public IAdaptingType read(FlashorbBinaryReader reader, ParseContext parseContext)
{
int refId = reader.ReadVarInteger();
if ((refId & 0x1) == 0)
{
return(parseContext.getReference(refId >> 1));
}
int arraySize = refId >> 1;
IAdaptingType adaptingType = null;
object container = null;
while (true)
{
string str = ReaderUtils.readString(reader, parseContext);
if (str == null || str.Length == 0)
{
break;
}
if (container == null)
{
container = new Dictionary <object, object>();
adaptingType = new AnonymousObject((IDictionary)container);
parseContext.addReference(adaptingType);
}
object obj = RequestParser.readData(reader, parseContext);
((IDictionary)container)[str] = obj;
}
if (adaptingType == null)
{
container = new object[arraySize];
adaptingType = new ArrayType((object[])container);
parseContext.addReference(adaptingType);
for (int i = 0; i < arraySize; i++)
{
((object[])container)[i] = RequestParser.readData(reader, parseContext);
}
}
else
{
for (int i = 0; i < arraySize; i++)
{
object obj = RequestParser.readData(reader, parseContext);
((IDictionary)container)[i.ToString()] = obj;
}
}
return(adaptingType);
}
public IAdaptingType read( FlashorbBinaryReader reader, ParseContext parseContext )
{
int refId = reader.ReadVarInteger();
if( (refId & 0x1) == 0 )
return parseContext.getReference( refId >> 1 );
int arraySize = refId >> 1;
IAdaptingType adaptingType = null;
object container = null;
while( true )
{
string str = ReaderUtils.readString( reader, parseContext );
if( str == null || str.Length == 0 )
break;
if( container == null )
{
container = new Dictionary<object, object>();
adaptingType = new AnonymousObject( (IDictionary) container );
parseContext.addReference( adaptingType );
}
object obj = RequestParser.readData( reader, parseContext );
((IDictionary) container)[ str ] = obj;
}
if( adaptingType == null )
{
container = new object[ arraySize ];
adaptingType = new ArrayType( (object[]) container );
parseContext.addReference( adaptingType );
for( int i = 0; i < arraySize; i++ )
((object[]) container)[ i ] = RequestParser.readData( reader, parseContext );
}
else
{
for( int i = 0; i < arraySize; i++ )
{
object obj = RequestParser.readData( reader, parseContext );
((IDictionary) container)[ i.ToString() ] = obj;
}
}
return adaptingType;
}
public IAdaptingType read( FlashorbBinaryReader reader, ParseContext parseContext )
{
//int capacity = reader.ReadInt32();
int capacity = reader.ReadInteger();
Dictionary<String, Object> properties = new Dictionary<String, Object>( capacity );
AnonymousObject anonymousObject = new AnonymousObject( properties );
parseContext.addReference( anonymousObject );
while( true )
{
String propName = reader.ReadUTF();
object obj = RequestParser.readData( reader, parseContext );
if( obj == null )
break;
properties[ propName ] = obj;
}
return anonymousObject;
}
public IAdaptingType read(FlashorbBinaryReader reader, ParseContext parseContext)
{
Dictionary <object, object> properties = new Dictionary <object, object>();
AnonymousObject anonymousObject = new AnonymousObject(properties);
parseContext.addReference(anonymousObject);
while (true)
{
string propName = reader.ReadUTF();
object obj = null;
int dataType = reader.ReadByte();
if (dataType.Equals(Datatypes.REMOTEREFERENCE_DATATYPE_V1) && !propName.Equals("nc"))
{
obj = 0d; // must be an instance of Flash's Number
}
else
{
obj = RequestParser.readData(dataType, reader, parseContext);
}
if (obj == null)
{
break;
}
properties[propName] = obj;
}
if (properties.Count == 1 && properties.ContainsKey("nc"))
{
return((IAdaptingType)properties["nc"]);
}
return(anonymousObject);
}
public IAdaptingType read(FlashorbBinaryReader reader, ParseContext parseContext)
{
//int capacity = reader.ReadInt32();
int capacity = reader.ReadInteger();
Dictionary <String, Object> properties = new Dictionary <String, Object>(capacity);
AnonymousObject anonymousObject = new AnonymousObject(properties);
parseContext.addReference(anonymousObject);
while (true)
{
String propName = reader.ReadUTF();
object obj = RequestParser.readData(reader, parseContext);
if (obj == null)
{
break;
}
properties[propName] = obj;
}
return(anonymousObject);
}
// in order to avoid cyclic comparasion we need to remember visited objects
public bool Equals(object _obj, Dictionary <DictionaryEntry, bool> visitedPairs)
{
AnonymousObject obj = _obj as AnonymousObject;
// DictionaryEntry comparisionPair = new DictionaryEntry( this, _obj );
// visitedPairs[ comparisionPair ] = true;
if (obj == null)
{
return(false);
}
if (Object.ReferenceEquals(this, _obj))
{
return(true);
}
return(this.anonymousObjectGuid.Equals(obj.anonymousObjectGuid));
/*
* if( properties.Count != obj.properties.Count )
* return false;
*
* foreach( DictionaryEntry dictionaryEntry in properties )
* if( !obj.properties.Contains( dictionaryEntry.Key ) ||
* ( !visitedPairs.ContainsKey( new DictionaryEntry(obj.properties[ dictionaryEntry.Key ], dictionaryEntry.Value) )
* && !( (IAdaptingType) obj.properties[ dictionaryEntry.Key ] ).Equals( dictionaryEntry.Value, visitedPairs ) )
* )
* {
* visitedPairs.Remove( comparisionPair );
* return false;
* }
*
* visitedPairs.Remove( comparisionPair );
* return true;*/
}
public IAdaptingType read( FlashorbBinaryReader reader, ParseContext parseContext )
{
int refId = reader.ReadVarInteger();
if( (refId & 0x1) == 0 )
return (IAdaptingType) parseContext.getReference( refId >> 1 );
ClassInfo classInfo = getClassInfo( refId, reader, parseContext );
Type mappedType = null;
if ( !string.IsNullOrEmpty( classInfo.className ) )
mappedType = Types.Types.getServerTypeForClientClass( classInfo.className );
if ( classInfo.externalizable || typeof( IExternalizable ).IsAssignableFrom( mappedType ) )
{
Type type = Types.Types.getServerTypeForClientClass( classInfo.className );
object extobj = null;
if( type != null )
extobj = ObjectFactories.CreateServiceObject( type );
else
extobj = ObjectFactories.CreateServiceObject( classInfo.className );
if( !(extobj is IExternalizable) )
{
throw new Exception( "object must implement IExternalizable" );
}
else
{
CacheableAdaptingTypeWrapper wrapper = new CacheableAdaptingTypeWrapper();
parseContext.addReference( wrapper );
IAdaptingType returnValue = null;
extobj = ((IExternalizable)extobj).readExternal( reader, parseContext );
if( extobj is IAdaptingType )
returnValue = (IAdaptingType) extobj;
else
returnValue = new ConcreteObject( extobj );
wrapper.setType( returnValue );
return returnValue;
}
}
else
{
Dictionary<String, IAdaptingType> props = new Dictionary<String, IAdaptingType>();
AnonymousObject anonObj = new AnonymousObject();
IAdaptingType returnValue = anonObj;
if( classInfo.className != null && classInfo.className.Length > 0 )
returnValue = new NamedObject( classInfo.className, anonObj );
parseContext.addReference( returnValue );
int propCount = classInfo.getPropertyCount();
for( int i = 0; i < propCount; i++ )
{
if( Log.isLogging( LoggingConstants.DEBUG ) )
Log.log( LoggingConstants.DEBUG, "reading object property " + classInfo.getProperty( i ) );
props[ classInfo.getProperty( i ) ] = RequestParser.readData( reader, parseContext );
}
if( classInfo.looseProps )
while( true )
{
string propName = ReaderUtils.readString( reader, parseContext );
if( propName == null || propName.Length == 0 )
break;
props[ propName ] = RequestParser.readData( reader, parseContext );
}
anonObj.Properties = props;
return returnValue;
}
}
public IAdaptingType read(FlashorbBinaryReader reader, ParseContext parseContext)
{
int refId = reader.ReadVarInteger();
if ((refId & 0x1) == 0)
{
return((IAdaptingType)parseContext.getReference(refId >> 1));
}
ClassInfo classInfo = getClassInfo(refId, reader, parseContext);
Type mappedType = null;
if (!string.IsNullOrEmpty(classInfo.className))
{
mappedType = Types.Types.getServerTypeForClientClass(classInfo.className);
}
if (classInfo.externalizable || typeof(IExternalizable).IsAssignableFrom(mappedType))
{
Type type = Types.Types.getServerTypeForClientClass(classInfo.className);
object extobj = null;
if (type != null)
{
extobj = ObjectFactories.CreateServiceObject(type);
}
else
{
extobj = ObjectFactories.CreateServiceObject(classInfo.className);
}
if (!(extobj is IExternalizable))
{
throw new Exception("object must implement IExternalizable");
}
else
{
CacheableAdaptingTypeWrapper wrapper = new CacheableAdaptingTypeWrapper();
parseContext.addReference(wrapper);
IAdaptingType returnValue = null;
extobj = ((IExternalizable)extobj).readExternal(reader, parseContext);
if (extobj is IAdaptingType)
{
returnValue = (IAdaptingType)extobj;
}
else
{
returnValue = new ConcreteObject(extobj);
}
wrapper.setType(returnValue);
return(returnValue);
}
}
else
{
Dictionary <String, IAdaptingType> props = new Dictionary <String, IAdaptingType>();
AnonymousObject anonObj = new AnonymousObject();
IAdaptingType returnValue = anonObj;
if (classInfo.className != null && classInfo.className.Length > 0)
{
returnValue = new NamedObject(classInfo.className, anonObj);
}
parseContext.addReference(returnValue);
int propCount = classInfo.getPropertyCount();
for (int i = 0; i < propCount; i++)
{
if (Log.isLogging(LoggingConstants.DEBUG))
{
Log.log(LoggingConstants.DEBUG, "reading object property " + classInfo.getProperty(i));
}
props[classInfo.getProperty(i)] = RequestParser.readData(reader, parseContext);
}
if (classInfo.looseProps)
{
while (true)
{
string propName = ReaderUtils.readString(reader, parseContext);
if (propName == null || propName.Length == 0)
{
break;
}
props[propName] = RequestParser.readData(reader, parseContext);
}
}
anonObj.Properties = props;
return(returnValue);
}
}