|
static private GetBinaryTypeInfo ( |
||
| type | ||
| objectInfo | ||
| typeName | String | |
| objectWriter | ||
| typeInformation | Object | |
| assemId | int | |
| return | BinaryTypeEnum | |
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 WriteRectangleArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int rank, int[] lengthA, int[] lowerBoundA)
{
this.InternalWriteItemNull();
BinaryArrayTypeEnum rectangular = BinaryArrayTypeEnum.Rectangular;
object typeInformation = null;
int assemId = 0;
BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, this.objectWriter, out typeInformation, out assemId);
if (this.binaryArray == null)
{
this.binaryArray = new BinaryArray();
}
for (int i = 0; i < rank; i++)
{
if (lowerBoundA[i] != 0)
{
rectangular = BinaryArrayTypeEnum.RectangularOffset;
break;
}
}
this.binaryArray.Set((int)arrayNameInfo.NIobjectId, rank, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, rectangular, assemId);
long nIobjectId = arrayNameInfo.NIobjectId;
this.binaryArray.Write(this);
}
internal void WriteJaggedArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound)
{
BinaryArrayTypeEnum jagged;
this.InternalWriteItemNull();
int[] lengthA = new int[] { length };
int[] lowerBoundA = null;
object typeInformation = null;
int assemId = 0;
if (lowerBound == 0)
{
jagged = BinaryArrayTypeEnum.Jagged;
}
else
{
jagged = BinaryArrayTypeEnum.JaggedOffset;
lowerBoundA = new int[] { lowerBound };
}
BinaryTypeEnum binaryTypeEnum = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, this.objectWriter, out typeInformation, out assemId);
if (this.binaryArray == null)
{
this.binaryArray = new BinaryArray();
}
this.binaryArray.Set((int)arrayNameInfo.NIobjectId, 1, lengthA, lowerBoundA, binaryTypeEnum, typeInformation, jagged, assemId);
long nIobjectId = arrayNameInfo.NIobjectId;
this.binaryArray.Write(this);
}
internal void WriteSingleArray(NameInfo memberNameInfo, NameInfo arrayNameInfo, WriteObjectInfo objectInfo, NameInfo arrayElemTypeNameInfo, int length, int lowerBound, Array array)
{
this.InternalWriteItemNull();
int[] lengthA = new int[]
{
length
};
int[] lowerBoundA = null;
object typeInformation = null;
BinaryArrayTypeEnum binaryArrayTypeEnum;
if (lowerBound == 0)
{
binaryArrayTypeEnum = BinaryArrayTypeEnum.Single;
}
else
{
binaryArrayTypeEnum = BinaryArrayTypeEnum.SingleOffset;
lowerBoundA = new int[]
{
lowerBound
};
}
int assemId;
BinaryTypeEnum binaryTypeInfo = BinaryConverter.GetBinaryTypeInfo(arrayElemTypeNameInfo.NItype, objectInfo, arrayElemTypeNameInfo.NIname, this.objectWriter, out typeInformation, out assemId);
if (this.binaryArray == null)
{
this.binaryArray = new BinaryArray();
}
this.binaryArray.Set((int)arrayNameInfo.NIobjectId, 1, lengthA, lowerBoundA, binaryTypeInfo, typeInformation, binaryArrayTypeEnum, assemId);
long niobjectId = arrayNameInfo.NIobjectId;
this.binaryArray.Write(this);
if (Converter.IsWriteAsByteArray(arrayElemTypeNameInfo.NIprimitiveTypeEnum) && lowerBound == 0)
{
if (arrayElemTypeNameInfo.NIprimitiveTypeEnum == InternalPrimitiveTypeE.Byte)
{
this.WriteBytes((byte[])array);
return;
}
if (arrayElemTypeNameInfo.NIprimitiveTypeEnum == InternalPrimitiveTypeE.Char)
{
this.WriteChars((char[])array);
return;
}
this.WriteArrayAsBytes(array, Converter.TypeLength(arrayElemTypeNameInfo.NIprimitiveTypeEnum));
}
}
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 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 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));
}
}
}
// Token: 0x0600527F RID: 21119 RVA: 0x001215D0 File Offset: 0x0011F7D0
internal void WriteObject(NameInfo nameInfo, NameInfo typeNameInfo, int numMembers, string[] memberNames, Type[] memberTypes, WriteObjectInfo[] memberObjectInfos)
{
this.InternalWriteItemNull();
int num = (int)nameInfo.NIobjectId;
string niname;
if (num < 0)
{
niname = typeNameInfo.NIname;
}
else
{
niname = nameInfo.NIname;
}
if (this.objectMapTable == null)
{
this.objectMapTable = new Hashtable();
}
ObjectMapInfo objectMapInfo = (ObjectMapInfo)this.objectMapTable[niname];
if (objectMapInfo != null && objectMapInfo.isCompatible(numMembers, memberNames, memberTypes))
{
if (this.binaryObject == null)
{
this.binaryObject = new BinaryObject();
}
this.binaryObject.Set(num, objectMapInfo.objectId);
this.binaryObject.Write(this);
return;
}
if (!typeNameInfo.NItransmitTypeOnObject)
{
if (this.binaryObjectWithMap == null)
{
this.binaryObjectWithMap = new BinaryObjectWithMap();
}
int num2 = (int)typeNameInfo.NIassemId;
this.binaryObjectWithMap.Set(num, niname, numMembers, memberNames, num2);
this.binaryObjectWithMap.Dump();
this.binaryObjectWithMap.Write(this);
if (objectMapInfo == null)
{
this.objectMapTable.Add(niname, new ObjectMapInfo(num, numMembers, memberNames, memberTypes));
return;
}
}
else
{
BinaryTypeEnum[] array = new BinaryTypeEnum[numMembers];
object[] array2 = new object[numMembers];
int[] array3 = new int[numMembers];
int num2;
for (int i = 0; i < numMembers; i++)
{
object obj = null;
array[i] = BinaryConverter.GetBinaryTypeInfo(memberTypes[i], memberObjectInfos[i], null, this.objectWriter, out obj, out num2);
array2[i] = obj;
array3[i] = num2;
}
if (this.binaryObjectWithMapTyped == null)
{
this.binaryObjectWithMapTyped = new BinaryObjectWithMapTyped();
}
num2 = (int)typeNameInfo.NIassemId;
this.binaryObjectWithMapTyped.Set(num, niname, numMembers, memberNames, array, array2, array3, num2);
this.binaryObjectWithMapTyped.Write(this);
if (objectMapInfo == null)
{
this.objectMapTable.Add(niname, new ObjectMapInfo(num, numMembers, memberNames, memberTypes));
}
}
}
internal void WriteObject(NameInfo nameInfo, NameInfo typeNameInfo, int numMembers, string[] memberNames, Type[] memberTypes, WriteObjectInfo[] memberObjectInfos)
{
this.InternalWriteItemNull();
int objectId = (int)nameInfo.NIobjectId;
string name = objectId >= 0 ? nameInfo.NIname : typeNameInfo.NIname;
if (this.objectMapTable == null)
{
this.objectMapTable = new Hashtable();
}
ObjectMapInfo objectMapInfo = (ObjectMapInfo)this.objectMapTable[(object)name];
if (objectMapInfo != null && objectMapInfo.isCompatible(numMembers, memberNames, memberTypes))
{
if (this.binaryObject == null)
{
this.binaryObject = new BinaryObject();
}
this.binaryObject.Set(objectId, objectMapInfo.objectId);
this.binaryObject.Write(this);
}
else if (!typeNameInfo.NItransmitTypeOnObject)
{
if (this.binaryObjectWithMap == null)
{
this.binaryObjectWithMap = new BinaryObjectWithMap();
}
int assemId = (int)typeNameInfo.NIassemId;
this.binaryObjectWithMap.Set(objectId, name, numMembers, memberNames, assemId);
this.binaryObjectWithMap.Dump();
this.binaryObjectWithMap.Write(this);
if (objectMapInfo != null)
{
return;
}
this.objectMapTable.Add((object)name, (object)new ObjectMapInfo(objectId, numMembers, memberNames, memberTypes));
}
else
{
BinaryTypeEnum[] binaryTypeEnumA = new BinaryTypeEnum[numMembers];
object[] typeInformationA = new object[numMembers];
int[] memberAssemIds = new int[numMembers];
int assemId;
for (int index = 0; index < numMembers; ++index)
{
object typeInformation = (object)null;
binaryTypeEnumA[index] = BinaryConverter.GetBinaryTypeInfo(memberTypes[index], memberObjectInfos[index], (string)null, this.objectWriter, out typeInformation, out assemId);
typeInformationA[index] = typeInformation;
memberAssemIds[index] = assemId;
}
if (this.binaryObjectWithMapTyped == null)
{
this.binaryObjectWithMapTyped = new BinaryObjectWithMapTyped();
}
assemId = (int)typeNameInfo.NIassemId;
this.binaryObjectWithMapTyped.Set(objectId, name, numMembers, memberNames, binaryTypeEnumA, typeInformationA, memberAssemIds, assemId);
this.binaryObjectWithMapTyped.Write(this);
if (objectMapInfo != null)
{
return;
}
this.objectMapTable.Add((object)name, (object)new ObjectMapInfo(objectId, numMembers, memberNames, memberTypes));
}
}
internal void WriteObject(NameInfo nameInfo, NameInfo typeNameInfo, int numMembers, string[] memberNames, Type[] memberTypes, WriteObjectInfo[] memberObjectInfos)
{
this.InternalWriteItemNull();
int nIobjectId = (int)nameInfo.NIobjectId;
string name = null;
if (nIobjectId < 0)
{
name = typeNameInfo.NIname;
}
else
{
name = nameInfo.NIname;
}
if (this.objectMapTable == null)
{
this.objectMapTable = new Hashtable();
}
ObjectMapInfo info = (ObjectMapInfo)this.objectMapTable[name];
if ((info != null) && info.isCompatible(numMembers, memberNames, memberTypes))
{
if (this.binaryObject == null)
{
this.binaryObject = new BinaryObject();
}
this.binaryObject.Set(nIobjectId, info.objectId);
this.binaryObject.Write(this);
}
else
{
int nIassemId;
if (!typeNameInfo.NItransmitTypeOnObject)
{
if (this.binaryObjectWithMap == null)
{
this.binaryObjectWithMap = new BinaryObjectWithMap();
}
nIassemId = (int)typeNameInfo.NIassemId;
this.binaryObjectWithMap.Set(nIobjectId, name, numMembers, memberNames, nIassemId);
this.binaryObjectWithMap.Dump();
this.binaryObjectWithMap.Write(this);
if (info == null)
{
this.objectMapTable.Add(name, new ObjectMapInfo(nIobjectId, numMembers, memberNames, memberTypes));
}
}
else
{
BinaryTypeEnum[] binaryTypeEnumA = new BinaryTypeEnum[numMembers];
object[] typeInformationA = new object[numMembers];
int[] memberAssemIds = new int[numMembers];
for (int i = 0; i < numMembers; i++)
{
object typeInformation = null;
binaryTypeEnumA[i] = BinaryConverter.GetBinaryTypeInfo(memberTypes[i], memberObjectInfos[i], null, this.objectWriter, out typeInformation, out nIassemId);
typeInformationA[i] = typeInformation;
memberAssemIds[i] = nIassemId;
}
if (this.binaryObjectWithMapTyped == null)
{
this.binaryObjectWithMapTyped = new BinaryObjectWithMapTyped();
}
nIassemId = (int)typeNameInfo.NIassemId;
this.binaryObjectWithMapTyped.Set(nIobjectId, name, numMembers, memberNames, binaryTypeEnumA, typeInformationA, memberAssemIds, nIassemId);
this.binaryObjectWithMapTyped.Write(this);
if (info == null)
{
this.objectMapTable.Add(name, new ObjectMapInfo(nIobjectId, numMembers, memberNames, memberTypes));
}
}
}
}
