private void GenerateAssertPartsAreEqual(MethodGenerator g) { var expected = g.GetParameter(0); var actual = g.GetParameter(1); var assertAgs = g.GetParameter(2); foreach (var part in _def.Parts) { g.BeginScope(); { var e = g.CreateExpression(expected); var a = g.CreateExpression(actual); if (part.Member == null) { e.MakeReadOnly(); a.MakeReadOnly(); } else { e.AddMember(part.Member); a.AddMember(part.Member); } var context = new GenAssertAreEqualContext(g, part, e, a, g.CreateExpression(assertAgs)); part.GetCurrentBuilder() .GenerateAssertAreEqualPart(context); } g.EndScope(); } }
static FutureExtensions() { try { var prepForRemotingMethod = typeof(Exception).GetMethod("PrepForRemoting", BindingFlags.NonPublic | BindingFlags.Instance, null, Type.EmptyTypes, null); if (prepForRemotingMethod == null) { _prepareForRemoting = e => e; Trace.TraceWarning("Couldn't get internal method for preserving stack traces. Stack traces may not contain all necessary information."); } else { var dm = new DynamicMethod("Exception_PrepForRemotingWrapper", typeof(Exception), new[] { typeof(Exception) }, true); var g = new MethodGenerator(new MsilWriter(dm)); g.Load(g.GetParameter(0)); g.Call(prepForRemotingMethod); if (prepForRemotingMethod.ReturnType != typeof(Exception)) { g.Load(g.GetParameter(0)); } g.Return(); _prepareForRemoting = (Func <Exception, Exception>)dm.CreateDelegate(typeof(Func <Exception, Exception>)); } } catch (Exception ex) { _prepareForRemoting = e => e; Trace.TraceWarning("Couldn't construct method for preserving stack traces. Stack traces may not contain all necessary information. - " + ex); } }
public void GenerateAssertAreEqual(ICilWriter msilWriter) { var g = new MethodGenerator(msilWriter); var expected = g.GetParameter(0); var actual = g.GetParameter(1); var assertAreEqual = typeof(Assert).ResolveMethod("AreEqual", typeof(object), typeof(object)); var assertAreNotEqual = typeof(Assert).ResolveMethod("AreNotEqual", typeof(object), typeof(object)); if (_def.Type.IsValueType) { GenerateAssertPartsAreEqual(g); } else { g.If(() => { g.Load(expected); return(BinaryOperator.IsNull); }); { g.BeginCall(assertAreEqual); { g.LoadNull(); g.Load(actual); } g.EndCall(); } g.Else(); { g.BeginCall(assertAreNotEqual); { g.LoadNull(); g.Load(actual); } g.EndCall(); GenerateAssertPartsAreEqual(g); } g.EndIf(); } g.Return(); }
public void GenerateFill(ICilWriter msilWriter) { var g = new MethodGenerator(msilWriter); var instance = g.GetParameter(0); g.If(() => { g.Load(instance); return(BinaryOperator.IsNull); }); { if (_def.Type.IsAbstract) { g.BeginCall(typeof(BarfErrors).ResolveMethod("RaiseAbstractConstructionError", typeof(Type))); g.Load(_def.Type); g.EndCall(); } else { g.BeginAssign(instance); { g.NewObject(_def.Type); } g.EndAssign(); } } g.EndIf(); foreach (var part in _def.Parts) { g.BeginScope(); { var member = g.CreateExpression(instance); if (part.Member == null) { member.MakeReadOnly(); } else { member.AddMember(part.Member); } var context = new GenFillContext(g, member, part); var builder = PartResolver.Current.GetPartBuilder(part.Type, part, true); builder.GenerateFillPart(context); } g.EndScope(); } g.Return(); }
public GenFillContext(MethodGenerator generator, IExpression memberShortcut, PartDefinition part) : base(generator) { _fillArgs = generator.CreateExpression(generator.GetParameter(1)); _members.Push(memberShortcut); Part = part; NextIsNull = _fillArgs .Copy() .AddMember("NextIsNull"); NextCollectionSize = _fillArgs .Copy() .AddMember("NextCollectionSize"); }
public GenSerializeContext( MethodGenerator generator, PartDefinition part, IExpression instance) : base(generator) { ArgumentAssert.IsNotNull(generator, "generator"); ArgumentAssert.IsNotNull(part, "part"); ArgumentAssert.IsNotNull(instance, "instance"); Writer = generator.CreateExpression(generator.GetParameter(_serializationArgsIndex)).AddMember("Writer"); Instance = instance; Member = part.IsBaseType ? instance .MakeReadOnly() : instance .Copy() .AddMember(part.Member); }
/// <summary> /// Generates the body of the serialize method. /// </summary> /// <param name="msilWriter">The MSIL writer to write to.</param> public void GenerateSerializeMethod(ICilWriter msilWriter) { var g = new MethodGenerator(msilWriter); var instance = g.GetParameter(0); var args = g.GetParameter(1); if (!_def.Type.IsValueType) { g.If(() => { g.Load(instance); return(BinaryOperator.IsNull); }); { g.Load(args); // todo - call through MemberResolver g.Call(typeof(BarfSerializationArgs).GetMethod("WriteNullObject")); g.Return(); } g.EndIf(); } IVariable typeContext; MethodInfo beginMethod; MethodInfo endMethod; if (_def.IsForwardCompatible) { typeContext = g.DeclareLocal(typeof(BarfSerializationArgs.TypeContext)); beginMethod = typeof(BarfSerializationArgs).GetMethods(BindingFlags.Instance | BindingFlags.Public) .Where <MethodInfo>(m => m.Name == "BeginObject") .Where <MethodInfo>(m => { var ps = m.GetParameters(); return(ps.Length == 1 && ps[0].ParameterType.IsGenericParameter); }) .FirstOrDefault <MethodInfo>() .MakeGenericMethod(_def.Type); endMethod = typeof(BarfSerializationArgs).ResolveMethod("EndObject", typeof(BarfSerializationArgs.TypeContext)); } else { typeContext = g.DeclareLocal(typeof(long)); beginMethod = typeof(BarfSerializationArgs) .ResolveMethod("BeginObject", Type.EmptyTypes) .MakeGenericMethod(_def.Type); endMethod = typeof(BarfSerializationArgs).ResolveMethod("EndObject", typeof(long)); } g.Load(args); g.BeginCall(beginMethod); if (_def.IsForwardCompatible) { g.Load(instance); } g.EndCall(); g.Store(typeContext); foreach (var part in _def.Parts) { Trace.WriteLine("\tBuilding Serialize Part - " + part.FullName); g.BeginScope(); { var context = new GenSerializeContext(g, part, g.CreateExpression(instance)); part.GetCurrentBuilder() .GenerateSerializePart(context); } g.EndScope(); } g.Load(args); g.BeginCall(endMethod); { g.Load(typeContext); } g.EndCall(); g.Return(); }
public void GenerateInnerDeserializeMethod(ICilWriter msilWriter) { var g = new MethodGenerator(msilWriter); var instance = g.CreateExpression(g.GetParameter(0)); var args = g.CreateExpression(g.GetParameter(1)); var header = g.DeclareLocal(typeof(BarfObjectHeader)); g.BeginAssign(header); { g.Load(args); g.Call(typeof(BarfDeserializationArgs) .ResolveMethod("BeginObject") .MakeGenericMethod(_def.Type)); } g.EndAssign(); var version = g.CreateExpression(header).AddMember("Version"); g.If(() => { g.Load(header); g.LoadMember("IsNull"); return(BinaryOperator.IsTrue); }); { g.BeginAssign(instance); g.LoadNull(); g.EndAssign(); } g.Else(); { g.If(() => { g.Load(instance); return(BinaryOperator.IsNull); }); { if (_def.Type.IsAbstract) { g.BeginCall(typeof(BarfErrors).ResolveMethod("RaiseAbstractConstructionError", typeof(Type))); g.Load(_def.Type); g.EndCall(); } else { g.BeginAssign(instance); g.NewObject(instance.Type); g.EndAssign(); } } g.EndIf(); var partsByVersion = _def.Parts .GroupBy <PartDefinition, int>(part => part.Version) .OrderBy <IGrouping <int, PartDefinition>, int>(group => group.Key); int count = 0; foreach (var versionGroup in partsByVersion) { g.If(() => { g.Load(version); g.Load(versionGroup.Key); return(BinaryOperator.GreaterThanOrEqualTo); }); { foreach (var part in versionGroup) { Trace.WriteLine("\tBuilding Deserialize Part - " + part.FullName); g.BeginScope(); var context = new GenDeserializeContext(g, part, instance, args, header); part.GetCurrentBuilder() .GenerateDeserializePart(context); g.EndScope(); } } count++; } for (; count > 0; --count) { g.EndIf(); } if (_def.IsForwardCompatible) { g.If(() => { g.Load(header).LoadMember("Version"); g.Load(_def.CurrentVersion); return(BinaryOperator.GreaterThan); }); { g.Load(args); g.BeginCall(typeof(BarfDeserializationArgs) .ResolveMethod( "CaptureFutureData", new[] { _def.Type }, typeof(BarfObjectHeader), new GenericParameter(0).MakeByRefType())); { g.Load(header); g.Load(instance, LoadOptions.AnyAsAddress); } g.EndCall(); } g.EndIf(); } } g.EndIf(); g.Load(args).BeginCall(typeof(BarfDeserializationArgs) .ResolveMethod("EndObject", new[] { _def.Type }, typeof(BarfObjectHeader))); { g.Load(header); } g.EndCall(); g.Return(); }