// Token: 0x0600529B RID: 21147 RVA: 0x0012227C File Offset: 0x0012047C internal static void WriteStringWithCode(string value, __BinaryWriter sout) { if (value == null) { sout.WriteByte(17); return; } sout.WriteByte(18); sout.WriteString(value); }
// Token: 0x060052A8 RID: 21160 RVA: 0x00122428 File Offset: 0x00120628 public void Write(__BinaryWriter sout) { this.majorVersion = this.binaryFormatterMajorVersion; this.minorVersion = this.binaryFormatterMinorVersion; sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.topId); sout.WriteInt32(this.headerId); sout.WriteInt32(this.binaryFormatterMajorVersion); sout.WriteInt32(this.binaryFormatterMinorVersion); }
private void Write(WriteObjectInfo objectInfo, NameInfo memberNameInfo, NameInfo typeNameInfo, string[] memberNames, Type[] memberTypes, object[] memberData, WriteObjectInfo[] memberObjectInfos) { int length = memberNames.Length; NameInfo nameInfo1 = (NameInfo)null; if (memberNameInfo != null) { memberNameInfo.NIobjectId = objectInfo.objectId; this.serWriter.WriteObject(memberNameInfo, typeNameInfo, length, memberNames, memberTypes, memberObjectInfos); } else if (objectInfo.objectId == this.topId && this.topName != null) { nameInfo1 = this.MemberToNameInfo(this.topName); nameInfo1.NIobjectId = objectInfo.objectId; this.serWriter.WriteObject(nameInfo1, typeNameInfo, length, memberNames, memberTypes, memberObjectInfos); } else if (objectInfo.objectType != Converter.typeofString) { typeNameInfo.NIobjectId = objectInfo.objectId; this.serWriter.WriteObject(typeNameInfo, (NameInfo)null, length, memberNames, memberTypes, memberObjectInfos); } if (memberNameInfo.NIisParentTypeOnObject) { memberNameInfo.NItransmitTypeOnObject = true; memberNameInfo.NIisParentTypeOnObject = false; } else { memberNameInfo.NItransmitTypeOnObject = false; } for (int index = 0; index < length; ++index) { this.WriteMemberSetup(objectInfo, memberNameInfo, typeNameInfo, memberNames[index], memberTypes[index], memberData[index], memberObjectInfos[index]); } if (memberNameInfo != null) { memberNameInfo.NIobjectId = objectInfo.objectId; this.serWriter.WriteObjectEnd(memberNameInfo, typeNameInfo); } else if (objectInfo.objectId == this.topId && this.topName != null) { this.serWriter.WriteObjectEnd(nameInfo1, typeNameInfo); this.PutNameInfo(nameInfo1); } else { if (objectInfo.objectType == Converter.typeofString) { return; } __BinaryWriter binaryWriter = this.serWriter; NameInfo nameInfo2 = typeNameInfo; binaryWriter.WriteObjectEnd(nameInfo2, nameInfo2); } }
internal static void WriteStringWithCode(string value, __BinaryWriter sout) { if (value == null) { sout.WriteByte(0x11); } else { sout.WriteByte(0x12); sout.WriteString(value); } }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte) this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteString(this.name); sout.WriteInt32(this.numMembers); for (int i = 0; i < this.numMembers; i++) { sout.WriteString(this.memberNames[i]); } if (this.assemId > 0) { sout.WriteInt32(this.assemId); } }
internal void Serialize(Stream serializationStream, object graph, Header[] headers, bool fCheck) { if (serializationStream == null) { throw new ArgumentNullException("serializationStream", Environment.GetResourceString("ArgumentNull_WithParamName", (object)serializationStream)); } ObjectWriter objectWriter = new ObjectWriter(this.m_surrogates, this.m_context, new InternalFE() { FEtypeFormat = this.m_typeFormat, FEserializerTypeEnum = InternalSerializerTypeE.Binary, FEassemblyFormat = this.m_assemblyFormat }, this.m_binder); __BinaryWriter serWriter = new __BinaryWriter(serializationStream, objectWriter, this.m_typeFormat); objectWriter.Serialize(graph, headers, serWriter, fCheck); this.m_crossAppDomainArray = objectWriter.crossAppDomainArray; }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteString(this.name); sout.WriteInt32(this.numMembers); for (int i = 0; i < this.numMembers; i++) { sout.WriteString(this.memberNames[i]); } if (this.assemId > 0) { sout.WriteInt32(this.assemId); } }
// Token: 0x06005303 RID: 21251 RVA: 0x00123C0C File Offset: 0x00121E0C public void Write(__BinaryWriter sout) { if (this.nullCount == 1) { sout.WriteByte(10); return; } if (this.nullCount < 256) { sout.WriteByte(13); sout.WriteByte((byte)this.nullCount); return; } sout.WriteByte(14); sout.WriteInt32(this.nullCount); }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteString(this.name); sout.WriteInt32(this.numMembers); for (int index = 0; index < this.numMembers; ++index) { sout.WriteString(this.memberNames[index]); } if (this.assemId <= 0) { return; } sout.WriteInt32(this.assemId); }
internal static void WriteWithCode(Type type, object value, __BinaryWriter sout) { if (type == null) { sout.WriteByte(0x11); } else if (object.ReferenceEquals(type, Converter.typeofString)) { WriteStringWithCode((string) value, sout); } else { InternalPrimitiveTypeE code = Converter.ToCode(type); sout.WriteByte((byte) code); sout.WriteValue(code, value); } }
public void Write(__BinaryWriter sout) { if (this.nullCount == 1) { sout.WriteByte((byte)10); } else if (this.nullCount < 256) { sout.WriteByte((byte)13); sout.WriteByte((byte)this.nullCount); } else { sout.WriteByte((byte)14); sout.WriteInt32(this.nullCount); } }
public void Write(__BinaryWriter sout) { if (this.nullCount == 1) { sout.WriteByte(10); } else if (this.nullCount < 0x100) { sout.WriteByte(13); sout.WriteByte((byte) this.nullCount); } else { sout.WriteByte(14); sout.WriteInt32(this.nullCount); } }
// Token: 0x0600529C RID: 21148 RVA: 0x0012229C File Offset: 0x0012049C internal static void WriteWithCode(Type type, object value, __BinaryWriter sout) { if (type == null) { sout.WriteByte(17); return; } if (type == Converter.typeofString) { IOUtil.WriteStringWithCode((string)value, sout); return; } InternalPrimitiveTypeE internalPrimitiveTypeE = Converter.ToCode(type); sout.WriteByte((byte)internalPrimitiveTypeE); sout.WriteValue(internalPrimitiveTypeE, value); }
internal static void WriteWithCode(Type type, object value, __BinaryWriter sout) { if (type == null) { sout.WriteByte(0x11); } else if (object.ReferenceEquals(type, Converter.typeofString)) { WriteStringWithCode((string)value, sout); } else { InternalPrimitiveTypeE code = Converter.ToCode(type); sout.WriteByte((byte)code); sout.WriteValue(code, value); } }
// Token: 0x060052F2 RID: 21234 RVA: 0x001237E4 File Offset: 0x001219E4 public void Write(__BinaryWriter sout) { switch (this.binaryHeaderEnum) { case BinaryHeaderEnum.ArraySinglePrimitive: sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteInt32(this.lengthA[0]); sout.WriteByte((byte)((InternalPrimitiveTypeE)this.typeInformation)); return; case BinaryHeaderEnum.ArraySingleObject: sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteInt32(this.lengthA[0]); return; case BinaryHeaderEnum.ArraySingleString: sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteInt32(this.lengthA[0]); return; default: sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteByte((byte)this.binaryArrayTypeEnum); sout.WriteInt32(this.rank); for (int i = 0; i < this.rank; i++) { sout.WriteInt32(this.lengthA[i]); } if (this.binaryArrayTypeEnum == BinaryArrayTypeEnum.SingleOffset || this.binaryArrayTypeEnum == BinaryArrayTypeEnum.JaggedOffset || this.binaryArrayTypeEnum == BinaryArrayTypeEnum.RectangularOffset) { for (int j = 0; j < this.rank; j++) { sout.WriteInt32(this.lowerBoundA[j]); } } sout.WriteByte((byte)this.binaryTypeEnum); BinaryConverter.WriteTypeInfo(this.binaryTypeEnum, this.typeInformation, this.assemId, sout); return; } }
// Commences the process of serializing the entire graph. All of the data (in the appropriate format // is emitted onto the stream). internal void Serialize(Stream serializationStream, Object graph, Header[] headers, bool fCheck) { if (serializationStream == null) { throw new ArgumentNullException("serializationStream", String.Format(Environment.GetResourceString("ArgumentNull_WithParamName"), serializationStream)); } SerTrace.Log(this, "Serialize Entry"); InternalFE formatterEnums = new InternalFE(); formatterEnums.FEtypeFormat = m_typeFormat; formatterEnums.FEserializerTypeEnum = InternalSerializerTypeE.Binary; formatterEnums.FEassemblyFormat = m_assemblyFormat; ObjectWriter sow = new ObjectWriter(serializationStream, m_surrogates, m_context, formatterEnums); __BinaryWriter binaryWriter = new __BinaryWriter(serializationStream, sow, m_typeFormat); sow.Serialize(graph, headers, binaryWriter, fCheck); m_crossAppDomainArray = sow.crossAppDomainArray; }
// Token: 0x060052BF RID: 21183 RVA: 0x001228C8 File Offset: 0x00120AC8 internal void Write(__BinaryWriter sout) { sout.WriteByte(21); sout.WriteInt32((int)this.messageEnum); IOUtil.WriteStringWithCode(this.methodName, sout); IOUtil.WriteStringWithCode(this.typeName, sout); if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ContextInline)) { IOUtil.WriteStringWithCode((string)this.callContext, sout); } if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ArgsInline)) { sout.WriteInt32(this.args.Length); for (int i = 0; i < this.args.Length; i++) { IOUtil.WriteWithCode(this.argTypes[i], this.args[i], sout); } } }
// Token: 0x060052C8 RID: 21192 RVA: 0x00122EBC File Offset: 0x001210BC public void Write(__BinaryWriter sout) { sout.WriteByte(22); sout.WriteInt32((int)this.messageEnum); if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ReturnValueInline)) { IOUtil.WriteWithCode(this.returnType, this.returnValue, sout); } if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ContextInline)) { IOUtil.WriteStringWithCode((string)this.callContext, sout); } if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ArgsInline)) { sout.WriteInt32(this.args.Length); for (int i = 0; i < this.args.Length; i++) { IOUtil.WriteWithCode(this.argTypes[i], this.args[i], sout); } } }
// Token: 0x060052ED RID: 21229 RVA: 0x00123558 File Offset: 0x00121758 public void Write(__BinaryWriter sout) { sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteString(this.name); sout.WriteInt32(this.numMembers); for (int i = 0; i < this.numMembers; i++) { sout.WriteString(this.memberNames[i]); } for (int j = 0; j < this.numMembers; j++) { sout.WriteByte((byte)this.binaryTypeEnumA[j]); } for (int k = 0; k < this.numMembers; k++) { BinaryConverter.WriteTypeInfo(this.binaryTypeEnumA[k], this.typeInformationA[k], this.memberAssemIds[k], sout); } if (this.assemId > 0) { sout.WriteInt32(this.assemId); } }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte) this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteString(this.name); sout.WriteInt32(this.numMembers); for (int i = 0; i < this.numMembers; i++) { sout.WriteString(this.memberNames[i]); } for (int j = 0; j < this.numMembers; j++) { sout.WriteByte((byte) this.binaryTypeEnumA[j]); } for (int k = 0; k < this.numMembers; k++) { BinaryConverter.WriteTypeInfo(this.binaryTypeEnumA[k], this.typeInformationA[k], this.memberAssemIds[k], sout); } if (this.assemId > 0) { sout.WriteInt32(this.assemId); } }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte)this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteString(this.name); sout.WriteInt32(this.numMembers); for (int index = 0; index < this.numMembers; ++index) { sout.WriteString(this.memberNames[index]); } for (int index = 0; index < this.numMembers; ++index) { sout.WriteByte((byte)this.binaryTypeEnumA[index]); } for (int index = 0; index < this.numMembers; ++index) { BinaryConverter.WriteTypeInfo(this.binaryTypeEnumA[index], this.typeInformationA[index], this.memberAssemIds[index], sout); } if (this.assemId <= 0) { return; } sout.WriteInt32(this.assemId); }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte)6); sout.WriteInt32(this.objectId); sout.WriteString(this.value); }
internal void Serialize(object graph, Header[] inHeaders, __BinaryWriter serWriter, bool fCheck) { if (graph == null) { throw new ArgumentNullException("graph", Environment.GetResourceString("ArgumentNull_Graph")); } if (serWriter == null) { throw new ArgumentNullException("serWriter", Environment.GetResourceString("ArgumentNull_WithParamName", (object)"serWriter")); } if (fCheck) { CodeAccessPermission.Demand(PermissionType.SecuritySerialization); } this.serWriter = serWriter; this.headers = inHeaders; serWriter.WriteBegin(); long headerId = 0; bool flag1 = false; bool flag2 = false; IMethodCallMessage mcm = graph as IMethodCallMessage; if (mcm != null) { flag1 = true; graph = (object)this.WriteMethodCall(mcm); } else { IMethodReturnMessage mrm = graph as IMethodReturnMessage; if (mrm != null) { flag2 = true; graph = (object)this.WriteMethodReturn(mrm); } } if (graph == null) { this.WriteSerializedStreamHeader(this.topId, headerId); if (flag1) { serWriter.WriteMethodCall(); } else if (flag2) { serWriter.WriteMethodReturn(); } serWriter.WriteSerializationHeaderEnd(); serWriter.WriteEnd(); } else { this.m_idGenerator = new ObjectIDGenerator(); this.m_objectQueue = new Queue(); this.m_formatterConverter = (IFormatterConverter) new FormatterConverter(); this.serObjectInfoInit = new SerObjectInfoInit(); bool isNew; this.topId = this.InternalGetId(graph, false, (Type)null, out isNew); this.WriteSerializedStreamHeader(this.topId, this.headers == null ? -1L : this.InternalGetId((object)this.headers, false, (Type)null, out isNew)); if (flag1) { serWriter.WriteMethodCall(); } else if (flag2) { serWriter.WriteMethodReturn(); } if (this.headers != null && this.headers.Length != 0) { this.m_objectQueue.Enqueue((object)this.headers); } if (graph != null) { this.m_objectQueue.Enqueue(graph); } object next; long objID; while ((next = this.GetNext(out objID)) != null) { WriteObjectInfo objectInfo1; if (next is WriteObjectInfo) { objectInfo1 = (WriteObjectInfo)next; } else { objectInfo1 = WriteObjectInfo.Serialize(next, this.m_surrogates, this.m_context, this.serObjectInfoInit, this.m_formatterConverter, this, this.m_binder); objectInfo1.assemId = this.GetAssemblyId(objectInfo1); } objectInfo1.objectId = objID; NameInfo nameInfo1 = this.TypeToNameInfo(objectInfo1); WriteObjectInfo objectInfo2 = objectInfo1; NameInfo nameInfo2 = nameInfo1; this.Write(objectInfo2, nameInfo2, nameInfo2); this.PutNameInfo(nameInfo1); objectInfo1.ObjectEnd(); } serWriter.WriteSerializationHeaderEnd(); serWriter.WriteEnd(); this.m_objectManager.RaiseOnSerializedEvent(); } }
internal void Serialize(object graph, Header[] inHeaders, __BinaryWriter serWriter, bool fCheck) { if (graph == null) { throw new ArgumentNullException("graph", Environment.GetResourceString("ArgumentNull_Graph")); } if (serWriter == null) { throw new ArgumentNullException("serWriter", Environment.GetResourceString("ArgumentNull_WithParamName", new object[] { "serWriter" })); } if (fCheck) { CodeAccessPermission.Demand(PermissionType.SecuritySerialization); } this.serWriter = serWriter; this.headers = inHeaders; serWriter.WriteBegin(); long headerId = 0L; bool flag2 = false; bool flag3 = false; IMethodCallMessage mcm = graph as IMethodCallMessage; if (mcm != null) { flag2 = true; graph = this.WriteMethodCall(mcm); } else { IMethodReturnMessage mrm = graph as IMethodReturnMessage; if (mrm != null) { flag3 = true; graph = this.WriteMethodReturn(mrm); } } if (graph == null) { this.WriteSerializedStreamHeader(this.topId, headerId); if (flag2) { serWriter.WriteMethodCall(); } else if (flag3) { serWriter.WriteMethodReturn(); } serWriter.WriteSerializationHeaderEnd(); serWriter.WriteEnd(); } else { object obj2; long num2; bool flag; this.m_idGenerator = new ObjectIDGenerator(); this.m_objectQueue = new Queue(); this.m_formatterConverter = new FormatterConverter(); this.serObjectInfoInit = new SerObjectInfoInit(); this.topId = this.InternalGetId(graph, false, null, out flag); if (this.headers != null) { headerId = this.InternalGetId(this.headers, false, null, out flag); } else { headerId = -1L; } this.WriteSerializedStreamHeader(this.topId, headerId); if (flag2) { serWriter.WriteMethodCall(); } else if (flag3) { serWriter.WriteMethodReturn(); } if ((this.headers != null) && (this.headers.Length > 0)) { this.m_objectQueue.Enqueue(this.headers); } if (graph != null) { this.m_objectQueue.Enqueue(graph); } while ((obj2 = this.GetNext(out num2)) != null) { WriteObjectInfo objectInfo = null; if (obj2 is WriteObjectInfo) { objectInfo = (WriteObjectInfo) obj2; } else { objectInfo = WriteObjectInfo.Serialize(obj2, this.m_surrogates, this.m_context, this.serObjectInfoInit, this.m_formatterConverter, this, this.m_binder); objectInfo.assemId = this.GetAssemblyId(objectInfo); } objectInfo.objectId = num2; NameInfo memberNameInfo = this.TypeToNameInfo(objectInfo); this.Write(objectInfo, memberNameInfo, memberNameInfo); this.PutNameInfo(memberNameInfo); objectInfo.ObjectEnd(); } serWriter.WriteSerializationHeaderEnd(); serWriter.WriteEnd(); this.m_objectManager.RaiseOnSerializedEvent(); } }
public void Write(__BinaryWriter sout) { sout.WriteByte(0x12); sout.WriteInt32(this.crossAppDomainArrayIndex); }
public void Write(__BinaryWriter sout) { sout.WriteByte(0x13); sout.WriteInt32(this.objectId); sout.WriteInt32(this.value); }
public void Write(__BinaryWriter sout) { sout.WriteByte(8); sout.WriteByte((byte) this.primitiveTypeEnum); sout.WriteValue(this.primitiveTypeEnum, this.value); }
// Token: 0x060052FD RID: 21245 RVA: 0x00123BC6 File Offset: 0x00121DC6 public void Write(__BinaryWriter sout) { sout.WriteByte(9); sout.WriteInt32(this.idRef); }
internal static void WriteTypeInfo(BinaryTypeEnum binaryTypeEnum, object typeInformation, int assemId, __BinaryWriter sout) { switch (binaryTypeEnum) { case BinaryTypeEnum.Primitive: case BinaryTypeEnum.PrimitiveArray: sout.WriteByte((byte) ((InternalPrimitiveTypeE) typeInformation)); return; case BinaryTypeEnum.String: case BinaryTypeEnum.Object: case BinaryTypeEnum.ObjectArray: case BinaryTypeEnum.StringArray: return; case BinaryTypeEnum.ObjectUrt: sout.WriteString(typeInformation.ToString()); return; case BinaryTypeEnum.ObjectUser: sout.WriteString(typeInformation.ToString()); sout.WriteInt32(assemId); return; } throw new SerializationException(Environment.GetResourceString("Serialization_TypeWrite", new object[] { binaryTypeEnum.ToString() })); }
// Token: 0x060052DF RID: 21215 RVA: 0x0012330E File Offset: 0x0012150E public void Write(__BinaryWriter sout) { sout.WriteByte(8); sout.WriteByte((byte)this.primitiveTypeEnum); sout.WriteValue(this.primitiveTypeEnum, this.value); }
public void Write(__BinaryWriter sout) { sout.WriteValue(this.typeInformation, this.value); }
// Token: 0x060052B4 RID: 21172 RVA: 0x001225B4 File Offset: 0x001207B4 public void Write(__BinaryWriter sout) { sout.WriteByte(20); sout.WriteInt32(this.assemId); sout.WriteInt32(this.assemblyIndex); }
public void Write(__BinaryWriter sout) { sout.WriteByte(20); sout.WriteInt32(this.assemId); sout.WriteInt32(this.assemblyIndex); }
public void Write(__BinaryWriter sout) { sout.WriteByte(12); sout.WriteInt32(this.assemId); sout.WriteString(this.assemblyString); }
public void Write(__BinaryWriter sout) { switch (this.binaryHeaderEnum) { case BinaryHeaderEnum.ArraySinglePrimitive: sout.WriteByte((byte) this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteInt32(this.lengthA[0]); sout.WriteByte((byte) ((InternalPrimitiveTypeE) this.typeInformation)); return; case BinaryHeaderEnum.ArraySingleObject: sout.WriteByte((byte) this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteInt32(this.lengthA[0]); return; case BinaryHeaderEnum.ArraySingleString: sout.WriteByte((byte) this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteInt32(this.lengthA[0]); return; } sout.WriteByte((byte) this.binaryHeaderEnum); sout.WriteInt32(this.objectId); sout.WriteByte((byte) this.binaryArrayTypeEnum); sout.WriteInt32(this.rank); for (int i = 0; i < this.rank; i++) { sout.WriteInt32(this.lengthA[i]); } if (((this.binaryArrayTypeEnum == BinaryArrayTypeEnum.SingleOffset) || (this.binaryArrayTypeEnum == BinaryArrayTypeEnum.JaggedOffset)) || (this.binaryArrayTypeEnum == BinaryArrayTypeEnum.RectangularOffset)) { for (int j = 0; j < this.rank; j++) { sout.WriteInt32(this.lowerBoundA[j]); } } sout.WriteByte((byte) this.binaryTypeEnum); BinaryConverter.WriteTypeInfo(this.binaryTypeEnum, this.typeInformation, this.assemId, sout); }
internal void Serialize(object graph, Header[] inHeaders, __BinaryWriter serWriter, bool fCheck) { if (graph == null) { throw new ArgumentNullException("graph", Environment.GetResourceString("ArgumentNull_Graph")); } if (serWriter == null) { throw new ArgumentNullException("serWriter", Environment.GetResourceString("ArgumentNull_WithParamName", new object[] { "serWriter" })); } if (fCheck) { CodeAccessPermission.Demand(PermissionType.SecuritySerialization); } this.serWriter = serWriter; this.headers = inHeaders; serWriter.WriteBegin(); long headerId = 0L; bool flag2 = false; bool flag3 = false; IMethodCallMessage mcm = graph as IMethodCallMessage; if (mcm != null) { flag2 = true; graph = this.WriteMethodCall(mcm); } else { IMethodReturnMessage mrm = graph as IMethodReturnMessage; if (mrm != null) { flag3 = true; graph = this.WriteMethodReturn(mrm); } } if (graph == null) { this.WriteSerializedStreamHeader(this.topId, headerId); if (flag2) { serWriter.WriteMethodCall(); } else if (flag3) { serWriter.WriteMethodReturn(); } serWriter.WriteSerializationHeaderEnd(); serWriter.WriteEnd(); } else { object obj2; long num2; bool flag; this.m_idGenerator = new ObjectIDGenerator(); this.m_objectQueue = new Queue(); this.m_formatterConverter = new FormatterConverter(); this.serObjectInfoInit = new SerObjectInfoInit(); this.topId = this.InternalGetId(graph, false, null, out flag); if (this.headers != null) { headerId = this.InternalGetId(this.headers, false, null, out flag); } else { headerId = -1L; } this.WriteSerializedStreamHeader(this.topId, headerId); if (flag2) { serWriter.WriteMethodCall(); } else if (flag3) { serWriter.WriteMethodReturn(); } if ((this.headers != null) && (this.headers.Length > 0)) { this.m_objectQueue.Enqueue(this.headers); } if (graph != null) { this.m_objectQueue.Enqueue(graph); } while ((obj2 = this.GetNext(out num2)) != null) { WriteObjectInfo objectInfo = null; if (obj2 is WriteObjectInfo) { objectInfo = (WriteObjectInfo)obj2; } else { objectInfo = WriteObjectInfo.Serialize(obj2, this.m_surrogates, this.m_context, this.serObjectInfoInit, this.m_formatterConverter, this, this.m_binder); objectInfo.assemId = this.GetAssemblyId(objectInfo); } objectInfo.objectId = num2; NameInfo memberNameInfo = this.TypeToNameInfo(objectInfo); this.Write(objectInfo, memberNameInfo, memberNameInfo); this.PutNameInfo(memberNameInfo); objectInfo.ObjectEnd(); } serWriter.WriteSerializationHeaderEnd(); serWriter.WriteEnd(); this.m_objectManager.RaiseOnSerializedEvent(); } }
public void Write(__BinaryWriter sout) { sout.WriteByte(0x16); sout.WriteInt32((int) this.messageEnum); if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ReturnValueInline)) { IOUtil.WriteWithCode(this.returnType, this.returnValue, sout); } if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ContextInline)) { IOUtil.WriteStringWithCode((string) this.callContext, sout); } if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ArgsInline)) { sout.WriteInt32(this.args.Length); for (int i = 0; i < this.args.Length; i++) { IOUtil.WriteWithCode(this.argTypes[i], this.args[i], sout); } } }
public void Write(__BinaryWriter sout) { sout.WriteByte(1); sout.WriteInt32(this.objectId); sout.WriteInt32(this.mapId); }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte)1); sout.WriteInt32(this.objectId); sout.WriteInt32(this.mapId); }
// Token: 0x060052F7 RID: 21239 RVA: 0x00123B64 File Offset: 0x00121D64 public void Write(__BinaryWriter sout) { sout.WriteValue(this.typeInformation, this.value); }
internal static void WriteTypeInfo(BinaryTypeEnum binaryTypeEnum, object typeInformation, int assemId, __BinaryWriter sout) { switch (binaryTypeEnum) { case BinaryTypeEnum.Primitive: case BinaryTypeEnum.PrimitiveArray: sout.WriteByte((byte)(InternalPrimitiveTypeE)typeInformation); break; case BinaryTypeEnum.String: break; case BinaryTypeEnum.Object: break; case BinaryTypeEnum.ObjectUrt: sout.WriteString(typeInformation.ToString()); break; case BinaryTypeEnum.ObjectUser: sout.WriteString(typeInformation.ToString()); sout.WriteInt32(assemId); break; case BinaryTypeEnum.ObjectArray: break; case BinaryTypeEnum.StringArray: break; default: throw new SerializationException(Environment.GetResourceString("Serialization_TypeWrite", (object)binaryTypeEnum.ToString())); } }
public void Write(__BinaryWriter sout) { sout.WriteByte(9); sout.WriteInt32(this.idRef); }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte)12); sout.WriteInt32(this.assemId); sout.WriteString(this.assemblyString); }
public void Write(__BinaryWriter sout) { sout.WriteByte(6); sout.WriteInt32(this.objectId); sout.WriteString(this.value); }
public void Write(__BinaryWriter sout) { sout.WriteByte((byte)11); }
internal void Write(__BinaryWriter sout) { sout.WriteByte(0x15); sout.WriteInt32((int) this.messageEnum); IOUtil.WriteStringWithCode(this.methodName, sout); IOUtil.WriteStringWithCode(this.typeName, sout); if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ContextInline)) { IOUtil.WriteStringWithCode((string) this.callContext, sout); } if (IOUtil.FlagTest(this.messageEnum, MessageEnum.ArgsInline)) { sout.WriteInt32(this.args.Length); for (int i = 0; i < this.args.Length; i++) { IOUtil.WriteWithCode(this.argTypes[i], this.args[i], sout); } } }