(inS); inS.readPendingValues(); test(arr2S.Length == arrS.Length); test(arr2S[0].Length == arrS[0].Length); test(arr2S[1].Length == arrS[1].Length); test(arr2S[2].Length == arrS[2].Length); for (int j = 0; j < arr2S.Length; ++j) { for (int k = 0; k < arr2S[j].Length; ++k) { test(arr2S[j][k].c == arr2S[j][k]); test(arr2S[j][k].o == arr2S[j][k]); test(arr2S[j][k].s.e == Test.MyEnum.enum2); test(Compare(arr2S[j][k].seq1, myClassArray[k].seq1)); test(Compare(arr2S[j][k].seq2, myClassArray[k].seq2)); test(Compare(arr2S[j][k].seq3, myClassArray[k].seq3)); test(Compare(arr2S[j][k].seq4, myClassArray[k].seq4)); test(Compare(arr2S[j][k].seq5, myClassArray[k].seq5)); test(Compare(arr2S[j][k].seq6, myClassArray[k].seq6)); test(Compare(arr2S[j][k].seq7, myClassArray[k].seq7)); test(Compare(arr2S[j][k].seq8, myClassArray[k].seq8)); test(Compare(arr2S[j][k].seq9, myClassArray[k].seq9)); test(arr2S[j][k].d["hi"].Equals(arr2S[j][k])); } } } { outS = new Ice.OutputStream(communicator); var obj = new Test.MyClass(); obj.s = new Test.SmallStruct(); obj.s.e = Test.MyEnum.enum2; var writer = new TestValueWriter(obj); outS.writeValue(writer); outS.writePendingValues(); var data = outS.finished(); test(writer.called); inS = new Ice.InputStream(communicator, data); var cb = new TestReadValueCallback(); inS.readValue(cb.invoke); inS.readPendingValues(); test(cb.obj != null); test(cb.obj is Test.MyClass); var robj = (Test.MyClass)cb.obj; test(robj != null); test(robj.s.e == Test.MyEnum.enum2); } { outS = new Ice.OutputStream(communicator); var ex = new Test.MyException(); var c = new Test.MyClass(); c.c = c; c.o = c; c.s = new Test.SmallStruct(); c.s.e = Test.MyEnum.enum2; c.seq1 = new bool[] { true, false, true, false }; c.seq2 = new byte[] { 1, 2, 3, 4 }; c.seq3 = new short[] { 1, 2, 3, 4 }; c.seq4 = new int[] { 1, 2, 3, 4 }; c.seq5 = new long[] { 1, 2, 3, 4 }; c.seq6 = new float[] { 1, 2, 3, 4 }; c.seq7 = new double[] { 1, 2, 3, 4 }; c.seq8 = new string[] { "string1", "string2", "string3", "string4" }; c.seq9 = new Test.MyEnum[] { Test.MyEnum.enum3, Test.MyEnum.enum2, Test.MyEnum.enum1 }; c.seq10 = new Test.MyClass[4]; // null elements. c.d = new Dictionary <string, Test.MyClass>(); c.d.Add("hi", c); ex.c = c; outS.writeException(ex); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); try { inS.throwException(); test(false); } catch (Test.MyException ex1) { test(ex1.c.s.e == c.s.e); test(Compare(ex1.c.seq1, c.seq1)); test(Compare(ex1.c.seq2, c.seq2)); test(Compare(ex1.c.seq3, c.seq3)); test(Compare(ex1.c.seq4, c.seq4)); test(Compare(ex1.c.seq5, c.seq5)); test(Compare(ex1.c.seq6, c.seq6)); test(Compare(ex1.c.seq7, c.seq7)); test(Compare(ex1.c.seq8, c.seq8)); test(Compare(ex1.c.seq9, c.seq9)); } catch (Ice.UserException) { test(false); } } { var dict = new Dictionary <byte, bool>(); dict.Add(4, true); dict.Add(1, false); outS = new Ice.OutputStream(communicator); Test.ByteBoolDHelper.write(outS, dict); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var dict2 = Test.ByteBoolDHelper.read(inS); test(Ice.CollectionComparer.Equals(dict2, dict)); } { var dict = new Dictionary <short, int>(); dict.Add(1, 9); dict.Add(4, 8); outS = new Ice.OutputStream(communicator); Test.ShortIntDHelper.write(outS, dict); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var dict2 = Test.ShortIntDHelper.read(inS); test(Ice.CollectionComparer.Equals(dict2, dict)); } { var dict = new Dictionary <long, float>(); dict.Add(123809828, 0.51f); dict.Add(123809829, 0.56f); outS = new Ice.OutputStream(communicator); Test.LongFloatDHelper.write(outS, dict); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var dict2 = Test.LongFloatDHelper.read(inS); test(Ice.CollectionComparer.Equals(dict2, dict)); } { var dict = new Dictionary <string, string>(); dict.Add("key1", "value1"); dict.Add("key2", "value2"); outS = new Ice.OutputStream(communicator); Test.StringStringDHelper.write(outS, dict); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var dict2 = Test.StringStringDHelper.read(inS); test(Ice.CollectionComparer.Equals(dict2, dict)); } { var dict = new Dictionary <string, Test.MyClass>(); var c = new Test.MyClass(); c.s = new Test.SmallStruct(); c.s.e = Test.MyEnum.enum2; dict.Add("key1", c); c = new Test.MyClass(); c.s = new Test.SmallStruct(); c.s.e = Test.MyEnum.enum3; dict.Add("key2", c); outS = new Ice.OutputStream(communicator); Test.StringMyClassDHelper.write(outS, dict); outS.writePendingValues(); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var dict2 = Test.StringMyClassDHelper.read(inS); inS.readPendingValues(); test(dict2.Count == dict.Count); test(dict2["key1"].s.e == Test.MyEnum.enum2); test(dict2["key2"].s.e == Test.MyEnum.enum3); } { bool[] arr = { true, false, true, false }; outS = new Ice.OutputStream(communicator); var l = new List <bool>(arr); Test.BoolListHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.BoolListHelper.read(inS); test(Compare(l, l2)); } { byte[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); var l = new List <byte>(arr); Test.ByteListHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.ByteListHelper.read(inS); test(Compare(l2, l)); } { Test.MyEnum[] arr = { Test.MyEnum.enum3, Test.MyEnum.enum2, Test.MyEnum.enum1, Test.MyEnum.enum2 }; outS = new Ice.OutputStream(communicator); var l = new List <Test.MyEnum>(arr); Test.MyEnumListHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.MyEnumListHelper.read(inS); test(Compare(l2, l)); } { outS = new Ice.OutputStream(communicator); var l = new List <Test.SmallStruct>(smallStructArray); Test.SmallStructListHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.SmallStructListHelper.read(inS); test(l2.Count == l.Count); for (int i = 0; i < l2.Count; ++i) { test(l2[i].Equals(smallStructArray[i])); } } { outS = new Ice.OutputStream(communicator); var l = new List <Test.MyClass>(myClassArray); Test.MyClassListHelper.write(outS, l); outS.writePendingValues(); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.MyClassListHelper.read(inS); inS.readPendingValues(); test(l2.Count == l.Count); for (int i = 0; i < l2.Count; ++i) { test(l2[i] != null); test(l2[i].c == l2[i]); test(l2[i].o == l2[i]); test(l2[i].s.e == Test.MyEnum.enum2); test(Compare(l2[i].seq1, l[i].seq1)); test(Compare(l2[i].seq2, l[i].seq2)); test(Compare(l2[i].seq3, l[i].seq3)); test(Compare(l2[i].seq4, l[i].seq4)); test(Compare(l2[i].seq5, l[i].seq5)); test(Compare(l2[i].seq6, l[i].seq6)); test(Compare(l2[i].seq7, l[i].seq7)); test(Compare(l2[i].seq8, l[i].seq8)); test(Compare(l2[i].seq9, l[i].seq9)); test(l2[i].d["hi"].Equals(l2[i])); } } { var arr = new IObjectPrx[2]; arr[0] = IObjectPrx.Parse("zero", communicator); arr[1] = IObjectPrx.Parse("one", communicator); outS = new Ice.OutputStream(communicator); var l = new List <Ice.IObjectPrx>(arr); Test.MyClassProxyListHelper.write(outS, l); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.MyClassProxyListHelper.read(inS); test(Compare(l2, l)); } { var arr = new Test.MyInterfacePrx[2]; arr[0] = Test.MyInterfacePrx.Parse("zero", communicator); arr[1] = Test.MyInterfacePrx.Parse("one", communicator); outS = new Ice.OutputStream(communicator); var l = new List <Test.MyInterfacePrx>(arr); Test.MyInterfaceProxyListHelper.write(outS, l); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.MyInterfaceProxyListHelper.read(inS); test(Compare(l2, l)); } { short[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); var l = new LinkedList <short>(arr); Test.ShortLinkedListHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.ShortLinkedListHelper.read(inS); test(Compare(l2, l)); } { int[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); LinkedList <int> l = new LinkedList <int>(arr); Test.IntLinkedListHelper.write(outS, l); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); LinkedList <int> l2 = Test.IntLinkedListHelper.read(inS); test(Compare(l2, l)); } { Test.MyEnum[] arr = { Test.MyEnum.enum3, Test.MyEnum.enum2, Test.MyEnum.enum1, Test.MyEnum.enum2 }; outS = new Ice.OutputStream(communicator); LinkedList <Test.MyEnum> l = new LinkedList <Test.MyEnum>(arr); Test.MyEnumLinkedListHelper.write(outS, l); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); LinkedList <Test.MyEnum> l2 = Test.MyEnumLinkedListHelper.read(inS); test(Compare(l2, l)); } { outS = new Ice.OutputStream(communicator); var l = new LinkedList <Test.SmallStruct>(smallStructArray); Test.SmallStructLinkedListHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.SmallStructLinkedListHelper.read(inS); test(l2.Count == l.Count); var e = l.GetEnumerator(); var e2 = l2.GetEnumerator(); while (e.MoveNext() && e2.MoveNext()) { test(e.Current.Equals(e2.Current)); } } { long[] arr = { 0x01, 0x11, 0x12, 0x22 }; outS = new Ice.OutputStream(communicator); var l = new Stack <long>(arr); Test.LongStackHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.LongStackHelper.read(inS); test(Compare(l2, l)); } { float[] arr = { 1, 2, 3, 4 }; outS = new Ice.OutputStream(communicator); var l = new Stack <float>(arr); Test.FloatStackHelper.write(outS, l); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.FloatStackHelper.read(inS); test(Compare(l2, l)); } { outS = new Ice.OutputStream(communicator); var l = new Stack <Test.SmallStruct>(smallStructArray); Test.SmallStructStackHelper.write(outS, l); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.SmallStructStackHelper.read(inS); test(l2.Count == l.Count); var e = l.GetEnumerator(); var e2 = l2.GetEnumerator(); while (e.MoveNext() && e2.MoveNext()) { test(e.Current.Equals(e2.Current)); } } { var arr = new IObjectPrx[2]; arr[0] = IObjectPrx.Parse("zero", communicator); arr[1] = IObjectPrx.Parse("one", communicator); outS = new Ice.OutputStream(communicator); var l = new Stack <Ice.IObjectPrx>(arr); Test.MyClassProxyStackHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.MyClassProxyStackHelper.read(inS); test(Compare(l2, l)); } { var arr = new Test.MyInterfacePrx[2]; arr[0] = Test.MyInterfacePrx.Parse("zero", communicator); arr[1] = Test.MyInterfacePrx.Parse("one", communicator); outS = new Ice.OutputStream(communicator); var l = new Stack <Test.MyInterfacePrx>(arr); Test.MyInterfaceProxyStackHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.MyInterfaceProxyStackHelper.read(inS); test(Compare(l2, l)); } { double[] arr = { 1, 2, 3, 4 }; outS = new Ice.OutputStream(communicator); var l = new Queue <double>(arr); Test.DoubleQueueHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.DoubleQueueHelper.read(inS); test(Compare(l2, l)); } { string[] arr = { "string1", "string2", "string3", "string4" }; outS = new Ice.OutputStream(communicator); var l = new Queue <string>(arr); Test.StringQueueHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.StringQueueHelper.read(inS); test(Compare(l2, l)); } { outS = new Ice.OutputStream(communicator); var l = new Queue <Test.SmallStruct>(smallStructArray); Test.SmallStructQueueHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.SmallStructQueueHelper.read(inS); test(l2.Count == l.Count); var e = l.GetEnumerator(); var e2 = l2.GetEnumerator(); while (e.MoveNext() && e2.MoveNext()) { test(e.Current.Equals(e2.Current)); } } { string[] arr = { "string1", "string2", "string3", "string4" }; string[][] arrS = { arr, new string[0], arr }; outS = new Ice.OutputStream(communicator); var l = new List <string[]>(arrS); Test.StringSListHelper.write(outS, l); byte[] data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.StringSListHelper.read(inS); test(Compare(l2, l)); } { string[] arr = { "string1", "string2", "string3", "string4" }; string[][] arrS = { arr, new string[0], arr }; outS = new Ice.OutputStream(communicator); var l = new Stack <string[]>(arrS); Test.StringSStackHelper.write(outS, l); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var l2 = Test.StringSStackHelper.read(inS); test(Compare(l2, l)); } { var dict = new SortedDictionary <string, string>(); dict.Add("key1", "value1"); dict.Add("key2", "value2"); outS = new Ice.OutputStream(communicator); Test.SortedStringStringDHelper.write(outS, dict); var data = outS.finished(); inS = new Ice.InputStream(communicator, data); var dict2 = Test.SortedStringStringDHelper.read(inS); test(Ice.CollectionComparer.Equals(dict2, dict)); } output.WriteLine("ok"); return(0); }
public EndpointI create(string str, bool oaEndpoint) { string[] arr = IceUtilInternal.StringUtil.splitString(str, " \t\r\n"); if(arr == null) { Ice.EndpointParseException e = new Ice.EndpointParseException(); e.str = "mismatched quote"; throw e; } if(arr.Length == 0) { Ice.EndpointParseException e = new Ice.EndpointParseException(); e.str = "value has no non-whitespace characters"; throw e; } List<string> v = new List<string>(arr); string protocol = v[0]; v.RemoveAt(0); if(protocol.Equals("default")) { protocol = instance_.defaultsAndOverrides().defaultProtocol; } EndpointFactory factory = null; lock(this) { for(int i = 0; i < _factories.Count; i++) { EndpointFactory f = _factories[i]; if(f.protocol().Equals(protocol)) { factory = f; } } } if(factory != null) { EndpointI e = factory.create(v, oaEndpoint); if(v.Count > 0) { Ice.EndpointParseException ex = new Ice.EndpointParseException(); ex.str = "unrecognized argument `" + v[0] + "' in endpoint `" + str + "'"; throw ex; } return e; // Code below left in place for debugging. /* EndpointI e = f.create(s.Substring(m.Index + m.Length), oaEndpoint); BasicStream bs = new BasicStream(instance_, true); e.streamWrite(bs); Buffer buf = bs.getBuffer(); buf.b.position(0); short type = bs.readShort(); EndpointI ue = new IceInternal.OpaqueEndpointI(type, bs); System.Console.Error.WriteLine("Normal: " + e); System.Console.Error.WriteLine("Opaque: " + ue); return e; */ } // // If the stringified endpoint is opaque, create an unknown endpoint, // then see whether the type matches one of the known endpoints. // if(protocol.Equals("opaque")) { EndpointI ue = new OpaqueEndpointI(v); if(v.Count > 0) { Ice.EndpointParseException ex = new Ice.EndpointParseException(); ex.str = "unrecognized argument `" + v[0] + "' in endpoint `" + str + "'"; throw ex; } factory = get(ue.type()); if(factory != null) { // // Make a temporary stream, write the opaque endpoint data into the stream, // and ask the factory to read the endpoint data from that stream to create // the actual endpoint. // Ice.OutputStream os = new Ice.OutputStream(instance_, Ice.Util.currentProtocolEncoding); os.writeShort(ue.type()); ue.streamWrite(os); Ice.InputStream iss = new Ice.InputStream(instance_, Ice.Util.currentProtocolEncoding, os.getBuffer(), true); iss.pos(0); iss.readShort(); // type iss.startEncapsulation(); EndpointI e = factory.read(iss); iss.endEncapsulation(); return e; } return ue; // Endpoint is opaque, but we don't have a factory for its type. } return null; }
public static Test.MyClassPrx allTests(global::Test.TestHelper helper) { Ice.Communicator communicator = helper.communicator(); Ice.ObjectPrx baseProxy = communicator.stringToProxy("test:" + helper.getTestEndpoint(0)); var cl = Test.MyClassPrxHelper.checkedCast(baseProxy); var oneway = Test.MyClassPrxHelper.uncheckedCast(cl.ice_oneway()); var batchOneway = Test.MyClassPrxHelper.uncheckedCast(cl.ice_batchOneway()); var output = helper.getWriter(); output.Write("testing ice_invoke... "); output.Flush(); { byte[] inEncaps, outEncaps; if (!oneway.ice_invoke("opOneway", Ice.OperationMode.Normal, null, out outEncaps)) { test(false); } test(batchOneway.ice_invoke("opOneway", Ice.OperationMode.Normal, null, out outEncaps)); test(batchOneway.ice_invoke("opOneway", Ice.OperationMode.Normal, null, out outEncaps)); test(batchOneway.ice_invoke("opOneway", Ice.OperationMode.Normal, null, out outEncaps)); test(batchOneway.ice_invoke("opOneway", Ice.OperationMode.Normal, null, out outEncaps)); batchOneway.ice_flushBatchRequests(); Ice.OutputStream outS = new Ice.OutputStream(communicator); outS.startEncapsulation(); outS.writeString(testString); outS.endEncapsulation(); inEncaps = outS.finished(); if (cl.ice_invoke("opString", Ice.OperationMode.Normal, inEncaps, out outEncaps)) { Ice.InputStream inS = new Ice.InputStream(communicator, outEncaps); inS.startEncapsulation(); string s = inS.readString(); test(s.Equals(testString)); s = inS.readString(); inS.endEncapsulation(); test(s.Equals(testString)); } else { test(false); } } for (int i = 0; i < 2; ++i) { byte[] outEncaps; Dictionary <string, string> ctx = null; if (i == 1) { ctx = new Dictionary <string, string>(); ctx["raise"] = ""; } if (cl.ice_invoke("opException", Ice.OperationMode.Normal, null, out outEncaps, ctx)) { test(false); } else { Ice.InputStream inS = new Ice.InputStream(communicator, outEncaps); inS.startEncapsulation(); try { inS.throwException(); } catch (Test.MyException) { inS.endEncapsulation(); } catch (Exception) { test(false); } } } output.WriteLine("ok"); output.Write("testing asynchronous ice_invoke with Async Task API... "); output.Flush(); { try { oneway.ice_invokeAsync("opOneway", Ice.OperationMode.Normal, null).Wait(); } catch (Exception) { test(false); } Ice.OutputStream outS = new Ice.OutputStream(communicator); outS.startEncapsulation(); outS.writeString(testString); outS.endEncapsulation(); byte[] inEncaps = outS.finished(); // begin_ice_invoke with no callback var result = cl.ice_invokeAsync("opString", Ice.OperationMode.Normal, inEncaps).Result; if (result.returnValue) { Ice.InputStream inS = new Ice.InputStream(communicator, result.outEncaps); inS.startEncapsulation(); string s = inS.readString(); test(s.Equals(testString)); s = inS.readString(); inS.endEncapsulation(); test(s.Equals(testString)); } else { test(false); } } { var result = cl.ice_invokeAsync("opException", Ice.OperationMode.Normal, null).Result; if (result.returnValue) { test(false); } else { Ice.InputStream inS = new Ice.InputStream(communicator, result.outEncaps); inS.startEncapsulation(); try { inS.throwException(); } catch (Test.MyException) { inS.endEncapsulation(); } catch (Exception) { test(false); } } } output.WriteLine("ok"); output.Write("testing asynchronous ice_invoke with AsyncResult API... "); output.Flush(); { byte[] inEncaps, outEncaps; Ice.AsyncResult result = oneway.begin_ice_invoke("opOneway", Ice.OperationMode.Normal, null); if (!oneway.end_ice_invoke(out outEncaps, result)) { test(false); } Ice.OutputStream outS = new Ice.OutputStream(communicator); outS.startEncapsulation(); outS.writeString(testString); outS.endEncapsulation(); inEncaps = outS.finished(); // begin_ice_invoke with no callback result = cl.begin_ice_invoke("opString", Ice.OperationMode.Normal, inEncaps); if (cl.end_ice_invoke(out outEncaps, result)) { Ice.InputStream inS = new Ice.InputStream(communicator, outEncaps); inS.startEncapsulation(); string s = inS.readString(); test(s.Equals(testString)); s = inS.readString(); inS.endEncapsulation(); test(s.Equals(testString)); } else { test(false); } // begin_ice_invoke with Callback Callback cb = new Callback(communicator, false); cl.begin_ice_invoke("opString", Ice.OperationMode.Normal, inEncaps, cb.opString, null); cb.check(); // begin_ice_invoke with Callback with cookie cb = new Callback(communicator, true); cl.begin_ice_invoke("opString", Ice.OperationMode.Normal, inEncaps, cb.opString, new Cookie()); cb.check(); // begin_ice_invoke with Callback_Object_ice_invoke cb = new Callback(communicator, true); cl.begin_ice_invoke("opString", Ice.OperationMode.Normal, inEncaps).whenCompleted(cb.opStringNC, null); cb.check(); } { // begin_ice_invoke with no callback Ice.AsyncResult result = cl.begin_ice_invoke("opException", Ice.OperationMode.Normal, null); byte[] outEncaps; if (cl.end_ice_invoke(out outEncaps, result)) { test(false); } else { Ice.InputStream inS = new Ice.InputStream(communicator, outEncaps); inS.startEncapsulation(); try { inS.throwException(); } catch (Test.MyException) { inS.endEncapsulation(); } catch (Exception) { test(false); } } // begin_ice_invoke with Callback Callback cb = new Callback(communicator, false); cl.begin_ice_invoke("opException", Ice.OperationMode.Normal, null, cb.opException, null); cb.check(); // begin_ice_invoke with Callback with cookie cb = new Callback(communicator, true); cl.begin_ice_invoke("opException", Ice.OperationMode.Normal, null, cb.opException, new Cookie()); cb.check(); // begin_ice_invoke with Callback_Object_ice_invoke cb = new Callback(communicator, true); cl.begin_ice_invoke("opException", Ice.OperationMode.Normal, null).whenCompleted(cb.opExceptionNC, null); cb.check(); } output.WriteLine("ok"); return(cl); }