|
static private TypeFromInfo ( BinaryTypeEnum binaryTypeEnum, Object typeInformation, |
||
| binaryTypeEnum | BinaryTypeEnum | |
| typeInformation | Object | |
| objectReader | ||
| assemblyInfo | ||
| primitiveTypeEnum | InternalPrimitiveTypeE | |
| typeString | String | |
| type | ||
| isVariant | bool | |
| return | void | |
internal ObjectMap(string objectName, string[] memberNames, BinaryTypeEnum[] binaryTypeEnumA, object[] typeInformationA, int[] memberAssemIds, ObjectReader objectReader, int objectId, BinaryAssemblyInfo assemblyInfo, SizedArray assemIdToAssemblyTable)
{
this.isInitObjectInfo = true;
this.objectName = objectName;
this.memberNames = memberNames;
this.binaryTypeEnumA = binaryTypeEnumA;
this.typeInformationA = typeInformationA;
this.objectReader = objectReader;
this.objectId = objectId;
this.assemblyInfo = assemblyInfo;
if (assemblyInfo == null)
{
throw new SerializationException(Environment.GetResourceString("Serialization_Assembly", new object[] { objectName }));
}
this.objectType = objectReader.GetType(assemblyInfo, objectName);
this.memberTypes = new Type[memberNames.Length];
for (int i = 0; i < memberNames.Length; i++)
{
InternalPrimitiveTypeE ee;
string str;
Type type;
bool flag;
BinaryConverter.TypeFromInfo(binaryTypeEnumA[i], typeInformationA[i], objectReader, (BinaryAssemblyInfo)assemIdToAssemblyTable[memberAssemIds[i]], out ee, out str, out type, out flag);
this.memberTypes[i] = type;
}
this.objectInfo = objectReader.CreateReadObjectInfo(this.objectType, memberNames, null);
if (!this.objectInfo.isSi)
{
this.objectInfo.GetMemberTypes(memberNames, this.objectInfo.objectType);
}
}
internal ObjectMap(string objectName, string[] memberNames, BinaryTypeEnum[] binaryTypeEnumA, object[] typeInformationA, int[] memberAssemIds, ObjectReader objectReader, int objectId, BinaryAssemblyInfo assemblyInfo, SizedArray assemIdToAssemblyTable)
{
this.objectName = objectName;
this.memberNames = memberNames;
this.binaryTypeEnumA = binaryTypeEnumA;
this.typeInformationA = typeInformationA;
this.objectReader = objectReader;
this.objectId = objectId;
this.assemblyInfo = assemblyInfo;
if (assemblyInfo == null)
{
throw new SerializationException(Environment.GetResourceString("Serialization_Assembly", (object)objectName));
}
this.objectType = objectReader.GetType(assemblyInfo, objectName);
this.memberTypes = new Type[memberNames.Length];
for (int index = 0; index < memberNames.Length; ++index)
{
InternalPrimitiveTypeE primitiveTypeEnum;
string typeString;
Type type;
bool isVariant;
BinaryConverter.TypeFromInfo(binaryTypeEnumA[index], typeInformationA[index], objectReader, (BinaryAssemblyInfo)assemIdToAssemblyTable[memberAssemIds[index]], out primitiveTypeEnum, out typeString, out type, out isVariant);
this.memberTypes[index] = type;
}
this.objectInfo = objectReader.CreateReadObjectInfo(this.objectType, memberNames, (Type[])null);
if (this.objectInfo.isSi)
{
return;
}
this.objectInfo.GetMemberTypes(memberNames, this.objectInfo.objectType);
}
private void ReadArray(BinaryHeaderEnum binaryHeaderEnum)
{
BinaryArray binaryArray = new BinaryArray(binaryHeaderEnum);
binaryArray.Read(this);
BinaryAssemblyInfo assemblyInfo;
if (binaryArray.binaryTypeEnum == BinaryTypeEnum.ObjectUser)
{
if (binaryArray.assemId < 1)
{
throw new SerializationException(Environment.GetResourceString("Serialization_AssemblyId", binaryArray.typeInformation));
}
assemblyInfo = (BinaryAssemblyInfo)this.AssemIdToAssemblyTable[binaryArray.assemId];
}
else
{
assemblyInfo = this.SystemAssemblyInfo;
}
ObjectProgress op = this.GetOp();
ParseRecord pr = op.pr;
op.objectTypeEnum = InternalObjectTypeE.Array;
op.binaryTypeEnum = binaryArray.binaryTypeEnum;
op.typeInformation = binaryArray.typeInformation;
ObjectProgress objectProgress = (ObjectProgress)this.stack.PeekPeek();
if (objectProgress == null || binaryArray.objectId > 0)
{
op.name = "System.Array";
pr.PRparseTypeEnum = InternalParseTypeE.Object;
op.memberValueEnum = InternalMemberValueE.Empty;
}
else
{
pr.PRparseTypeEnum = InternalParseTypeE.Member;
pr.PRmemberValueEnum = InternalMemberValueE.Nested;
op.memberValueEnum = InternalMemberValueE.Nested;
switch (objectProgress.objectTypeEnum)
{
case InternalObjectTypeE.Object:
pr.PRname = objectProgress.name;
pr.PRmemberTypeEnum = InternalMemberTypeE.Field;
op.memberTypeEnum = InternalMemberTypeE.Field;
pr.PRkeyDt = objectProgress.name;
pr.PRdtType = objectProgress.dtType;
break;
case InternalObjectTypeE.Array:
pr.PRmemberTypeEnum = InternalMemberTypeE.Item;
op.memberTypeEnum = InternalMemberTypeE.Item;
break;
default:
throw new SerializationException(Environment.GetResourceString("Serialization_ObjectTypeEnum", (object)objectProgress.objectTypeEnum.ToString()));
}
}
pr.PRobjectId = this.objectReader.GetId((long)binaryArray.objectId);
pr.PRobjectPositionEnum = pr.PRobjectId != this.topId ? (this.headerId <= 0L || pr.PRobjectId != this.headerId ? InternalObjectPositionE.Child : InternalObjectPositionE.Headers) : InternalObjectPositionE.Top;
pr.PRobjectTypeEnum = InternalObjectTypeE.Array;
BinaryConverter.TypeFromInfo(binaryArray.binaryTypeEnum, binaryArray.typeInformation, this.objectReader, assemblyInfo, out pr.PRarrayElementTypeCode, out pr.PRarrayElementTypeString, out pr.PRarrayElementType, out pr.PRisArrayVariant);
pr.PRdtTypeCode = InternalPrimitiveTypeE.Invalid;
pr.PRrank = binaryArray.rank;
pr.PRlengthA = binaryArray.lengthA;
pr.PRlowerBoundA = binaryArray.lowerBoundA;
bool flag = false;
switch (binaryArray.binaryArrayTypeEnum)
{
case BinaryArrayTypeEnum.Single:
case BinaryArrayTypeEnum.SingleOffset:
op.numItems = binaryArray.lengthA[0];
pr.PRarrayTypeEnum = InternalArrayTypeE.Single;
if (Converter.IsWriteAsByteArray(pr.PRarrayElementTypeCode) && binaryArray.lowerBoundA[0] == 0)
{
flag = true;
this.ReadArrayAsBytes(pr);
break;
}
break;
case BinaryArrayTypeEnum.Jagged:
case BinaryArrayTypeEnum.JaggedOffset:
op.numItems = binaryArray.lengthA[0];
pr.PRarrayTypeEnum = InternalArrayTypeE.Jagged;
break;
case BinaryArrayTypeEnum.Rectangular:
case BinaryArrayTypeEnum.RectangularOffset:
int num = 1;
for (int index = 0; index < binaryArray.rank; ++index)
{
num *= binaryArray.lengthA[index];
}
op.numItems = num;
pr.PRarrayTypeEnum = InternalArrayTypeE.Rectangular;
break;
default:
throw new SerializationException(Environment.GetResourceString("Serialization_ArrayType", (object)binaryArray.binaryArrayTypeEnum.ToString()));
}
if (!flag)
{
this.stack.Push((object)op);
}
else
{
this.PutOp(op);
}
this.objectReader.Parse(pr);
if (!flag)
{
return;
}
pr.PRparseTypeEnum = InternalParseTypeE.ObjectEnd;
this.objectReader.Parse(pr);
}
private void ReadArray(BinaryHeaderEnum binaryHeaderEnum)
{
BinaryAssemblyInfo assemblyInfo = null;
BinaryArray array = new BinaryArray(binaryHeaderEnum);
array.Read(this);
if (array.binaryTypeEnum == BinaryTypeEnum.ObjectUser)
{
if (array.assemId < 1)
{
throw new SerializationException(Environment.GetResourceString("Serialization_AssemblyId", new object[] { array.typeInformation }));
}
assemblyInfo = (BinaryAssemblyInfo)this.AssemIdToAssemblyTable[array.assemId];
}
else
{
assemblyInfo = this.SystemAssemblyInfo;
}
ObjectProgress op = this.GetOp();
ParseRecord pr = op.pr;
op.objectTypeEnum = InternalObjectTypeE.Array;
op.binaryTypeEnum = array.binaryTypeEnum;
op.typeInformation = array.typeInformation;
ObjectProgress progress2 = (ObjectProgress)this.stack.PeekPeek();
if ((progress2 == null) || (array.objectId > 0))
{
op.name = "System.Array";
pr.PRparseTypeEnum = InternalParseTypeE.Object;
op.memberValueEnum = InternalMemberValueE.Empty;
}
else
{
pr.PRparseTypeEnum = InternalParseTypeE.Member;
pr.PRmemberValueEnum = InternalMemberValueE.Nested;
op.memberValueEnum = InternalMemberValueE.Nested;
switch (progress2.objectTypeEnum)
{
case InternalObjectTypeE.Object:
pr.PRname = progress2.name;
pr.PRmemberTypeEnum = InternalMemberTypeE.Field;
op.memberTypeEnum = InternalMemberTypeE.Field;
pr.PRkeyDt = progress2.name;
pr.PRdtType = progress2.dtType;
goto Label_0177;
case InternalObjectTypeE.Array:
pr.PRmemberTypeEnum = InternalMemberTypeE.Item;
op.memberTypeEnum = InternalMemberTypeE.Item;
goto Label_0177;
}
throw new SerializationException(Environment.GetResourceString("Serialization_ObjectTypeEnum", new object[] { progress2.objectTypeEnum.ToString() }));
}
Label_0177:
pr.PRobjectId = this.objectReader.GetId((long)array.objectId);
if (pr.PRobjectId == this.topId)
{
pr.PRobjectPositionEnum = InternalObjectPositionE.Top;
}
else if ((this.headerId > 0L) && (pr.PRobjectId == this.headerId))
{
pr.PRobjectPositionEnum = InternalObjectPositionE.Headers;
}
else
{
pr.PRobjectPositionEnum = InternalObjectPositionE.Child;
}
pr.PRobjectTypeEnum = InternalObjectTypeE.Array;
BinaryConverter.TypeFromInfo(array.binaryTypeEnum, array.typeInformation, this.objectReader, assemblyInfo, out pr.PRarrayElementTypeCode, out pr.PRarrayElementTypeString, out pr.PRarrayElementType, out pr.PRisArrayVariant);
pr.PRdtTypeCode = InternalPrimitiveTypeE.Invalid;
pr.PRrank = array.rank;
pr.PRlengthA = array.lengthA;
pr.PRlowerBoundA = array.lowerBoundA;
bool flag = false;
switch (array.binaryArrayTypeEnum)
{
case BinaryArrayTypeEnum.Single:
case BinaryArrayTypeEnum.SingleOffset:
op.numItems = array.lengthA[0];
pr.PRarrayTypeEnum = InternalArrayTypeE.Single;
if (Converter.IsWriteAsByteArray(pr.PRarrayElementTypeCode) && (array.lowerBoundA[0] == 0))
{
flag = true;
this.ReadArrayAsBytes(pr);
}
break;
case BinaryArrayTypeEnum.Jagged:
case BinaryArrayTypeEnum.JaggedOffset:
op.numItems = array.lengthA[0];
pr.PRarrayTypeEnum = InternalArrayTypeE.Jagged;
break;
case BinaryArrayTypeEnum.Rectangular:
case BinaryArrayTypeEnum.RectangularOffset:
{
int num = 1;
for (int i = 0; i < array.rank; i++)
{
num *= array.lengthA[i];
}
op.numItems = num;
pr.PRarrayTypeEnum = InternalArrayTypeE.Rectangular;
break;
}
default:
throw new SerializationException(Environment.GetResourceString("Serialization_ArrayType", new object[] { array.binaryArrayTypeEnum.ToString() }));
}
if (!flag)
{
this.stack.Push(op);
}
else
{
this.PutOp(op);
}
this.objectReader.Parse(pr);
if (flag)
{
pr.PRparseTypeEnum = InternalParseTypeE.ObjectEnd;
this.objectReader.Parse(pr);
}
}
private void ReadArray(BinaryHeaderEnum binaryHeaderEnum)
{
BinaryAssemblyInfo assemblyInfo = null;
SerTrace.Log(this, "ReadArray ");
BinaryArray record = new BinaryArray(binaryHeaderEnum);
record.Read(this);
record.Dump();
SerTrace.Log(this, "Read 1 ", ((Enum)binaryHeaderEnum).ToString());
if (record.binaryTypeEnum == BinaryTypeEnum.ObjectUser)
{
if (record.assemId < 1)
{
throw new SerializationException(String.Format(Environment.GetResourceString("Serialization_AssemblyId"), record.typeInformation));
}
assemblyInfo = (BinaryAssemblyInfo)AssemIdToAssemblyTable[record.assemId];
SerTrace.Log(this, "ReadArray lookup assemIdToAssembly assemId ", record.assemId, " assembly ", assemblyInfo.assemblyString);
}
else
{
assemblyInfo = SystemAssemblyInfo; //Urt assembly
}
ObjectProgress op = GetOp();
ParseRecord pr = op.pr;
op.objectTypeEnum = InternalObjectTypeE.Array;
op.binaryTypeEnum = record.binaryTypeEnum;
op.typeInformation = record.typeInformation;
ObjectProgress objectOp = (ObjectProgress)stack.PeekPeek();
if ((objectOp == null) || (record.objectId > 0))
{
// Non-Nested Object
op.name = "System.Array";
pr.PRparseTypeEnum = InternalParseTypeE.Object;
op.memberValueEnum = InternalMemberValueE.Empty;
}
else
{
// Nested Object
pr.PRparseTypeEnum = InternalParseTypeE.Member;
pr.PRmemberValueEnum = InternalMemberValueE.Nested;
op.memberValueEnum = InternalMemberValueE.Nested;
switch (objectOp.objectTypeEnum)
{
case InternalObjectTypeE.Object:
pr.PRname = objectOp.name;
pr.PRmemberTypeEnum = InternalMemberTypeE.Field;
op.memberTypeEnum = InternalMemberTypeE.Field;
pr.PRkeyDt = objectOp.name;
pr.PRdtType = objectOp.dtType;
break;
case InternalObjectTypeE.Array:
pr.PRmemberTypeEnum = InternalMemberTypeE.Item;
op.memberTypeEnum = InternalMemberTypeE.Item;
break;
default:
throw new SerializationException(String.Format(Environment.GetResourceString("Serialization_ObjectTypeEnum"), ((Enum)objectOp.objectTypeEnum).ToString()));
}
}
pr.PRobjectId = objectReader.GetId((long)record.objectId);
if (pr.PRobjectId == topId)
{
pr.PRobjectPositionEnum = InternalObjectPositionE.Top;
}
else if ((headerId > 0) && (pr.PRobjectId == headerId))
{
pr.PRobjectPositionEnum = InternalObjectPositionE.Headers; // Headers are an array of header objects
}
else
{
pr.PRobjectPositionEnum = InternalObjectPositionE.Child;
}
pr.PRobjectTypeEnum = InternalObjectTypeE.Array;
BinaryConverter.TypeFromInfo(record.binaryTypeEnum, record.typeInformation, objectReader, assemblyInfo,
out pr.PRarrayElementTypeCode, out pr.PRarrayElementTypeString,
out pr.PRarrayElementType, out pr.PRisArrayVariant);
pr.PRdtTypeCode = InternalPrimitiveTypeE.Invalid;
pr.PRrank = record.rank;
pr.PRlengthA = record.lengthA;
pr.PRlowerBoundA = record.lowerBoundA;
bool isPrimitiveArray = false;
switch (record.binaryArrayTypeEnum)
{
case BinaryArrayTypeEnum.Single:
case BinaryArrayTypeEnum.SingleOffset:
op.numItems = record.lengthA[0];
pr.PRarrayTypeEnum = InternalArrayTypeE.Single;
if (Converter.IsWriteAsByteArray(pr.PRarrayElementTypeCode) &&
(record.lowerBoundA[0] == 0))
{
isPrimitiveArray = true;
ReadArrayAsBytes(pr);
}
break;
case BinaryArrayTypeEnum.Jagged:
case BinaryArrayTypeEnum.JaggedOffset:
op.numItems = record.lengthA[0];
pr.PRarrayTypeEnum = InternalArrayTypeE.Jagged;
break;
case BinaryArrayTypeEnum.Rectangular:
case BinaryArrayTypeEnum.RectangularOffset:
int arrayLength = 1;
for (int i = 0; i < record.rank; i++)
{
arrayLength = arrayLength * record.lengthA[i];
}
op.numItems = arrayLength;
pr.PRarrayTypeEnum = InternalArrayTypeE.Rectangular;
break;
default:
throw new SerializationException(String.Format(Environment.GetResourceString("Serialization_ArrayType"), ((Enum)record.binaryArrayTypeEnum).ToString()));
}
if (!isPrimitiveArray)
{
stack.Push(op);
}
else
{
PutOp(op);
}
SerTrace.Log(this, "ReadArray ", ((Enum)record.binaryArrayTypeEnum).ToString(), " length ", op.numItems);
objectReader.Parse(pr);
if (isPrimitiveArray)
{
pr.PRparseTypeEnum = InternalParseTypeE.ObjectEnd;
objectReader.Parse(pr);
}
}
