internal void WriteRectangleArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int rank, int[] lengthA, int[] lowerBoundA) { arrayNameInfo.Dump("WriteRectangleArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteRectangleArray arrayElemTypeNameInfo"); InternalWriteItemNull(); BinaryArrayTypeEnum binaryArrayTypeEnum = BinaryArrayTypeEnum.Rectangular; Object typeInformation = null; int assemId = 0; BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, objectWriter, out typeInformation, out assemId); if (binaryArray == null) { binaryArray = new BinaryArray(); } for (int i = 0; i < rank; i++) { if (lowerBoundA[i] != 0) { binaryArrayTypeEnum = BinaryArrayTypeEnum.RectangularOffset; break; } } binaryArray.Set((int)arrayNameInfo.NIobjectId, rank, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, binaryArrayTypeEnum, assemId); if (arrayNameInfo.NIobjectId > 0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } binaryArray.Dump(); binaryArray.Write(this); }
internal void WriteObjectByteArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound, Byte[] byteA) { arrayNameInfo.Dump("WriteObjectByteArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteObjectByteArray arrayElemTypeNameInfo"); InternalWriteItemNull(); WriteSingleArray(memberNameInfo, arrayNameInfo, objectInfo, arrayElemTypeNameInfo, length, lowerBound, byteA); }
[System.Security.SecurityCritical] // auto-generated internal void WriteSingleArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound, Array array) { InternalWriteItemNull(); #if _DEBUG arrayNameInfo.Dump("WriteSingleArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteSingleArray arrayElemTypeNameInfo"); #endif BinaryArrayTypeEnum binaryArrayTypeEnum; Int32[] lengthA = new Int32[1]; lengthA[0] = length; Int32[] lowerBoundA = null; Object typeInformation = null; if (lowerBound == 0) { binaryArrayTypeEnum = BinaryArrayTypeEnum.Single; } else { binaryArrayTypeEnum = BinaryArrayTypeEnum.SingleOffset; lowerBoundA = new Int32[1]; lowerBoundA[0] = lowerBound; } int assemId; BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, objectWriter, out typeInformation, out assemId); if (binaryArray == null) { binaryArray = new BinaryArray(); } binaryArray.Set((int)arrayNameInfo.NIobjectId, (int)1, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, binaryArrayTypeEnum, assemId); if (arrayNameInfo.NIobjectId > 0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } #if _DEBUG binaryArray.Dump(); #endif binaryArray.Write(this); if (Converter.IsWriteAsByteArray(arrayElemTypeNameInfo.NIprimitiveTypeEnum) && (lowerBound == 0)) { //array is written out as an array of bytes if (arrayElemTypeNameInfo.NIprimitiveTypeEnum == InternalPrimitiveTypeE.Byte) { WriteBytes((Byte[])array); } else if (arrayElemTypeNameInfo.NIprimitiveTypeEnum == InternalPrimitiveTypeE.Char) { WriteChars((char[])array); } else { WriteArrayAsBytes(array, Converter.TypeLength(arrayElemTypeNameInfo.NIprimitiveTypeEnum)); } } }
internal void WriteMember(NameInfo memberNameInfo, NameInfo typeNameInfo, Object value) { #if _DEBUG SerTrace.Log("BinaryWriter", "Write Member memberName ", memberNameInfo.NIname, ", value ", value); memberNameInfo.Dump("WriteMember memberNameInfo"); typeNameInfo.Dump("WriteMember typeNameInfo"); #endif InternalWriteItemNull(); InternalPrimitiveTypeE typeInformation = typeNameInfo.NIprimitiveTypeEnum; // Writes Members with primitive values if (memberNameInfo.NItransmitTypeOnMember) { if (memberPrimitiveTyped == null) { memberPrimitiveTyped = new MemberPrimitiveTyped(); } memberPrimitiveTyped.Set((InternalPrimitiveTypeE)typeInformation, value); if (memberNameInfo.NIisArrayItem) { BCLDebug.Trace("BINARY", "-----item-----"); } else { BCLDebug.Trace("BINARY", "-----", memberNameInfo.NIname, "-----"); } memberPrimitiveTyped.Dump(); memberPrimitiveTyped.Write(this); } else { if (memberPrimitiveUnTyped == null) { memberPrimitiveUnTyped = new MemberPrimitiveUnTyped(); } memberPrimitiveUnTyped.Set(typeInformation, value); if (memberNameInfo.NIisArrayItem) { BCLDebug.Trace("BINARY", "-----item-----"); } else { BCLDebug.Trace("BINARY", "-----", memberNameInfo.NIname, "-----"); } memberPrimitiveUnTyped.Dump(); memberPrimitiveUnTyped.Write(this); } }
internal void WriteJaggedArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound) { #if _DEBUG arrayNameInfo.Dump("WriteRectangleArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteRectangleArray arrayElemTypeNameInfo"); #endif InternalWriteItemNull(); BinaryArrayTypeEnum binaryArrayTypeEnum; Int32[] lengthA = new Int32[1]; lengthA[0] = length; Int32[] lowerBoundA = null; Object typeInformation = null; int assemId = 0; if (lowerBound == 0) { binaryArrayTypeEnum = BinaryArrayTypeEnum.Jagged; } else { binaryArrayTypeEnum = BinaryArrayTypeEnum.JaggedOffset; lowerBoundA = new Int32[1]; lowerBoundA[0] = lowerBound; } BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, objectWriter, out typeInformation, out assemId); if (binaryArray == null) { binaryArray = new BinaryArray(); } binaryArray.Set((int)arrayNameInfo.NIobjectId, (int)1, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, binaryArrayTypeEnum, assemId); if (arrayNameInfo.NIobjectId > 0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } #if _DEBUG binaryArray.Dump(); #endif binaryArray.Write(this); }
internal void WriteNullMember(NameInfo memberNameInfo, NameInfo typeNameInfo) { typeNameInfo.Dump("WriteNullMember typeNameInfo"); InternalWriteItemNull(); if (objectNull == null) { objectNull = new ObjectNull(); } if (memberNameInfo.NIisArrayItem) { BCLDebug.Trace("BINARY", "-----item-----"); } else { objectNull.SetNullCount(1); BCLDebug.Trace("BINARY", "-----", memberNameInfo.NIname, "-----"); objectNull.Dump(); objectNull.Write(this); nullCount = 0; } }
//internal BinaryCrossAppDomainMap crossAppDomainMap; internal void WriteObject(NameInfo nameInfo, NameInfo typeNameInfo, int numMembers, String[] memberNames, Type[] memberTypes, WriteObjectInfo[] memberObjectInfos) { InternalWriteItemNull(); int assemId; nameInfo.Dump("WriteObject nameInfo"); typeNameInfo.Dump("WriteObject typeNameInfo"); int objectId = (int)nameInfo.NIobjectId; //if (objectId < 0) // objectId = --m_nestedObjectCount; if (objectId > 0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } String objectName = null; if (objectId < 0) { // Nested Object objectName = typeNameInfo.NIname; } else { // Non-Nested objectName = nameInfo.NIname; } SerTrace.Log(this, "WriteObject objectName ", objectName); if (objectMapTable == null) { objectMapTable = new Hashtable(); } ObjectMapInfo objectMapInfo = (ObjectMapInfo)objectMapTable[objectName]; if (objectMapInfo != null && objectMapInfo.isCompatible(numMembers, memberNames, memberTypes)) { // Object if (binaryObject == null) { binaryObject = new BinaryObject(); } binaryObject.Set(objectId, objectMapInfo.objectId); binaryObject.Dump(); binaryObject.Write(this); } else if (!typeNameInfo.NItransmitTypeOnObject) { // ObjectWithMap if (binaryObjectWithMap == null) { binaryObjectWithMap = new BinaryObjectWithMap(); } // BCL types are not placed into table assemId = (int)typeNameInfo.NIassemId; binaryObjectWithMap.Set(objectId, objectName, numMembers, memberNames, assemId); binaryObjectWithMap.Dump(); binaryObjectWithMap.Write(this); if (objectMapInfo == null) { objectMapTable.Add(objectName, new ObjectMapInfo(objectId, numMembers, memberNames, memberTypes)); } } else { // ObjectWithMapTyped BinaryTypeEnum[] binaryTypeEnumA = new BinaryTypeEnum[numMembers]; Object[] typeInformationA = new Object[numMembers]; int[] assemIdA = new int[numMembers]; for (int i = 0; i < numMembers; i++) { Object typeInformation = null; binaryTypeEnumA[i] = BinaryConverter.GetBinaryTypeInfo(memberTypes[i], memberObjectInfos[i], null, objectWriter, out typeInformation, out assemId); typeInformationA[i] = typeInformation; assemIdA[i] = assemId; SerTrace.Log(this, "WriteObject ObjectWithMapTyped memberNames " , memberNames[i], ", memberType ", memberTypes[i], " binaryTypeEnum ", ((Enum)binaryTypeEnumA[i]).ToString() , ", typeInformation ", typeInformationA[i], " assemId ", assemIdA[i]); } if (binaryObjectWithMapTyped == null) { binaryObjectWithMapTyped = new BinaryObjectWithMapTyped(); } // BCL types are not placed in table assemId = (int)typeNameInfo.NIassemId; binaryObjectWithMapTyped.Set(objectId, objectName, numMembers, memberNames, binaryTypeEnumA, typeInformationA, assemIdA, assemId); binaryObjectWithMapTyped.Dump(); binaryObjectWithMapTyped.Write(this); if (objectMapInfo == null) { objectMapTable.Add(objectName, new ObjectMapInfo(objectId, numMembers, memberNames, memberTypes)); } } }
[System.Security.SecurityCritical] // auto-generated private void Write(WriteObjectInfo objectInfo, NameInfo memberNameInfo, NameInfo typeNameInfo) { #if _DEBUG SerTrace.Log( this, "Write 1 Entry objectInfo ",objectInfo,", memberNameInfo ",memberNameInfo,", typeNameInfo ",typeNameInfo); memberNameInfo.Dump("Write memberNameInfo"); typeNameInfo.Dump("Write typeNameInfo"); #endif Object obj = objectInfo.obj; if (obj==null) throw new ArgumentNullException("objectInfo.obj", Environment.GetResourceString("ArgumentNull_Obj")); SerTrace.Log( this, "Write 1 objectInfo obj ",objectInfo.obj," objectId ", objectInfo.objectId, " objectType ", objectInfo.objectType); Type objType = objectInfo.objectType; long objectId = objectInfo.objectId; SerTrace.Log( this, "Write 1 ",obj," ObjectId ",objectId); if (Object.ReferenceEquals(objType, Converter.typeofString)) { // Top level String memberNameInfo.NIobjectId = objectId; serWriter.WriteObjectString((int)objectId, obj.ToString()); } else { if (objectInfo.isArray) { WriteArray(objectInfo, memberNameInfo, null); } else { String[] memberNames; Type[] memberTypes; Object[] memberData; objectInfo.GetMemberInfo(out memberNames, out memberTypes, out memberData); // Only Binary needs to transmit types for ISerializable because the binary formatter transmits the types in URT format. // Soap transmits all types as strings, so it is up to the ISerializable object to convert the string back to its URT type if (objectInfo.isSi || CheckTypeFormat(formatterEnums.FEtypeFormat, FormatterTypeStyle.TypesAlways)) { SerTrace.Log( this, "Write 1 TransmitOnObject "); memberNameInfo.NItransmitTypeOnObject = true; memberNameInfo.NIisParentTypeOnObject = true; typeNameInfo.NItransmitTypeOnObject = true; typeNameInfo.NIisParentTypeOnObject = true; } WriteObjectInfo[] memberObjectInfos = new WriteObjectInfo[memberNames.Length]; // Get assembly information // Binary Serializer, assembly names need to be // written before objects are referenced. // GetAssemId here will write out the // assemblyStrings at the right Binary // Serialization object boundary. for (int i=0; i<memberTypes.Length; i++) { Type type; if ((object)memberTypes[i] != null) type = memberTypes[i]; else if (memberData[i] != null) type = GetType(memberData[i]); else type = Converter.typeofObject; SerTrace.Log( this, "Write 1 member type ",type); InternalPrimitiveTypeE code = ToCode(type); if ((code == InternalPrimitiveTypeE.Invalid) && (!Object.ReferenceEquals(type, Converter.typeofString))) { SerTrace.Log( this, "Write 1 Create ObjectInfo ", memberTypes[i], " memberData ",memberData[i]); if (memberData[i] != null) { memberObjectInfos[i] = WriteObjectInfo.Serialize ( memberData[i], m_surrogates, m_context, serObjectInfoInit, m_formatterConverter, this, m_binder); memberObjectInfos[i].assemId = GetAssemblyId(memberObjectInfos[i]); } else { memberObjectInfos[i] = WriteObjectInfo.Serialize ( memberTypes[i], m_surrogates, m_context, serObjectInfoInit, m_formatterConverter, m_binder ); memberObjectInfos[i].assemId = GetAssemblyId(memberObjectInfos[i]); } } } Write(objectInfo, memberNameInfo, typeNameInfo, memberNames, memberTypes, memberData, memberObjectInfos); SerTrace.Log( this, "Write 1 ",obj," type ",GetType(obj)); } } SerTrace.Log( this, "Write 1 Exit ",obj); }
// Determines if a type is a primitive type, if it is it is written private bool WriteKnownValueClass(NameInfo memberNameInfo, NameInfo typeNameInfo, Object data) { #if _DEBUG SerTrace.Log( this, "WriteKnownValueClass Entry ",typeNameInfo.NIname," ",data," ",memberNameInfo.NIname); memberNameInfo.Dump("WriteKnownValueClass memberNameInfo"); typeNameInfo.Dump("WriteKnownValueClass typeNameInfo"); #endif if (Object.ReferenceEquals(typeNameInfo.NItype, Converter.typeofString)) { WriteString(memberNameInfo, typeNameInfo, data); } else { if (typeNameInfo.NIprimitiveTypeEnum == InternalPrimitiveTypeE.Invalid) { SerTrace.Log( this, "WriteKnownValueClass Exit false"); return false; } else { if (typeNameInfo.NIisArray) // null if an array serWriter.WriteItem(memberNameInfo, typeNameInfo, data); else { serWriter.WriteMember(memberNameInfo, typeNameInfo, data); } } } SerTrace.Log( this, "WriteKnownValueClass Exit true"); return true; }
internal void WriteNullMember(NameInfo memberNameInfo, NameInfo typeNameInfo) { #if _DEBUG typeNameInfo.Dump("WriteNullMember typeNameInfo"); #endif InternalWriteItemNull(); if (objectNull == null) objectNull = new ObjectNull(); if (memberNameInfo.NIisArrayItem) { BCLDebug.Trace("BINARY", "-----item-----"); } else { objectNull.SetNullCount(1); BCLDebug.Trace("BINARY", "-----",memberNameInfo.NIname,"-----"); objectNull.Dump(); objectNull.Write(this); nullCount = 0; } }
internal void WriteMember(NameInfo memberNameInfo, NameInfo typeNameInfo, Object value) { #if _DEBUG SerTrace.Log("BinaryWriter", "Write Member memberName ",memberNameInfo.NIname,", value ",value); memberNameInfo.Dump("WriteMember memberNameInfo"); typeNameInfo.Dump("WriteMember typeNameInfo"); #endif InternalWriteItemNull(); InternalPrimitiveTypeE typeInformation = typeNameInfo.NIprimitiveTypeEnum; // Writes Members with primitive values if (memberNameInfo.NItransmitTypeOnMember) { if (memberPrimitiveTyped == null) memberPrimitiveTyped = new MemberPrimitiveTyped(); memberPrimitiveTyped.Set((InternalPrimitiveTypeE)typeInformation, value); if (memberNameInfo.NIisArrayItem) { BCLDebug.Trace("BINARY", "-----item-----"); } else { BCLDebug.Trace("BINARY","-----",memberNameInfo.NIname,"-----"); } memberPrimitiveTyped.Dump(); memberPrimitiveTyped.Write(this); } else { if (memberPrimitiveUnTyped == null) memberPrimitiveUnTyped = new MemberPrimitiveUnTyped(); memberPrimitiveUnTyped.Set(typeInformation, value); if (memberNameInfo.NIisArrayItem) { BCLDebug.Trace("BINARY", "-----item-----"); } else { BCLDebug.Trace("BINARY", "-----",memberNameInfo.NIname,"-----"); } memberPrimitiveUnTyped.Dump(); memberPrimitiveUnTyped.Write(this); } }
[System.Security.SecurityCritical] // auto-generated internal void WriteObjectByteArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound, Byte[] byteA) { #if _DEBUG arrayNameInfo.Dump("WriteObjectByteArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteObjectByteArray arrayElemTypeNameInfo"); #endif InternalWriteItemNull(); WriteSingleArray(memberNameInfo, arrayNameInfo, objectInfo, arrayElemTypeNameInfo, length, lowerBound, byteA); }
internal void WriteRectangleArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int rank, int[] lengthA, int[] lowerBoundA) { #if _DEBUG arrayNameInfo.Dump("WriteRectangleArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteRectangleArray arrayElemTypeNameInfo"); #endif InternalWriteItemNull(); BinaryArrayTypeEnum binaryArrayTypeEnum = BinaryArrayTypeEnum.Rectangular; Object typeInformation = null; int assemId = 0; BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, objectWriter, out typeInformation, out assemId); if (binaryArray == null) binaryArray = new BinaryArray(); for (int i=0; i<rank; i++) { if (lowerBoundA[i] != 0) { binaryArrayTypeEnum = BinaryArrayTypeEnum.RectangularOffset; break; } } binaryArray.Set((int)arrayNameInfo.NIobjectId, rank, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, binaryArrayTypeEnum, assemId); if (arrayNameInfo.NIobjectId >0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } #if _DEBUG binaryArray.Dump(); #endif binaryArray.Write(this); }
internal void WriteJaggedArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound) { #if _DEBUG arrayNameInfo.Dump("WriteRectangleArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteRectangleArray arrayElemTypeNameInfo"); #endif InternalWriteItemNull(); BinaryArrayTypeEnum binaryArrayTypeEnum; Int32[] lengthA = new Int32[1]; lengthA[0] = length; Int32[] lowerBoundA = null; Object typeInformation = null; int assemId = 0; if (lowerBound == 0) { binaryArrayTypeEnum = BinaryArrayTypeEnum.Jagged; } else { binaryArrayTypeEnum = BinaryArrayTypeEnum.JaggedOffset; lowerBoundA = new Int32[1]; lowerBoundA[0] = lowerBound; } BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, objectWriter, out typeInformation, out assemId); if (binaryArray == null) binaryArray = new BinaryArray(); binaryArray.Set((int)arrayNameInfo.NIobjectId, (int)1, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, binaryArrayTypeEnum, assemId); if (arrayNameInfo.NIobjectId >0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } #if _DEBUG binaryArray.Dump(); #endif binaryArray.Write(this); }
[System.Security.SecurityCritical] // auto-generated internal void WriteSingleArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound, Array array) { InternalWriteItemNull(); #if _DEBUG arrayNameInfo.Dump("WriteSingleArray arrayNameInfo"); arrayElemTypeNameInfo.Dump("WriteSingleArray arrayElemTypeNameInfo"); #endif BinaryArrayTypeEnum binaryArrayTypeEnum; Int32[] lengthA = new Int32[1]; lengthA[0] = length; Int32[] lowerBoundA = null; Object typeInformation = null; if (lowerBound == 0) { binaryArrayTypeEnum = BinaryArrayTypeEnum.Single; } else { binaryArrayTypeEnum = BinaryArrayTypeEnum.SingleOffset; lowerBoundA = new Int32[1]; lowerBoundA[0] = lowerBound; } int assemId; BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, objectWriter, out typeInformation, out assemId); if (binaryArray == null) binaryArray = new BinaryArray(); binaryArray.Set((int)arrayNameInfo.NIobjectId, (int)1, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, binaryArrayTypeEnum, assemId); if (arrayNameInfo.NIobjectId >0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } #if _DEBUG binaryArray.Dump(); #endif binaryArray.Write(this); if (Converter.IsWriteAsByteArray(arrayElemTypeNameInfo.NIprimitiveTypeEnum) && (lowerBound == 0)) { //array is written out as an array of bytes if (arrayElemTypeNameInfo.NIprimitiveTypeEnum == InternalPrimitiveTypeE.Byte) WriteBytes((Byte[])array); else if (arrayElemTypeNameInfo.NIprimitiveTypeEnum == InternalPrimitiveTypeE.Char) WriteChars((char[])array); else WriteArrayAsBytes(array, Converter.TypeLength(arrayElemTypeNameInfo.NIprimitiveTypeEnum)); } }
//internal BinaryCrossAppDomainMap crossAppDomainMap; internal void WriteObject(NameInfo nameInfo, NameInfo typeNameInfo, int numMembers, String[] memberNames, Type[] memberTypes, WriteObjectInfo[] memberObjectInfos) { InternalWriteItemNull(); int assemId; #if _DEBUG nameInfo.Dump("WriteObject nameInfo"); typeNameInfo.Dump("WriteObject typeNameInfo"); #endif int objectId = (int)nameInfo.NIobjectId; //if (objectId < 0) // objectId = --m_nestedObjectCount; if (objectId > 0) { BCLDebug.Trace("BINARY", "-----Top Level Object-----"); } String objectName = null; if (objectId < 0) { // Nested Object objectName = typeNameInfo.NIname; } else { // Non-Nested objectName = nameInfo.NIname; } SerTrace.Log( this, "WriteObject objectName ",objectName); if (objectMapTable == null) { objectMapTable = new Hashtable(); } ObjectMapInfo objectMapInfo = (ObjectMapInfo)objectMapTable[objectName]; if (objectMapInfo != null && objectMapInfo.isCompatible(numMembers, memberNames, memberTypes)) { // Object if (binaryObject == null) binaryObject = new BinaryObject(); binaryObject.Set(objectId, objectMapInfo.objectId); #if _DEBUG binaryObject.Dump(); #endif binaryObject.Write(this); } else if (!typeNameInfo.NItransmitTypeOnObject) { // ObjectWithMap if (binaryObjectWithMap == null) binaryObjectWithMap = new BinaryObjectWithMap(); // BCL types are not placed into table assemId = (int)typeNameInfo.NIassemId; binaryObjectWithMap.Set(objectId, objectName, numMembers, memberNames, assemId); binaryObjectWithMap.Dump(); binaryObjectWithMap.Write(this); if (objectMapInfo == null) objectMapTable.Add(objectName, new ObjectMapInfo(objectId, numMembers, memberNames, memberTypes)); } else { // ObjectWithMapTyped BinaryTypeEnum[] binaryTypeEnumA = new BinaryTypeEnum[numMembers]; Object[] typeInformationA = new Object[numMembers]; int[] assemIdA = new int[numMembers]; for (int i=0; i<numMembers; i++) { Object typeInformation = null; binaryTypeEnumA[i] = BinaryConverter.GetBinaryTypeInfo(memberTypes[i], memberObjectInfos[i], null, objectWriter, out typeInformation, out assemId); typeInformationA[i] = typeInformation; assemIdA[i] = assemId; SerTrace.Log( this, "WriteObject ObjectWithMapTyped memberNames " ,memberNames[i],", memberType ",memberTypes[i]," binaryTypeEnum ",((Enum)binaryTypeEnumA[i]).ToString() ,", typeInformation ",typeInformationA[i]," assemId ",assemIdA[i]); } if (binaryObjectWithMapTyped == null) binaryObjectWithMapTyped = new BinaryObjectWithMapTyped(); // BCL types are not placed in table assemId = (int)typeNameInfo.NIassemId; binaryObjectWithMapTyped.Set(objectId, objectName, numMembers,memberNames, binaryTypeEnumA, typeInformationA, assemIdA, assemId); #if _DEBUG binaryObjectWithMapTyped.Dump(); #endif binaryObjectWithMapTyped.Write(this); if (objectMapInfo == null) objectMapTable.Add(objectName, new ObjectMapInfo(objectId, numMembers, memberNames, memberTypes)); } }