public void SetUp()
{
#if !NETSTANDARD1_1 && !NETSTANDARD1_3
//SerializerDebugging.TraceEnabled = true;
//SerializerDebugging.DumpEnabled = true;
if (SerializerDebugging.TraceEnabled)
{
Tracer.Emit.Listeners.Clear();
Tracer.Emit.Switch.Level = SourceLevels.All;
Tracer.Emit.Listeners.Add(new ConsoleTraceListener());
}
SerializerDebugging.DependentAssemblyManager = new TempFileDependentAssemblyManager(TestContext.CurrentContext.TestDirectory);
SerializerDebugging.DeletePastTemporaries();
SerializerDebugging.OnTheFlyCodeGenerationEnabled = true;
#if NETFX_35
SerializerDebugging.SetCodeCompiler(CodeDomCodeGeneration.Compile);
#else
SerializerDebugging.SetCodeCompiler(RoslyCodeGeneration.Compile);
#endif // NETFX_35
SerializerDebugging.DumpDirectory = TestContext.CurrentContext.TestDirectory;
SerializerDebugging.AddRuntimeAssembly(this.GetType().Assembly.Location);
if (this.GetType().Assembly != typeof(NilImplicationTestTargetForValueTypeMemberDefault).Assembly)
{
SerializerDebugging.AddRuntimeAssembly(typeof(NilImplicationTestTargetForValueTypeMemberDefault).Assembly.Location);
}
#endif // !NETSTANDARD1_1 && !NETSTANDARD1_3
}
/// <summary>
/// Packs enum value as its underlying value asynchronously.
/// </summary>
/// <param name="packer">The packer.</param>
/// <param name="enumValue">The enum value to be packed.</param>
/// <param name="cancellationToken">The token to monitor for cancellation requests. The default value is <see cref="CancellationToken.None"/>.</param>
protected internal virtual Task PackUnderlyingValueToAsync(Packer packer, TEnum enumValue, CancellationToken cancellationToken)
{
#if DEBUG
SerializerDebugging.EnsureNaiveAsyncAllowed(this);
#endif // DEBUG
return(Task.Run(() => this.PackUnderlyingValueTo(packer, enumValue), cancellationToken));
}
public void SetUp()
{
#if !NETSTANDARD1_1 && !NETSTANDARD1_3 && !NETSTANDARD1_6
//SerializerDebugging.TraceEnabled = true;
//SerializerDebugging.DumpEnabled = true;
if (SerializerDebugging.TraceEnabled)
{
Tracer.Emit.Listeners.Clear();
Tracer.Emit.Switch.Level = SourceLevels.All;
#if NETSTANDARD2_0
Tracer.Emit.Listeners.Add(new TextWriterTraceListener(Console.Out));
#else // NETSTANDRD2_0
Tracer.Emit.Listeners.Add(new ConsoleTraceListener());
#endif // NETSTANDRD2_0
}
SerializerDebugging.DependentAssemblyManager = new TempFileDependentAssemblyManager(TestContext.CurrentContext.TestDirectory);
SerializerDebugging.DeletePastTemporaries();
SerializerDebugging.OnTheFlyCodeGenerationEnabled = true;
#if NET35
SerializerDebugging.SetCodeCompiler(CodeDomCodeGeneration.Compile);
#else
SerializerDebugging.SetCodeCompiler(RoslynCodeGeneration.Compile);
#endif // NET35
SerializerDebugging.DumpDirectory = TestContext.CurrentContext.TestDirectory;
SerializerDebugging.AddRuntimeAssembly(typeof(ImmutableList).Assembly.Location);
#endif // !NETSTANDARD1_1 && !NETSTANDARD1_3 && !NETSTANDARD1_6
}
public void TearDown()
{
#if !NETSTANDARD1_1 && !NETSTANDARD1_3 && !NETSTANDARD1_6
if (SerializerDebugging.DumpEnabled && this.CanDump)
{
#if !NETSTANDARD2_0
try
{
SerializerDebugging.Dump();
}
catch (NotSupportedException ex)
{
Console.Error.WriteLine(ex);
}
finally
{
SerializationMethodGeneratorManager.Refresh();
}
#else // !NETSTANDARD2_0
SerializationMethodGeneratorManager.Refresh();
#endif // !NETSTANDARD2_0
}
SerializerDebugging.Reset();
SerializerDebugging.OnTheFlyCodeGenerationEnabled = false;
#endif // !NETSTANDARD1_1 && !NETSTANDARD1_3 && !NETSTANDARD1_6
}
public void SetUp()
{
SerializerDebugging.DeletePastTemporaries();
//SerializerDebugging.TraceEnabled = true;
//SerializerDebugging.DumpEnabled = true;
if (SerializerDebugging.TraceEnabled)
{
Tracer.Emit.Listeners.Clear();
Tracer.Emit.Switch.Level = SourceLevels.All;
Tracer.Emit.Listeners.Add(new ConsoleTraceListener());
}
SerializerDebugging.OnTheFlyCodeDomEnabled = true;
SerializerDebugging.AddRuntimeAssembly(typeof(ImmutableList).Assembly.Location);
}
public void TearDown()
{
if (SerializerDebugging.DumpEnabled)
{
try
{
SerializerDebugging.Dump();
}
finally
{
DefaultSerializationMethodGeneratorManager.Refresh();
}
}
SerializerDebugging.Reset();
SerializerDebugging.OnTheFlyCodeDomEnabled = false;
}
public void SetUp()
{
SerializerDebugging.DeletePastTemporaries();
//SerializerDebugging.TraceEnabled = true;
//SerializerDebugging.DumpEnabled = true;
if (SerializerDebugging.TraceEnabled)
{
Tracer.Emit.Listeners.Clear();
Tracer.Emit.Switch.Level = SourceLevels.All;
Tracer.Emit.Listeners.Add(new ConsoleTraceListener());
}
SerializerDebugging.OnTheFlyCodeDomEnabled = true;
SerializerDebugging.AddRuntimeAssembly(this.GetType().Assembly.Location);
if (this.GetType().Assembly != typeof(NilImplicationTestTargetForValueTypeMemberDefault).Assembly)
{
SerializerDebugging.AddRuntimeAssembly(typeof(NilImplicationTestTargetForValueTypeMemberDefault).Assembly.Location);
}
}
public void TearDown()
{
#if !NETSTANDARD1_1 && !NETSTANDARD1_3
if (SerializerDebugging.DumpEnabled)
{
try
{
SerializerDebugging.Dump();
}
finally
{
SerializationMethodGeneratorManager.Refresh();
}
}
SerializerDebugging.Reset();
SerializerDebugging.OnTheFlyCodeGenerationEnabled = false;
#endif // !NETSTANDARD1_1 && !NETSTANDARD1_3
}
public void TearDown()
{
if (SerializerDebugging.DumpEnabled && this.CanDump)
{
try
{
SerializerDebugging.Dump();
}
catch (NotSupportedException ex)
{
Console.Error.WriteLine(ex);
}
finally
{
SerializationMethodGeneratorManager.Refresh();
}
}
SerializerDebugging.Reset();
SerializerDebugging.OnTheFlyCodeDomEnabled = false;
}
public static void Compile(string code, bool isDebug, out Assembly compiledAssembly, out IList <string> errors, out IList <string> warnings)
{
var assemblyName = "CodeGenerationAssembly" + Interlocked.Increment(ref _suffix);
var assemblyPath = Path.Combine(SerializerDebugging.DumpDirectory ?? Path.GetTempPath(), assemblyName + ".dll");
using (var provider = CodeDomProvider.CreateProvider("C#"))
{
var parameters =
new CompilerParameters
{
GenerateInMemory = false,
OutputAssembly = assemblyPath
};
foreach (var assembly in SerializerDebugging.CodeSerializerDependentAssemblies)
{
parameters.ReferencedAssemblies.Add(( string )assembly);
}
var result =
provider.CompileAssemblyFromSource(
parameters,
code
);
errors = BuildCompilationError(result.Errors.OfType <CompilerError>().Where(d => !d.IsWarning));
warnings = BuildCompilationError(result.Errors.OfType <CompilerError>().Where(d => d.IsWarning));
if (!errors.Any())
{
SerializerDebugging.AddCompiledCodeAssembly(result.PathToAssembly);
compiledAssembly = result.CompiledAssembly;
}
else
{
compiledAssembly = null;
}
}
}
public void TestPerformance()
{
SerializerDebugging.OnTheFlyCodeDomEnabled = true;
SerializerDebugging.AddRuntimeAssembly(Assembly.GetExecutingAssembly().Location);
Console.WriteLine(
"Flavor\tMethod\tEnumMethod\tMin(usec,gen)\tMax(usec,gen)\tAvg(usec,gen)\tStdDiv(gen)\tMin(usec,pack)\tMax(usec,pack)\tAvg(usec,pack)\tStdDiv(usec,pack)\tMin(usec,unpack)\tMax(usec,unpack)\tAvg(usec,unpack)\tStdDiv(usec,unpack)"
);
foreach (var flavor in
new[] { EmitterFlavor.FieldBased, EmitterFlavor.ContextBased, EmitterFlavor.ExpressionBased, EmitterFlavor.CodeDomBased, EmitterFlavor.ReflectionBased })
{
foreach (var serializationMethod in new[] { SerializationMethod.Array, SerializationMethod.Map })
{
foreach (var enumSerializationMethod in new[] { EnumSerializationMethod.ByName, EnumSerializationMethod.ByUnderlyingValue })
{
var result = Test(flavor, serializationMethod, enumSerializationMethod);
Console.WriteLine(
"{0}\t{1}\t{2}\t{3}\t{4}\t{5}\t{6}\t{7}\t{8}\t{9}\t{10}\t{11}\t{12}\t{13}\t{14}",
flavor,
serializationMethod,
enumSerializationMethod,
result[0].MinElapsedTicks / 10.0,
result[0].MaxElapsedTicks / 10.0,
result[0].AverageElapsedTicks / 10.0,
result[0].StandardDeviation / 10.0,
result[1].MinElapsedTicks / 10.0,
result[1].MaxElapsedTicks / 10.0,
result[1].AverageElapsedTicks / 10.0,
result[1].StandardDeviation / 10.0,
result[2].MinElapsedTicks / 10.0,
result[2].MaxElapsedTicks / 10.0,
result[2].AverageElapsedTicks / 10.0,
result[2].StandardDeviation / 10.0
);
}
}
}
}
internal static MessagePackSerializer <T> CreateInternal <T>(SerializationContext context, PolymorphismSchema schema)
{
#if DEBUG
Contract.Ensures(Contract.Result <MessagePackSerializer <T> >() != null);
#endif // DEBUG
#if DEBUG && !AOT && !SILVERLIGHT && !NETSTANDARD1_1
SerializerDebugging.TraceEmitEvent(
"SerializationContext::CreateInternal<{0}>(@{1}, {2})",
typeof(T),
context.GetHashCode(),
schema == null ? "null" : schema.DebugString
);
#endif // DEBUG && !AOT && !SILVERLIGHT && !NETSTANDARD1_1
Type concreteType = null;
CollectionTraits collectionTraits =
#if AOT
typeof(T).GetCollectionTraits(CollectionTraitOptions.None, context.CompatibilityOptions.AllowNonCollectionEnumerableTypes);
#else
typeof(T).GetCollectionTraits(CollectionTraitOptions.Full, context.CompatibilityOptions.AllowNonCollectionEnumerableTypes);
#endif // AOT
if (typeof(T).GetIsAbstract() || typeof(T).GetIsInterface())
{
// Abstract collection types will be handled correctly.
if (collectionTraits.CollectionType != CollectionKind.NotCollection)
{
concreteType = context.DefaultCollectionTypes.GetConcreteType(typeof(T));
}
if (concreteType == null)
{
// return null for polymoirphic provider.
return(null);
}
ValidateType(concreteType);
}
else
{
ValidateType(typeof(T));
}
#if FEATURE_EMIT
ISerializerBuilder builder;
switch (context.SerializerOptions.EmitterFlavor)
{
#if !NETSTANDARD1_3
case EmitterFlavor.CodeDomBased:
{
#if DEBUG
if (!SerializerDebugging.OnTheFlyCodeGenerationEnabled)
{
throw new NotSupportedException(
String.Format(
CultureInfo.CurrentCulture,
"Flavor '{0:G}'({0:D}) is not supported for serializer instance creation.",
context.SerializerOptions.EmitterFlavor
)
);
}
builder = new CodeDomSerializerBuilder(typeof(T), collectionTraits);
break;
#else // DEBUG
throw new NotSupportedException();
#endif // DEBUG
}
#endif // !NETSTANDARD1_3
case EmitterFlavor.FieldBased:
{
builder = new AssemblyBuilderSerializerBuilder(typeof(T), collectionTraits);
break;
}
default: // EmitterFlavor.ReflectionBased
{
#endif // FEATURE_EMIT
return
(GenericSerializer.TryCreateAbstractCollectionSerializer(context, typeof(T), concreteType, schema) as MessagePackSerializer <T>
?? CreateReflectionInternal <T>(context, concreteType ?? typeof(T), schema));
#if FEATURE_EMIT
}
}
return((MessagePackSerializer <T>)builder.BuildSerializerInstance(context, concreteType, schema == null ? null : schema.FilterSelf()));
#endif // FEATURE_EMIT
}
public static void Compile(string code, bool isDebug, out Assembly compiledAssembly, out IList <string> errors, out IList <string> warnings)
{
var assemblyName = "CodeGenerationAssembly" + Interlocked.Increment(ref _suffix);
var metadataList =
SerializerDebugging.CodeSerializerDependentAssemblies.Select(
a =>
a is string
?AssemblyMetadata.CreateFromFile(a as string)
: AssemblyMetadata.CreateFromImage(a as byte[])
).ToArray();
try
{
var compilation =
CSharpCompilation.Create(
assemblyName,
new[] { CSharpSyntaxTree.ParseText(code) },
metadataList.Select(m => m.GetReference()),
new CSharpCompilationOptions(
OutputKind.DynamicallyLinkedLibrary,
optimizationLevel: isDebug?OptimizationLevel.Debug: OptimizationLevel.Release,
// Suppress CS0436 because gen/*.cs will conflict with testing serializers.
specificDiagnosticOptions: new[] { new KeyValuePair <string, ReportDiagnostic>("CS0436", ReportDiagnostic.Suppress) }
)
);
var emitOptions = new EmitOptions(runtimeMetadataVersion: "v4.0.30319");
EmitResult result;
if (SerializerDebugging.DumpEnabled)
{
var assemblyPath = Path.Combine(SerializerDebugging.DumpDirectory, assemblyName + ".dll");
using (var fileStream = File.OpenWrite(assemblyPath))
{
result = compilation.Emit(fileStream, options: emitOptions);
fileStream.Flush();
}
if (result.Success)
{
compiledAssembly = Assembly.LoadFrom(assemblyPath);
SerializerDebugging.AddCompiledCodeAssembly(assemblyPath);
}
else
{
compiledAssembly = null;
}
}
else
{
using (var buffer = new MemoryStream())
{
result = compilation.Emit(buffer, options: emitOptions);
if (result.Success)
{
var image = buffer.ToArray();
compiledAssembly = Assembly.Load(image);
SerializerDebugging.AddCompiledCodeAssembly(assemblyName, image);
}
else
{
compiledAssembly = null;
}
}
}
errors = BuildCompilationError(result.Diagnostics.Where(d => d.Severity == DiagnosticSeverity.Error));
warnings = BuildCompilationError(result.Diagnostics.Where(d => d.Severity == DiagnosticSeverity.Warning));
}
finally
{
foreach (var metadata in metadataList)
{
metadata.Dispose();
}
}
}
internal static MessagePackSerializer <T> CreateInternal <T>(SerializationContext context, PolymorphismSchema schema)
{
#if !XAMIOS && !XAMDROID && !UNITY
Contract.Ensures(Contract.Result <MessagePackSerializer <T> >() != null);
#endif // !XAMIOS && !XAMDROID && !UNITY
#if DEBUG && !UNITY && !XAMDROID && !XAMIOS
SerializerDebugging.TraceEvent(
"SerializationContext::CreateInternal<{0}>(@{1}, {2})",
typeof(T),
context.GetHashCode(),
schema == null ? "null" : schema.DebugString
);
#endif // DEBUG && !UNITY && !XAMDROID && !XAMIOS
Type concreteType = null;
if (typeof(T).GetIsAbstract() || typeof(T).GetIsInterface())
{
// Abstract collection types will be handled correctly.
if (typeof(T).GetCollectionTraits().CollectionType != CollectionKind.NotCollection)
{
concreteType = context.DefaultCollectionTypes.GetConcreteType(typeof(T));
}
if (concreteType == null)
{
// return null for polymoirphic provider.
return(null);
}
ValidateType(concreteType);
}
else
{
ValidateType(typeof(T));
}
#if !XAMIOS && !XAMDROID && !UNITY
ISerializerBuilder <T> builder;
#endif // !XAMIOS && !XAMDROID && !UNITY
#if NETFX_CORE || WINDOWS_PHONE
builder = new ExpressionTreeSerializerBuilder <T>();
#elif SILVERLIGHT
builder = new DynamicMethodSerializerBuilder <T>();
#else
#if !XAMIOS && !XAMDROID && !UNITY
switch (context.EmitterFlavor)
{
case EmitterFlavor.ReflectionBased:
{
#endif // !XAMIOS && !XAMDROID && !UNITY
return
(DefaultSerializers.GenericSerializer.TryCreateAbstractCollectionSerializer(context, typeof(T), concreteType, schema) as MessagePackSerializer <T>
?? CreateReflectionInternal <T>(context, concreteType ?? typeof(T), schema));
#if !XAMIOS && !XAMDROID && !UNITY
}
#if !WINDOWS_PHONE && !NETFX_35
case EmitterFlavor.ExpressionBased:
{
builder = new ExpressionTreeSerializerBuilder <T>();
break;
}
#endif // if !WINDOWS_PHONE && !NETFX_35
case EmitterFlavor.FieldBased:
{
builder = new AssemblyBuilderSerializerBuilder <T>();
break;
}
case EmitterFlavor.ContextBased:
{
builder = new DynamicMethodSerializerBuilder <T>();
break;
}
default:
{
#if !NETFX_35
if (!SerializerDebugging.OnTheFlyCodeDomEnabled)
{
throw new NotSupportedException(
String.Format(
CultureInfo.CurrentCulture,
"Flavor '{0:G}'({0:D}) is not supported for serializer instance creation.",
context.EmitterFlavor
)
);
}
#endif // if !NETFX_35
builder = new CodeDomSerializerBuilder <T>();
break;
}
}
#endif // !XAMIOS && !XAMDROID && !UNITY
#endif // NETFX_CORE else
#if !XAMIOS && !XAMDROID && !UNITY
return(builder.BuildSerializerInstance(context, concreteType, schema == null ? null : schema.FilterSelf()));
#endif // !XAMIOS && !XAMDROID && !UNITY
}