public void NoGetter() { // Verify that we can generate code for the [NoGetter] data model. // This has a single property that only has a getter which should // be ignored by the code generator, so this should end up being // equivalent to a model with no properties. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <NoGetter>(); Assert.Equal("{}", data.ToString()); data = context.CreateDataWrapperFrom <NoGetter>(data.ToString()); Assert.Equal("{}", data.ToString()); data = context.CreateDataWrapperFrom <NoGetter>(data.JObject); Assert.Equal("{}", data.ToString()); } }
public void AllTargets() { // Verify that all types are generated when no targets // are specified. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_CustomOutput).Namespace, }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); var sourceCode = output.SourceCode; Assert.Contains("class Class1", sourceCode); Assert.Contains("class Class2", sourceCode); Assert.Contains("class Class3", sourceCode); Assert.DoesNotContain("class Class4", sourceCode); Assert.Contains("class Service1", sourceCode); Assert.Contains("class Service2", sourceCode); }
public void CustomPropertyNames() { // Vertify that [JsonProperty(PropertyName = "xxx")] works. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <CustomNamesModel>(); Assert.Equal("{\"CustomString\":null,\"CustomInt\":0}", data.ToString()); data["String"] = "Hello World!"; data["Int"] = 1001; Assert.Equal("{\"CustomString\":\"Hello World!\",\"CustomInt\":1001}", data.ToString()); data = context.CreateDataWrapperFrom <CustomNamesModel>(data.ToString()); Assert.Equal("{\"CustomString\":\"Hello World!\",\"CustomInt\":1001}", data.ToString()); } }
public void DefaultValues() { // Verify that data models with default property values are initialized correctly. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <DefaultValues>(); Assert.Equal("Joe Bloe", data["Name"]); Assert.Equal(67, data["Age"]); Assert.Equal(100000.0, data["NetWorth"]); Assert.Equal(MyEnum1.Three, (MyEnum1)data["Enum1"]); } }
public void Filter3AndClient() { // Verify that only those types tagged with [Target("3")] and [Target("client")] // are generated. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_CustomOutput).Namespace, Targets = new List <string>() { "3", "client" } }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); var sourceCode = output.SourceCode; Assert.Contains("class Class1", sourceCode); Assert.Contains("class Class2", sourceCode); Assert.Contains("class Class3", sourceCode); Assert.DoesNotContain("class Class4", sourceCode); Assert.Contains("class Service1", sourceCode); Assert.DoesNotContain("class Service2", sourceCode); }
public void SourceNamespace() { // Verify that we can filter by source namespace. // This should only generate [Class4]. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(FooBar.Class4).Namespace }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); var sourceCode = output.SourceCode; Assert.DoesNotContain("class Class1", sourceCode); Assert.DoesNotContain("class Class2", sourceCode); Assert.DoesNotContain("class Class3", sourceCode); Assert.Contains("class Class4", sourceCode); Assert.DoesNotContain("class Service1", sourceCode); Assert.DoesNotContain("class Service2", sourceCode); }
public void NullableProperties() { // NOTE: // // This test doesn't work due to apparent limitations of // the DataWrapper class an perhaps .NET itself. The problem // is related to assigning a nullable Enum value. This // fails even though I explicitly cast the value to (MyEnum1?). // // I think the problem is related to the JIT compiler doing some // magic here and effectively stripping out the cast and // just passing the non-nullable enum value and then // [DataWrapper] fails when dynamically assigning the value // to the property because the value is no longer a (MyEnum1?). // // I have verified this manually when using the generated // model classes directly. // Verify that we handle nullable property types correctly. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <NullableProperties>(); Assert.Equal("{\"Bool\":null,\"Int\":null,\"Enum\":null}", data.ToString()); data = context.CreateDataWrapperFrom <NullableProperties>(data.ToString()); Assert.Equal("{\"Bool\":null,\"Int\":null,\"Enum\":null}", data.ToString()); data["Bool"] = true; data["Int"] = 100; data["Enum"] = (MyEnum1?)MyEnum1.Two; // This throws an exception var s = data.ToString(); Assert.Equal("", data.ToString()); } }
public void EmptyPersistable() { // Verify that we can generate code for an empty persistable data model. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <EmptyPersistableData>(); Assert.Equal("{\"T$$\":\"TestModelGen.UxDataModel.EmptyPersistableData\"}", data.ToString()); data = context.CreateDataWrapperFrom <EmptyPersistableData>(data.ToString()); Assert.Equal("{\"T$$\":\"TestModelGen.UxDataModel.EmptyPersistableData\"}", data.ToString()); data = context.CreateDataWrapperFrom <EmptyPersistableData>(data.ToJObject()); Assert.Equal("{\"T$$\":\"TestModelGen.UxDataModel.EmptyPersistableData\"}", data.ToString()); //------------------------------------------------------------- // Verify Equals(): var value1 = context.CreateDataWrapperFrom <EmptyPersistableData>(data.ToJObject()); var value2 = context.CreateDataWrapperFrom <EmptyPersistableData>(data.ToJObject()); Assert.True(value1.Equals(value1)); Assert.True(value1.Equals(value2)); Assert.True(value2.Equals(value1)); Assert.False(value1.Equals(null)); Assert.False(value1.Equals("Hello World!")); } }
public void TargetNamespace() { // Verify that we can customize the output namespace. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_CustomOutput).Namespace, TargetNamespace = "Foo.Bar" }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); var sourceCode = output.SourceCode; Assert.Contains("namespace Foo.Bar", sourceCode); }
public void NotEqualsOperator() { // Verify that the generated binary "==" operator works. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var value1 = context.CreateDataWrapper <SimpleData>(); var value2 = context.CreateDataWrapper <SimpleData>(); value1["Name"] = "Jeff"; value1["Age"] = 58; value1["Enum"] = MyEnum1.One; value2["Name"] = "Jeff"; value2["Age"] = 58; value2["Enum"] = MyEnum1.One; Assert.False(DataWrapper.NotEquals <SimpleData>(value1, value1)); Assert.False(DataWrapper.NotEquals <SimpleData>(value1, value2)); Assert.True(DataWrapper.NotEquals <SimpleData>(null, value2)); Assert.True(DataWrapper.NotEquals <SimpleData>(value1, null)); value2["Name"] = "Bob"; Assert.True(DataWrapper.NotEquals <SimpleData>(value1, value2)); Assert.True(DataWrapper.NotEquals <SimpleData>(value2, value1)); } }
public async Task NoServices() { using (var runner = new ProgramRunner()) { // Verify that all types are generated when no targets // are specified. var result = await runner.ExecuteAsync(Program.Main, $"--source-namespace={typeof(Test_ModelGeneration).Namespace}", "--no-services", thisAssemblyPath); Assert.Equal(0, result.ExitCode); var sourceCode = result.OutputText; CSharpHelper.Compile(sourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); Assert.Contains("class Class1", sourceCode); Assert.Contains("class Class2", sourceCode); Assert.Contains("class Class3", sourceCode); Assert.DoesNotContain("class Service1", sourceCode); Assert.DoesNotContain("class Service2", sourceCode); } }
public void ReadOnlyCollections() { // Verify serializing read-only collection properties. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_DataModel).Namespace, }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <ReadOnlyCollectionsModel>(); data["Collection"] = new ReadOnlyCollection <string>(new List <string> { "one", "two", "three" }); data["Dictionary"] = new ReadOnlyDictionary <string, string>(new Dictionary <string, string>() { { "one", "1" } }); data = context.CreateDataWrapperFrom <ReadOnlyCollectionsModel>(data.ToString()); Assert.Equal(new List <string> { "one", "two", "three" }, data["Collection"]); Assert.Equal(new Dictionary <string, string>() { { "one", "1" } }, data["Dictionary"]); } }
public void ListOfList() { // Verify serializing a list of lists. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_DataModel).Namespace, }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <ListOfListModel>(); var list = new List <List <string> >(); list.Add(new List <string>() { "zero", "one", "two" }); list.Add(new List <string>() { "three", "four", "five" }); data["List"] = list; data = context.CreateDataWrapperFrom <ListOfListModel>(data.ToString()); Assert.Equal(list, data["List"]); } }
public void NoServices() { // Verify that we can disable service client generation. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_CustomOutput).Namespace, NoServiceClients = true }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); var sourceCode = output.SourceCode; Assert.Contains("class Class1", sourceCode); Assert.Contains("class Class2", sourceCode); Assert.Contains("class Class3", sourceCode); Assert.DoesNotContain("class Service1", sourceCode); Assert.DoesNotContain("class Service2", sourceCode); }
public void SerializationDefaults() { // Verify that we honor the [JsonProperty(DefaultValueHandling)] options. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <SerializationDefaultsModel>(); // Verify that the instance starts out with the correct // default property values. Assert.Equal("Ignore", data["Ignore"]); Assert.Equal("IgnoreAndPopulate", data["IgnoreAndPopulate"]); Assert.Equal("Include", data["Include"]); Assert.Equal("Populate", data["Populate"]); // Verify that we get the same output when serializing // the same data multple times (this wasn't working // early on). var serialized = data.ToString(); Assert.Equal(serialized, data.ToString()); Assert.Equal(serialized, data.ToString()); // Verify that defaults serialize correctly. Assert.Equal("{\"Include\":\"Include\",\"Populate\":\"Populate\"}", data.ToString()); // Verify that defaults deserialize correctly. data = context.CreateDataWrapper <SerializationDefaultsModel>(); data = context.CreateDataWrapperFrom <SerializationDefaultsModel>(data.ToString()); Assert.Equal("Ignore", data["Ignore"]); Assert.Equal("IgnoreAndPopulate", data["IgnoreAndPopulate"]); Assert.Equal("Include", data["Include"]); Assert.Equal("Populate", data["Populate"]); // Verify that non-default values serialize/desearlize correctly. data = context.CreateDataWrapper <SerializationDefaultsModel>(); data["Ignore"] = "NotIgnore"; data["IgnoreAndPopulate"] = "NotIgnoreAndPopulate"; data["Include"] = "NotInclude"; data["Populate"] = "NotPopulate"; Assert.Equal("{\"Ignore\":\"NotIgnore\",\"IgnoreAndPopulate\":\"NotIgnoreAndPopulate\",\"Include\":\"NotInclude\",\"Populate\":\"NotPopulate\"}", data.ToString()); data = context.CreateDataWrapperFrom <SerializationDefaultsModel>(data.ToString()); Assert.Equal("{\"Ignore\":\"NotIgnore\",\"IgnoreAndPopulate\":\"NotIgnoreAndPopulate\",\"Include\":\"NotInclude\",\"Populate\":\"NotPopulate\"}", data.ToString()); Assert.Equal("NotIgnore", data["Ignore"]); Assert.Equal("NotIgnoreAndPopulate", data["IgnoreAndPopulate"]); Assert.Equal("NotInclude", data["Include"]); Assert.Equal("NotPopulate", data["Populate"]); } }
public void Complex() { // Verify that we can generate code for complex data types. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <ComplexData>(); // This is going to throw a serialization exception because 0 is not a valid // [Enum2] orginal value, but that's what it will be initially set to because // we didn't use [DefaultValue]. Assert.Throws <SerializationException>(() => data.ToString()); // Set a valid [Enum2] Value and test again. data["Enum2"] = MyEnum2.Three; Assert.Equal("{\"List\":null,\"Dictionary\":null,\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":null,\"DoubleArray\":null}", data.ToString()); // Initialize the list and verify. data["List"] = new ObservableCollection <string>() { "item0", "item1" }; Assert.Equal("{\"List\":[\"item0\",\"item1\"],\"Dictionary\":null,\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":null,\"DoubleArray\":null}", data.ToString()); // Initialize the dictionary and verify. data["Dictionary"] = new Dictionary <string, int>() { { "zero", 0 }, { "one", 1 } }; Assert.Equal("{\"List\":[\"item0\",\"item1\"],\"Dictionary\":{\"zero\":0,\"one\":1},\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":null,\"DoubleArray\":null}", data.ToString()); // Initialize the one dimensional array and verify. data["SingleArray"] = new int[] { 100, 200 }; Assert.Equal("{\"List\":[\"item0\",\"item1\"],\"Dictionary\":{\"zero\":0,\"one\":1},\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":[100,200],\"DoubleArray\":null}", data.ToString()); // Initialize the two dimensional array and verify. data["DoubleArray"] = new int[][] { new int[] { 100, 200 }, new int[] { 300, 400 } }; Assert.Equal("{\"List\":[\"item0\",\"item1\"],\"Dictionary\":{\"zero\":0,\"one\":1},\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":[100,200],\"DoubleArray\":[[100,200],[300,400]]}", data.ToString()); // Verify that a property with [JsonIgnore] is not persisted. data["IgnoreThis"] = 1000; Assert.DoesNotContain("IgnoreThis", data.ToString()); //------------------------------------------------------------- // Verify Equals(): var value1 = context.CreateDataWrapperFrom <ComplexData>("{\"List\":[\"zero\"],\"Dictionary\":null,\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":null,\"DoubleArray\":null}"); var value2 = context.CreateDataWrapperFrom <ComplexData>("{\"List\":[\"zero\"],\"Dictionary\":null,\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":null,\"DoubleArray\":null}"); Assert.True(value1.Equals(value1)); Assert.True(value1.Equals(value2)); Assert.True(value2.Equals(value1)); Assert.False(value1.Equals(null)); Assert.False(value1.Equals("Hello World!")); value2 = context.CreateDataWrapperFrom <ComplexData>("{\"List\":[\"NOT-ZERO\"],\"Dictionary\":null,\"Enum1\":\"One\",\"Enum2\":\"three\",\"Simple\":null,\"SingleArray\":null,\"DoubleArray\":null}"); Assert.True(value1.Equals(value1)); Assert.False(value1.Equals(value2)); Assert.False(value2.Equals(value1)); Assert.False(value1.Equals(null)); Assert.False(value1.Equals("Hello World!")); } }
public void BasicTypes() { // Verify that we can generate code for basic data types. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <BasicTypes>(); Assert.Equal("{\"Bool\":false,\"Byte\":0,\"SByte\":0,\"Short\":0,\"UShort\":0,\"Int\":0,\"UInt\":0,\"Long\":0,\"ULong\":0,\"Float\":0.0,\"Double\":0.0,\"Decimal\":0.0,\"String\":null}", data.ToString()); data["Bool"] = true; data["Byte"] = (byte)1; data["SByte"] = (sbyte)2; data["Short"] = (short)3; data["UShort"] = (ushort)4; data["Int"] = (int)5; data["UInt"] = (uint)6; data["Long"] = (long)7; data["ULong"] = (ulong)8; data["Float"] = (float)9; data["Double"] = (double)10; data["Decimal"] = (decimal)11; data["String"] = "12"; Assert.Equal("{\"Bool\":true,\"Byte\":1,\"SByte\":2,\"Short\":3,\"UShort\":4,\"Int\":5,\"UInt\":6,\"Long\":7,\"ULong\":8,\"Float\":9.0,\"Double\":10.0,\"Decimal\":11.0,\"String\":\"12\"}", data.ToString()); var jsonText = data.ToString(indented: false); data = context.CreateDataWrapperFrom <BasicTypes>(jsonText); Assert.Equal("{\"Bool\":true,\"Byte\":1,\"SByte\":2,\"Short\":3,\"UShort\":4,\"Int\":5,\"UInt\":6,\"Long\":7,\"ULong\":8,\"Float\":9.0,\"Double\":10.0,\"Decimal\":11.0,\"String\":\"12\"}", data.ToString()); jsonText = data.ToString(indented: true); data = context.CreateDataWrapperFrom <BasicTypes>(jsonText); Assert.Equal("{\"Bool\":true,\"Byte\":1,\"SByte\":2,\"Short\":3,\"UShort\":4,\"Int\":5,\"UInt\":6,\"Long\":7,\"ULong\":8,\"Float\":9.0,\"Double\":10.0,\"Decimal\":11.0,\"String\":\"12\"}", data.ToString()); //------------------------------------------------------------- // Verify Equals(): var value1 = context.CreateDataWrapperFrom <BasicTypes>("{\"Bool\":true,\"Byte\":1,\"SByte\":2,\"Short\":3,\"UShort\":4,\"Int\":5,\"UInt\":6,\"Long\":7,\"ULong\":8,\"Float\":9.0,\"Double\":10.0,\"Decimal\":11.0,\"String\":\"12\"}"); var value2 = context.CreateDataWrapperFrom <BasicTypes>("{\"Bool\":true,\"Byte\":1,\"SByte\":2,\"Short\":3,\"UShort\":4,\"Int\":5,\"UInt\":6,\"Long\":7,\"ULong\":8,\"Float\":9.0,\"Double\":10.0,\"Decimal\":11.0,\"String\":\"12\"}"); Assert.True(value1.Equals(value1)); Assert.True(value1.Equals(value2)); Assert.True(value2.Equals(value1)); Assert.False(value1.Equals(null)); Assert.False(value1.Equals("Hello World!")); value2["String"] = "Bob"; Assert.True(value1.Equals(value1)); Assert.False(value1.Equals(value2)); Assert.False(value2.Equals(value1)); Assert.False(value1.Equals(null)); Assert.False(value1.Equals("Hello World!")); } }
public void HashCode() { // Verify that GetHashCode() works. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { // Verify that we see a [InvalidOperationException] when computing a hash // on a data model with no properties tagged by [HashSource]. var emptyData = context.CreateDataWrapper <EmptyData>(); Assert.Throws <InvalidOperationException>(() => emptyData.GetHashCode()); // Verify that we compute HASH=0 for a data model with a // single tagged parameter set to NULL. var baseData = context.CreateDataWrapper <BaseModel>(); Assert.Equal(0, baseData.GetHashCode()); // Verify that we compute a non-zero HASH for a data model with a // single tagged parameter set to to a value. baseData = context.CreateDataWrapper <BaseModel>(); baseData["ParentProperty"] = "Hello World!"; Assert.NotEqual(0, baseData.GetHashCode()); // Verify that we can compute a HASH code for a derived class // and that the hash includes properties from both the derived // and parent classes. var derivedData = context.CreateDataWrapper <DerivedModel>(); derivedData["ChildProperty"] = "Goodbye World!"; var derivedCode1 = derivedData.GetHashCode(); Assert.NotEqual(0, derivedCode1); derivedData["ParentProperty"] = "Hello World!"; var derivedCode2 = derivedData.GetHashCode(); Assert.NotEqual(0, derivedCode2); Assert.NotEqual(derivedCode1, derivedCode2); // Verify that we can compute hash codes for models // with multiple hash source properties. var defaultValues = context.CreateDataWrapper <DefaultValues>(); defaultValues["Name"] = null; defaultValues["Age"] = 0; Assert.Equal(0, defaultValues.GetHashCode()); defaultValues["Name"] = "JoeBob"; defaultValues["Age"] = 0; Assert.Equal("JoeBob".GetHashCode(), defaultValues.GetHashCode()); defaultValues["Name"] = null; defaultValues["Age"] = 67; Assert.Equal(67.GetHashCode(), defaultValues.GetHashCode()); defaultValues["Name"] = "JoeBob"; defaultValues["Age"] = 67; Assert.Equal(67.GetHashCode() ^ "JoeBob".GetHashCode(), defaultValues.GetHashCode()); } }
public void Simple() { // Verify that we can generate code for a simple data model. var settings = new ModelGeneratorSettings() { SourceNamespace = typeof(Test_UxDataModel).Namespace, UxFramework = UxFrameworks.Xaml }; var generator = new ModelGenerator(settings); var output = generator.Generate(Assembly.GetExecutingAssembly()); Assert.False(output.HasErrors); var assemblyStream = CSharpHelper.Compile(output.SourceCode, "test-assembly", references => ModelGenTestHelper.ReferenceHandler(references)); using (var context = new AssemblyContext("Neon.ModelGen.Output", assemblyStream)) { var data = context.CreateDataWrapper <SimpleData>(); Assert.Equal("{\"Name\":null,\"Age\":0,\"Enum\":\"One\"}", data.ToString()); Assert.Equal("{\r\n \"Name\": null,\r\n \"Age\": 0,\r\n \"Enum\": \"One\"\r\n}", data.ToString(indented: true)); data = context.CreateDataWrapper <SimpleData>(); data["Name"] = "Jeff"; data["Age"] = 58; data["Enum"] = MyEnum1.Two; Assert.Equal("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}", data.ToString()); data = context.CreateDataWrapperFrom <SimpleData>("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}"); data["Name"] = "Jeff"; data["Age"] = 58; data["Enum"] = MyEnum1.Two; Assert.Equal("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}", data.ToString()); var jObject = data.ToJObject(); data = context.CreateDataWrapperFrom <SimpleData>(jObject); data["Name"] = "Jeff"; data["Age"] = 58; data["Enum"] = MyEnum1.Two; Assert.Equal("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}", data.ToString()); var jsonText = data.ToString(indented: false); data = context.CreateDataWrapperFrom <SimpleData>(jsonText); data["Name"] = "Jeff"; data["Age"] = 58; data["Enum"] = MyEnum1.Two; Assert.Equal("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}", data.ToString()); jsonText = data.ToString(indented: true); data = context.CreateDataWrapperFrom <SimpleData>(jsonText); data["Name"] = "Jeff"; data["Age"] = 58; data["Enum"] = MyEnum1.Two; Assert.Equal("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}", data.ToString()); //------------------------------------------------------------- // Verify Equals(): var value1 = context.CreateDataWrapperFrom <SimpleData>("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}"); var value2 = context.CreateDataWrapperFrom <SimpleData>("{\"Name\":\"Jeff\",\"Age\":58,\"Enum\":\"Two\"}"); Assert.True(value1.Equals(value1)); Assert.True(value1.Equals(value2)); Assert.True(value2.Equals(value1)); Assert.False(value1.Equals(null)); Assert.False(value1.Equals("Hello World!")); value2["Name"] = "Bob"; Assert.True(value1.Equals(value1)); Assert.False(value1.Equals(value2)); Assert.False(value2.Equals(value1)); Assert.False(value1.Equals(null)); Assert.False(value1.Equals("Hello World!")); //------------------------------------------------------------- // Verify FromBytes() and ToBytes() var newValue1 = context.CreateDataWrapperFrom <SimpleData>(value1.ToBytes()); var newValue2 = context.CreateDataWrapperFrom <SimpleData>(value2.ToBytes()); Assert.True(value1.Equals(newValue1)); Assert.True(value2.Equals(newValue2)); } }