| public abstract AddRef ( object objReference ) : int | ||
| objReference | object | Reference object |
| 리턴 | int | |
/// <summary>
/// Reads the array.
/// </summary>
/// <param name="abstractHessianInput">HessianInput</param>
/// <param name="intLength">Length of data</param>
/// <returns>Array data</returns>
public override Object ReadList(AbstractHessianInput abstractHessianInput, int intLength)
{
if (intLength >= 0)
{
// mw bugfix
//Object[] arrResult = createArray(intLength);
Array arrResult = createArray(intLength);
abstractHessianInput.AddRef(arrResult);
if (m_componentType != null)
{
for (int i = 0; i < arrResult.Length; i++)
{
arrResult.SetValue(abstractHessianInput.ReadObject(m_componentType), i);
}
}
else
{
for (int i = 0; i < arrResult.Length; i++)
{
arrResult.SetValue(abstractHessianInput.ReadObject(), i);
}
}
abstractHessianInput.ReadListEnd();
return(arrResult);
}
else
{
List <Object> colList = new List <Object>();
abstractHessianInput.AddRef(colList);
if (m_componentType != null)
{
while (!abstractHessianInput.IsEnd())
{
colList.Add(abstractHessianInput.ReadObject(m_componentType));
}
}
else
{
while (!abstractHessianInput.IsEnd())
{
colList.Add(abstractHessianInput.ReadObject());
}
}
abstractHessianInput.ReadListEnd();
//Object[] arrResult = createArray(colList.Count);
Array arrResult = createArray(colList.Count);
for (int i = 0; i < colList.Count; i++)
{
arrResult.SetValue(colList[i], i);
}
return(arrResult);
}
}
/// <summary>
/// Reads map
/// </summary>
/// <param name="abstractHessianInput">HessianInput to read from</param>
/// <returns>Read object or null</returns>
public object ReadMap(AbstractHessianInput abstractHessianInput, Object result)
{
int refer = abstractHessianInput.AddRef(result);
while (!abstractHessianInput.IsEnd())
{
object objKey = abstractHessianInput.ReadObject();
IDictionary deserFields = GetDeserializableFields();
FieldInfo field = null;
field = (FieldInfo)deserFields[objKey];
if (field != null)
{
object objFieldValue = abstractHessianInput.ReadObject(field.FieldType);
field.SetValue(result, objFieldValue);
}
else
{
// mw BUGFIX!!!
object ignoreme = abstractHessianInput.ReadObject();
}
}
abstractHessianInput.ReadEnd();
return(result);
}
/// <summary>
/// Reads map from input
/// </summary>
/// <param name="abstractHessianInput">Input stream</param>
/// <returns>Read map or null</returns>
public override object ReadMap(AbstractHessianInput abstractHessianInput)
{
IDictionary dictionary = null;
if ((m_type == null) || (m_type.IsInterface && typeof(IDictionary).IsAssignableFrom(m_type)))
{
dictionary = new Dictionary <Object, Object>();
}
else if (m_type.Equals(typeof(Dictionary <Object, Object>)))
{
dictionary = new Dictionary <Object, Object>();
}
else
{
//dictionary = (IDictionary)Activator.CreateInstance(m_type);
dictionary = new Dictionary <Object, Object>();
}
abstractHessianInput.AddRef(dictionary);
while (!abstractHessianInput.IsEnd())
{
Object key = abstractHessianInput.ReadObject();
Object value = abstractHessianInput.ReadObject();
if (!dictionary.Contains(key))
{
dictionary.Add(key, value);
}
}
abstractHessianInput.ReadEnd();
return(dictionary);
}
private Object ReadUntypedList(AbstractHessianInput abstractHessianInput)
{
IList listResult = new List <Object>();
abstractHessianInput.AddRef(listResult);
while (!abstractHessianInput.IsEnd())
{
listResult.Add(abstractHessianInput.ReadObject());
}
abstractHessianInput.ReadEnd();
return(listResult);
}
private Object ReadGenericList(AbstractHessianInput abstractHessianInput)
{
Type[] args = m_type.GetGenericArguments();
Type itemType = args[0];
Type listType = typeof(System.Collections.Generic.List <>).MakeGenericType(itemType);
object list = Activator.CreateInstance(listType);
abstractHessianInput.AddRef(list);
while (!abstractHessianInput.IsEnd())
{
object item = abstractHessianInput.ReadObject(itemType);
listType.InvokeMember("Add", BindingFlags.InvokeMethod, null, list, new object[] { item });
}
abstractHessianInput.ReadEnd();
return(list);
}
public override object ReadMap(AbstractHessianInput abstractHessianInput)
{
string enumName = null;
while (!abstractHessianInput.IsEnd())
{
string key = abstractHessianInput.ReadString();
if (key.Equals("name"))
{
enumName = abstractHessianInput.ReadString();
}
else
{
abstractHessianInput.ReadObject(); // ignore
}
}
abstractHessianInput.ReadMapEnd();
object result = Enum.Parse(e_type, enumName, false);
abstractHessianInput.AddRef(result);
return(result);
}
/// <summary>
/// Reads map
/// </summary>
/// <param name="abstractHessianInput">HessianInput to read from</param>
/// <returns>Read object or null</returns>
public object ReadMap(AbstractHessianInput abstractHessianInput, Object result)
{
int refer = abstractHessianInput.AddRef(result);
while (!abstractHessianInput.IsEnd())
{
object objKey = abstractHessianInput.ReadObject();
IDictionary deserPropertys = GetDeserializablePropertys();
PropertyInfo property = null;
property = (PropertyInfo)deserPropertys[objKey];
if (property != null)
{
if (property.PropertyType == typeof(System.Decimal))
{
int a = 10;
}
object objPropertyValue = abstractHessianInput.ReadObject(property.PropertyType);
try
{
property.SetValue(result, objPropertyValue, null);
}
catch (Exception e)
{
}
}
else
{
// mw BUGFIX!!!
object ignoreme = abstractHessianInput.ReadObject();
}
}
abstractHessianInput.ReadEnd();
return(result);
}
/// <summary>
/// Reads arrays
/// </summary>
/// <param name="abstractHessianInput">Hessian Input instance</param>
/// <param name="intLength">Array length</param>
/// <exception cref="CHessianException"/>
/// <returns>Read object</returns>
public override Object ReadList(AbstractHessianInput abstractHessianInput, int intLength)
{
switch (m_intCode)
{
case INTEGER_ARRAY:
{
if (intLength >= 0)
{
int []arrData = new int[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = abstractHessianInput.ReadInt();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (! abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadInt());
abstractHessianInput.ReadEnd();
int []arrData = new int[arrayList.Count];
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (int) arrayList[i];
abstractHessianInput.AddRef(arrData);
return arrData;
}
}
case SBYTE_ARRAY:
{
if (intLength >= 0)
{
sbyte[] arrData = new sbyte[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (sbyte)abstractHessianInput.ReadInt();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (!abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadInt());
abstractHessianInput.ReadEnd();
sbyte[] arrData = new sbyte[arrayList.Count];
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (sbyte)arrayList[i];
abstractHessianInput.AddRef(arrData);
return arrData;
}
}
case STRING_ARRAY:
{
if (intLength >= 0)
{
string []arrData = new String[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = abstractHessianInput.ReadString();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (! abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadString());
abstractHessianInput.ReadEnd();
string []arrData = new String[arrayList.Count];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (string) arrayList[i];
return arrData;
}
}
case BOOLEAN_ARRAY:
{
if (intLength >= 0)
{
bool []arrData = new bool[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = abstractHessianInput.ReadBoolean();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (! abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadBoolean());
abstractHessianInput.ReadEnd();
bool []arrData = new bool[arrayList.Count];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (bool) arrayList[i];
return arrData;
}
}
case SHORT_ARRAY:
{
if (intLength >= 0)
{
short []arrData = new short[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (short) abstractHessianInput.ReadInt();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (! abstractHessianInput.IsEnd())
arrayList.Add((short) abstractHessianInput.ReadInt());
abstractHessianInput.ReadEnd();
short []arrData = new short[arrayList.Count];
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (short) arrayList[i];
abstractHessianInput.AddRef(arrData);
return arrData;
}
}
case LONG_ARRAY:
{
if (intLength >= 0)
{
long []arrData = new long[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = abstractHessianInput.ReadLong();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (! abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadLong());
abstractHessianInput.ReadEnd();
long []arrData = new long[arrayList.Count];
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (long) arrayList[i];
abstractHessianInput.AddRef(arrData);
return arrData;
}
}
case FLOAT_ARRAY:
{
if (intLength >= 0)
{
float []arrData = new float[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (float)(abstractHessianInput.ReadDouble());
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (! abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadDouble());
abstractHessianInput.ReadEnd();
float []arrData = new float[arrayList.Count];
for (int i = 0; i < arrData.Length; i++)
arrData[i] = (float) arrayList[i];
abstractHessianInput.AddRef(arrData);
return arrData;
}
}
case DOUBLE_ARRAY:
{
if (intLength >= 0)
{
double []arrData = new double[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = abstractHessianInput.ReadDouble();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
while (! abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadDouble());
abstractHessianInput.ReadEnd();
double []data = new double[arrayList.Count];
abstractHessianInput.AddRef(data);
for (int i = 0; i < data.Length; i++)
data[i] = (double) arrayList[i];
return data;
}
}
case OBJECT_ARRAY:
{
if (intLength >= 0)
{
object []arrData = new Object[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
arrData[i] = abstractHessianInput.ReadObject();
abstractHessianInput.ReadEnd();
return arrData;
}
else
{
ArrayList arrayList = new ArrayList();
abstractHessianInput.AddRef(arrayList); // XXX: potential issues here
while (! abstractHessianInput.IsEnd())
arrayList.Add(abstractHessianInput.ReadObject());
abstractHessianInput.ReadEnd();
object []arrData = new Object[arrayList.Count];
for (int i = 0; i < arrData.Length; i++)
arrData[i] = arrayList[i];
return arrData;
}
}
default:
throw new CHessianException("not supperted type for deserialization");
}
}
public override object ReadMap(AbstractHessianInput abstractHessianInput)
{
string enumName = null;
while (!abstractHessianInput.IsEnd())
{
string key = abstractHessianInput.ReadString();
if (key.Equals("name"))
enumName = abstractHessianInput.ReadString();
else
abstractHessianInput.ReadObject(); // ignore
}
abstractHessianInput.ReadMapEnd();
object result = Enum.Parse(e_type, enumName, false);
abstractHessianInput.AddRef(result);
return result;
}
public override object ReadMap(AbstractHessianInput abstractHessianInput)
{
Dictionary <Object, Object> fieldValueMap = new Dictionary <Object, Object>();
string _message = null;
Exception _innerException = null;
while (!abstractHessianInput.IsEnd())
{
object objKey = abstractHessianInput.ReadObject();
if (objKey != null)
{
IDictionary deserFields = GetDeserializableFields();
FieldInfo field = (FieldInfo)deserFields[objKey];
// try to convert a Java Exception in a .NET exception
if (objKey.ToString() == "_message" || objKey.ToString() == "detailMessage")
{
if (field != null)
{
_message = abstractHessianInput.ReadObject(field.FieldType) as string;
}
else
{
_message = abstractHessianInput.ReadObject().ToString();
}
}
else if (objKey.ToString() == "_innerException" || objKey.ToString() == "cause")
{
try
{
if (field != null)
{
_innerException = abstractHessianInput.ReadObject(field.FieldType) as Exception;
}
else
{
_innerException = abstractHessianInput.ReadObject(typeof(Exception)) as Exception;
}
}
catch (Exception)
{
// als Cause ist bei Java gerne mal eine zirkuläre Referenz auf die Exception selbst
// angegeben. Das klappt nicht, weil die Referenz noch nicht registriert ist,
// weil der Typ noch nicht klar ist (s.u.)
}
}
else
{
if (field != null)
{
object objFieldValue = abstractHessianInput.ReadObject(field.FieldType);
fieldValueMap.Add(field, objFieldValue);
}
else
{
// ignore (z. B. Exception Stacktrace "stackTrace" von Java)
abstractHessianInput.ReadObject();
}
//field.SetValue(result, objFieldValue);
}
}
}
abstractHessianInput.ReadEnd();
object result = null;
try
{
#if COMPACT_FRAMEWORK
//CF TODO: tbd
#else
try
{
result = Activator.CreateInstance(this.m_type, new object[2] {
_message, _innerException
});
}
catch (Exception)
{
try
{
result = Activator.CreateInstance(this.m_type, new object[1] {
_innerException
});
}
catch (Exception)
{
try
{
result = Activator.CreateInstance(this.m_type, new object[1] {
_message
});
}
catch (Exception)
{
result = Activator.CreateInstance(this.m_type);
}
}
}
#endif
}
catch (Exception)
{
result = new Exception(_message, _innerException);
}
foreach (KeyValuePair <object, object> entry in fieldValueMap)
{
FieldInfo fieldInfo = (FieldInfo)entry.Key;
object value = entry.Value;
try { fieldInfo.SetValue(result, value); } catch (Exception) {}
}
// besser spät als gar nicht.
int refer = abstractHessianInput.AddRef(result);
return(result);
}
public override object ReadMap(AbstractHessianInput abstractHessianInput)
{
Dictionary<Object, Object> fieldValueMap = new Dictionary<Object, Object>();
string _message = null;
Exception _innerException = null;
while (! abstractHessianInput.IsEnd())
{
object objKey = abstractHessianInput.ReadObject();
if(objKey != null)
{
IDictionary deserFields = GetDeserializableFields();
FieldInfo field = (FieldInfo) deserFields[objKey];
// try to convert a Java Exception in a .NET exception
if(objKey.ToString() == "_message" || objKey.ToString() == "detailMessage")
{
if (field != null)
_message = abstractHessianInput.ReadObject(field.FieldType) as string;
else
_message = abstractHessianInput.ReadObject().ToString();
}
else if(objKey.ToString() == "_innerException" || objKey.ToString() == "cause")
{
try
{
if (field != null)
_innerException = abstractHessianInput.ReadObject(field.FieldType) as Exception;
else
_innerException = abstractHessianInput.ReadObject(typeof(Exception)) as Exception;
}
catch (Exception)
{
// als Cause ist bei Java gerne mal eine zirkuläre Referenz auf die Exception selbst
// angegeben. Das klappt nicht, weil die Referenz noch nicht registriert ist,
// weil der Typ noch nicht klar ist (s.u.)
}
}
else
{
if (field != null)
{
object objFieldValue = abstractHessianInput.ReadObject(field.FieldType);
fieldValueMap.Add(field, objFieldValue);
} else
// ignore (z. B. Exception Stacktrace "stackTrace" von Java)
abstractHessianInput.ReadObject();
//field.SetValue(result, objFieldValue);
}
}
}
abstractHessianInput.ReadEnd();
object result = null;
try
{
#if COMPACT_FRAMEWORK
//CF TODO: tbd
#else
try
{
result = Activator.CreateInstance(this.m_type, new object[2]{_message, _innerException});
}
catch(Exception)
{
try
{
result = Activator.CreateInstance(this.m_type, new object[1]{_innerException});
}
catch(Exception)
{
try
{
result = Activator.CreateInstance(this.m_type, new object[1]{_message});
}
catch(Exception)
{
result = Activator.CreateInstance(this.m_type);
}
}
}
#endif
}
catch(Exception)
{
result = new Exception(_message, _innerException);
}
foreach (KeyValuePair<object, object> entry in fieldValueMap)
{
FieldInfo fieldInfo = (FieldInfo) entry.Key;
object value = entry.Value;
try {fieldInfo.SetValue(result, value);} catch(Exception){}
}
// besser spät als gar nicht.
int refer = abstractHessianInput.AddRef(result);
return result;
}
private Object ReadUntypedList(AbstractHessianInput abstractHessianInput)
{
IList listResult = new List<Object>();
abstractHessianInput.AddRef(listResult);
while (!abstractHessianInput.IsEnd())
listResult.Add(abstractHessianInput.ReadObject());
abstractHessianInput.ReadEnd();
return listResult;
}
/// <summary>
/// Reads map
/// </summary>
/// <param name="abstractHessianInput">HessianInput to read from</param>
/// <returns>Read object or null</returns>
public object ReadMap(AbstractHessianInput abstractHessianInput, Object result)
{
int refer = abstractHessianInput.AddRef(result);
while (! abstractHessianInput.IsEnd())
{
object objKey = abstractHessianInput.ReadObject();
IDictionary deserFields = GetDeserializableFields();
FieldInfo field = null;
field = (FieldInfo)deserFields[objKey];
if (field != null)
{
object objFieldValue = abstractHessianInput.ReadObject(field.FieldType);
field.SetValue(result, objFieldValue);
}
else
{
// mw BUGFIX!!!
object ignoreme = abstractHessianInput.ReadObject();
}
}
abstractHessianInput.ReadEnd();
return result;
}
/// <summary>
/// Reads arrays
/// </summary>
/// <param name="abstractHessianInput">Hessian Input instance</param>
/// <param name="intLength">Array length</param>
/// <exception cref="CHessianException"/>
/// <returns>Read object</returns>
public override Object ReadList(AbstractHessianInput abstractHessianInput, int intLength)
{
switch (m_intCode)
{
case INTEGER_ARRAY:
{
if (intLength >= 0)
{
int [] arrData = new int[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = abstractHessianInput.ReadInt();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadInt());
}
abstractHessianInput.ReadEnd();
int [] arrData = new int[list.Count];
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (int)list[i];
}
abstractHessianInput.AddRef(arrData);
return(arrData);
}
}
case SBYTE_ARRAY:
{
if (intLength >= 0)
{
sbyte[] arrData = new sbyte[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (sbyte)abstractHessianInput.ReadInt();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadInt());
}
abstractHessianInput.ReadEnd();
sbyte[] arrData = new sbyte[list.Count];
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (sbyte)list[i];
}
abstractHessianInput.AddRef(arrData);
return(arrData);
}
}
case STRING_ARRAY:
{
if (intLength >= 0)
{
string [] arrData = new String[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = abstractHessianInput.ReadString();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadString());
}
abstractHessianInput.ReadEnd();
string [] arrData = new String[list.Count];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (string)list[i];
}
return(arrData);
}
}
case BOOLEAN_ARRAY:
{
if (intLength >= 0)
{
bool [] arrData = new bool[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = abstractHessianInput.ReadBoolean();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadBoolean());
}
abstractHessianInput.ReadEnd();
bool [] arrData = new bool[list.Count];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (bool)list[i];
}
return(arrData);
}
}
case SHORT_ARRAY:
{
if (intLength >= 0)
{
short [] arrData = new short[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (short)abstractHessianInput.ReadInt();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add((short)abstractHessianInput.ReadInt());
}
abstractHessianInput.ReadEnd();
short [] arrData = new short[list.Count];
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (short)list[i];
}
abstractHessianInput.AddRef(arrData);
return(arrData);
}
}
case LONG_ARRAY:
{
if (intLength >= 0)
{
long [] arrData = new long[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = abstractHessianInput.ReadLong();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadLong());
}
abstractHessianInput.ReadEnd();
long [] arrData = new long[list.Count];
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (long)list[i];
}
abstractHessianInput.AddRef(arrData);
return(arrData);
}
}
case FLOAT_ARRAY:
{
if (intLength >= 0)
{
float [] arrData = new float[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (float)(abstractHessianInput.ReadDouble());
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadDouble());
}
abstractHessianInput.ReadEnd();
float [] arrData = new float[list.Count];
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = (float)list[i];
}
abstractHessianInput.AddRef(arrData);
return(arrData);
}
}
case DOUBLE_ARRAY:
{
if (intLength >= 0)
{
double [] arrData = new double[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = abstractHessianInput.ReadDouble();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadDouble());
}
abstractHessianInput.ReadEnd();
double [] data = new double[list.Count];
abstractHessianInput.AddRef(data);
for (int i = 0; i < data.Length; i++)
{
data[i] = (double)list[i];
}
return(data);
}
}
case OBJECT_ARRAY:
{
if (intLength >= 0)
{
object [] arrData = new Object[intLength];
abstractHessianInput.AddRef(arrData);
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = abstractHessianInput.ReadObject();
}
abstractHessianInput.ReadEnd();
return(arrData);
}
else
{
List <Object> list = new List <Object>();
abstractHessianInput.AddRef(list); // XXX: potential issues here
while (!abstractHessianInput.IsEnd())
{
list.Add(abstractHessianInput.ReadObject());
}
abstractHessianInput.ReadEnd();
object [] arrData = new Object[list.Count];
for (int i = 0; i < arrData.Length; i++)
{
arrData[i] = list[i];
}
return(arrData);
}
}
default:
throw new CHessianException("not supperted type for deserialization");
}
}
/// <summary>
/// Reads the array.
/// </summary>
/// <param name="abstractHessianInput">HessianInput</param>
/// <param name="intLength">Length of data</param>
/// <returns>Array data</returns>
public override Object ReadList(AbstractHessianInput abstractHessianInput, int intLength)
{
if (intLength >= 0)
{
// mw bugfix
//Object[] arrResult = createArray(intLength);
Array arrResult = createArray(intLength);
abstractHessianInput.AddRef(arrResult);
if (m_componentType != null)
{
for (int i = 0; i < arrResult.Length; i++)
arrResult.SetValue(abstractHessianInput.ReadObject(m_componentType), i);
}
else
{
for (int i = 0; i < arrResult.Length; i++)
arrResult.SetValue(abstractHessianInput.ReadObject(), i);
}
abstractHessianInput.ReadListEnd();
return arrResult;
}
else
{
ArrayList colList = new ArrayList();
abstractHessianInput.AddRef(colList);
if (m_componentType != null)
{
while (!abstractHessianInput.IsEnd())
colList.Add(abstractHessianInput.ReadObject(m_componentType));
}
else
{
while (!abstractHessianInput.IsEnd())
colList.Add(abstractHessianInput.ReadObject());
}
abstractHessianInput.ReadListEnd();
//Object[] arrResult = createArray(colList.Count);
Array arrResult = createArray(colList.Count);
for (int i = 0; i < colList.Count; i++)
arrResult.SetValue(colList[i], i);
return arrResult;
}
}
private Object ReadGenericList(AbstractHessianInput abstractHessianInput)
{
Type[] args = m_type.GetGenericArguments();
Type itemType = args[0];
Type listType = typeof(System.Collections.Generic.List<>).MakeGenericType(itemType);
object list = Activator.CreateInstance(listType);
abstractHessianInput.AddRef(list);
while (!abstractHessianInput.IsEnd())
{
object item = abstractHessianInput.ReadObject(itemType);
listType.InvokeMember("Add", BindingFlags.InvokeMethod, null, list, new object[] { item });
}
abstractHessianInput.ReadEnd();
return list;
}
/// <summary>
/// Reads map from input
/// </summary>
/// <param name="abstractHessianInput">Input stream</param>
/// <returns>Read map or null</returns>
public override object ReadMap(AbstractHessianInput abstractHessianInput)
{
IDictionary dictionary = null;
if ((m_type == null) || (m_type.IsInterface && typeof(IDictionary).IsAssignableFrom(m_type)))
dictionary = new Dictionary<Object, Object>();
else if (m_type.Equals(typeof(Dictionary<Object, Object>)))
dictionary = new Dictionary<Object, Object>();
else
{
//dictionary = (IDictionary)Activator.CreateInstance(m_type);
dictionary = new Dictionary<Object, Object>();
}
abstractHessianInput.AddRef(dictionary);
while (! abstractHessianInput.IsEnd())
{
Object key = abstractHessianInput.ReadObject();
Object value = abstractHessianInput.ReadObject();
if (!dictionary.Contains(key))
{
dictionary.Add(key, value);
}
}
abstractHessianInput.ReadEnd();
return dictionary;
}