public object Deserialize(Stream serializationStream, HeaderHandler handler) { if (serializationStream == null) { throw new ArgumentNullException("serializationStream"); } if (serializationStream.CanSeek && (serializationStream.Length == 0L)) { throw new SerializationException(SoapUtil.GetResourceString("Serialization_Stream")); } InternalFE formatterEnums = new InternalFE { FEtypeFormat = this.m_typeFormat, FEtopObject = this.m_topObject, FEserializerTypeEnum = InternalSerializerTypeE.Soap, FEassemblyFormat = this.m_assemblyFormat, FEsecurityLevel = this.m_securityLevel }; ObjectReader objectReader = new ObjectReader(serializationStream, this.m_surrogates, this.m_context, formatterEnums, this.m_binder); if ((this.soapParser == null) || (serializationStream != this.currentStream)) { this.soapParser = new SoapParser(serializationStream); this.currentStream = serializationStream; } this.soapParser.Init(objectReader); return(objectReader.Deserialize(handler, this.soapParser)); }
public object Deserialize(Stream serializationStream, HeaderHandler handler) { if (serializationStream == null) { throw new ArgumentNullException("serializationStream"); } if (serializationStream.CanSeek && (serializationStream.Length == 0L)) { throw new SerializationException(SoapUtil.GetResourceString("Serialization_Stream")); } InternalFE formatterEnums = new InternalFE { FEtypeFormat = this.m_typeFormat, FEtopObject = this.m_topObject, FEserializerTypeEnum = InternalSerializerTypeE.Soap, FEassemblyFormat = this.m_assemblyFormat, FEsecurityLevel = this.m_securityLevel }; ObjectReader objectReader = new ObjectReader(serializationStream, this.m_surrogates, this.m_context, formatterEnums, this.m_binder); if ((this.soapParser == null) || (serializationStream != this.currentStream)) { this.soapParser = new SoapParser(serializationStream); this.currentStream = serializationStream; } this.soapParser.Init(objectReader); return objectReader.Deserialize(handler, this.soapParser); }
internal ObjectWriter(Stream stream, ISurrogateSelector selector, StreamingContext context, InternalFE formatterEnums) { if (stream == null) { throw new ArgumentNullException("stream", SoapUtil.GetResourceString("ArgumentNull_Stream")); } this.m_stream = stream; this.m_surrogates = selector; this.m_context = context; this.formatterEnums = formatterEnums; this.m_objectManager = new SerializationObjectManager(context); this.m_formatterConverter = new FormatterConverter(); }
public void Serialize(Stream serializationStream, object graph, Header[] headers) { if (serializationStream == null) { throw new ArgumentNullException("serializationStream"); } InternalFE formatterEnums = new InternalFE { FEtypeFormat = this.m_typeFormat, FEtopObject = this.m_topObject, FEserializerTypeEnum = InternalSerializerTypeE.Soap, FEassemblyFormat = this.m_assemblyFormat }; new ObjectWriter(serializationStream, this.m_surrogates, this.m_context, formatterEnums).Serialize(graph, headers, new SoapWriter(serializationStream)); }
// XMLObjectWriter Constructor internal ObjectWriter(Stream stream, ISurrogateSelector selector, StreamingContext context,InternalFE formatterEnums) { if (stream==null) { throw new ArgumentNullException("stream", SoapUtil.GetResourceString("ArgumentNull_Stream")); } m_stream=stream; m_surrogates = selector; m_context = context; this.formatterEnums = formatterEnums; InternalST.InfoSoap( formatterEnums.FEtypeFormat +" "+ ((Enum)formatterEnums.FEserializerTypeEnum)); m_formatterConverter = new FormatterConverter(); }
// Commences the process of serializing the entire graph. All of the data (in the appropriate format) // is emitted onto the stream. public void Serialize(Stream serializationStream, Object graph, Header[] headers) { InternalST.InfoSoap("Enter SoapFormatter.Serialize "); if (serializationStream == null) { throw new ArgumentNullException("serializationStream"); } InternalST.Soap(this, "Serialize Entry"); InternalFE formatterEnums = new InternalFE(); formatterEnums.FEtypeFormat = m_typeFormat; formatterEnums.FEtopObject = m_topObject; formatterEnums.FEserializerTypeEnum = InternalSerializerTypeE.Soap; formatterEnums.FEassemblyFormat = m_assemblyFormat; ObjectWriter sow = new ObjectWriter(serializationStream, m_surrogates, m_context, formatterEnums); sow.Serialize(graph, headers, new SoapWriter(serializationStream)); InternalST.InfoSoap("Leave SoapFormatter.Serialize "); }
internal ObjectReader(Stream stream, ISurrogateSelector selector, StreamingContext context, InternalFE formatterEnums, SerializationBinder binder) { if (stream == null) { throw new ArgumentNullException("stream", SoapUtil.GetResourceString("ArgumentNull_Stream")); } this.m_stream = stream; this.m_surrogates = selector; this.m_context = context; this.m_binder = binder; this.formatterEnums = formatterEnums; if (formatterEnums.FEtopObject != null) { this.IsFakeTopObject = true; } else { this.IsFakeTopObject = false; } this.m_formatterConverter = new FormatterConverter(); }
// Deserialize the stream into an object graph. public Object Deserialize(Stream serializationStream, HeaderHandler handler) { InternalST.InfoSoap("Enter SoapFormatter.Deserialize "); if (serializationStream == null) { throw new ArgumentNullException("serializationStream"); } if (serializationStream.CanSeek && (serializationStream.Length == 0)) { throw new SerializationException(SoapUtil.GetResourceString("Serialization_Stream")); } InternalST.Soap(this, "Deserialize Entry"); InternalFE formatterEnums = new InternalFE(); formatterEnums.FEtypeFormat = m_typeFormat; formatterEnums.FEtopObject = m_topObject; formatterEnums.FEserializerTypeEnum = InternalSerializerTypeE.Soap; formatterEnums.FEassemblyFormat = m_assemblyFormat; formatterEnums.FEsecurityLevel = m_securityLevel; ObjectReader sor = new ObjectReader(serializationStream, m_surrogates, m_context, formatterEnums, m_binder); // If this is the first call, or a new stream is being used a new Soap parser is created. // If this is a continuing call, then the existing SoapParser is used. // One stream can contains multiple Soap XML documents. The XMLParser buffers the XML so // that the same XMLParser has to be used to continue a stream. if ((soapParser == null) || (serializationStream != currentStream)) { soapParser = new SoapParser(serializationStream); currentStream = serializationStream; } soapParser.Init(sor); Object obj = sor.Deserialize(handler, soapParser); InternalST.InfoSoap("Leave SoapFormatter.Deserialize "); return(obj); }
internal ObjectReader(Stream stream, ISurrogateSelector selector, StreamingContext context, InternalFE formatterEnums, SerializationBinder binder) { InternalST.Soap( this, "Constructor ISurrogateSelector ",((selector == null)?"null selector ":"selector present")); if (stream==null) { throw new ArgumentNullException("stream", SoapUtil.GetResourceString("ArgumentNull_Stream")); } m_stream=stream; m_surrogates = selector; m_context = context; m_binder = binder; this.formatterEnums = formatterEnums; InternalST.Soap( this, "Constructor formatterEnums.FEtopObject ",formatterEnums.FEtopObject); if (formatterEnums.FEtopObject != null) IsFakeTopObject = true; else IsFakeTopObject = false; m_formatterConverter = new FormatterConverter(); }
// Commences the process of serializing the entire graph. All of the data (in the appropriate format) // is emitted onto the stream. public void Serialize(Stream serializationStream, Object graph, Header[] headers) { InternalST.InfoSoap("Enter SoapFormatter.Serialize "); if (serializationStream==null) { throw new ArgumentNullException("serializationStream"); } InternalST.Soap( this, "Serialize Entry"); InternalFE formatterEnums = new InternalFE(); formatterEnums.FEtypeFormat = m_typeFormat; formatterEnums.FEtopObject = m_topObject; formatterEnums.FEserializerTypeEnum = InternalSerializerTypeE.Soap; formatterEnums.FEassemblyFormat = m_assemblyFormat; ObjectWriter sow = new ObjectWriter(serializationStream, m_surrogates, m_context, formatterEnums); sow.Serialize(graph, headers, new SoapWriter(serializationStream)); InternalST.InfoSoap("Leave SoapFormatter.Serialize "); }
// Deserialize the stream into an object graph. public Object Deserialize(Stream serializationStream, HeaderHandler handler) { InternalST.InfoSoap("Enter SoapFormatter.Deserialize "); if (serializationStream==null) { throw new ArgumentNullException("serializationStream"); } if (serializationStream.CanSeek && (serializationStream.Length == 0)) throw new SerializationException(SoapUtil.GetResourceString("Serialization_Stream")); InternalST.Soap( this, "Deserialize Entry"); InternalFE formatterEnums = new InternalFE(); formatterEnums.FEtypeFormat = m_typeFormat; formatterEnums.FEtopObject = m_topObject; formatterEnums.FEserializerTypeEnum = InternalSerializerTypeE.Soap; formatterEnums.FEassemblyFormat = m_assemblyFormat; formatterEnums.FEsecurityLevel = m_securityLevel; ObjectReader sor = new ObjectReader(serializationStream, m_surrogates, m_context, formatterEnums, m_binder); // If this is the first call, or a new stream is being used a new Soap parser is created. // If this is a continuing call, then the existing SoapParser is used. // One stream can contains multiple Soap XML documents. The XMLParser buffers the XML so // that the same XMLParser has to be used to continue a stream. if ((soapParser == null) || (serializationStream != currentStream)) { soapParser = new SoapParser(serializationStream); currentStream = serializationStream; } soapParser.Init(sor); Object obj = sor.Deserialize(handler, soapParser); InternalST.InfoSoap("Leave SoapFormatter.Deserialize "); return obj; }