activemq-cpp/src/main/activemq/commands/Message.h - activemq-cpp - Git at Google

 /*
  * Licensed to the Apache Software Foundation (ASF) under one or more
  * contributor license agreements.  See the NOTICE file distributed with
  * this work for additional information regarding copyright ownership.
  * The ASF licenses this file to You under the Apache License, Version 2.0
  * (the "License"); you may not use this file except in compliance with
  * the License.  You may obtain a copy of the License at
  *
  * http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef _ACTIVEMQ_COMMANDS_MESSAGE_H_
 #define _ACTIVEMQ_COMMANDS_MESSAGE_H_

 // Turn off warning message for ignored exception specification
 #ifdef _MSC_VER
 #pragma warning( disable : 4290 )
 #endif

 #include <activemq/commands/ActiveMQDestination.h>
 #include <activemq/commands/BaseCommand.h>
 #include <activemq/commands/BrokerId.h>
 #include <activemq/commands/ConsumerId.h>
 #include <activemq/commands/DataStructure.h>
 #include <activemq/commands/MessageId.h>
 #include <activemq/commands/ProducerId.h>
 #include <activemq/commands/TransactionId.h>
 #include <activemq/core/ActiveMQAckHandler.h>
 #include <activemq/util/Config.h>
 #include <activemq/util/PrimitiveMap.h>
 #include <decaf/lang/Pointer.h>
 #include <string>
 #include <vector>

 namespace activemq{
 namespace core{
     class ActiveMQAckHandler;
     class ActiveMQConnection;
 }
 namespace commands{

     using decaf::lang::Pointer;

     /*
      *
      *  Command code for OpenWire format for Message
      *
      *  NOTE!: This file is auto generated - do not modify!
      *         if you need to make a change, please see the Java Classes
      *         in the activemq-cpp-openwire-generator module
      *
      */
     class AMQCPP_API Message : public BaseCommand {
     protected:

         Pointer<ProducerId> producerId;
         Pointer<ActiveMQDestination> destination;
         Pointer<TransactionId> transactionId;
         Pointer<ActiveMQDestination> originalDestination;
         Pointer<MessageId> messageId;
         Pointer<TransactionId> originalTransactionId;
         std::string groupID;
         int groupSequence;
         std::string correlationId;
         bool persistent;
         long long expiration;
         unsigned char priority;
         Pointer<ActiveMQDestination> replyTo;
         long long timestamp;
         std::string type;
         std::vector<unsigned char> content;
         std::vector<unsigned char> marshalledProperties;
         Pointer<DataStructure> dataStructure;
         Pointer<ConsumerId> targetConsumerId;
         bool compressed;
         int redeliveryCounter;
         std::vector< decaf::lang::Pointer<BrokerId> > brokerPath;
         long long arrival;
         std::string userID;
         bool recievedByDFBridge;
         bool droppable;
         std::vector< decaf::lang::Pointer<BrokerId> > cluster;
         long long brokerInTime;
         long long brokerOutTime;
         bool jMSXGroupFirstForConsumer;

     public:

         const static unsigned char ID_MESSAGE = 0;

     private:

         // Used to allow a client to call Message::acknowledge when in the Client
         // Ack mode.
         Pointer<core::ActiveMQAckHandler> ackHandler;

         // Message properties, these are Marshaled and Unmarshaled from the Message
         // Command's marshaledProperties vector.
         activemq::util::PrimitiveMap properties;

         // Indicates if the Message Properties are Read Only
         bool readOnlyProperties;

         // Indicates if the Message Body are Read Only
         bool readOnlyBody;

     protected:

         core::ActiveMQConnection* connection;

         static const unsigned int DEFAULT_MESSAGE_SIZE = 1024;

     private:

         Message(const Message&);
         Message& operator= (const Message&);

     public:

         Message();

         virtual ~Message();

         virtual unsigned char getDataStructureType() const;

         virtual Message* cloneDataStructure() const;

         virtual void copyDataStructure(const DataStructure* src);

         virtual std::string toString() const;

         virtual bool equals(const DataStructure* value) const;

         /**
          * Create a Pointer based copy of this message.  Useful for chaining a clone
          * operation with other operation such as casting to a cms Message type.
          *
          *   Pointer<cms::Message> cmsMsg = message->copy().dynamic_cast<cms::Message>();
          *
          * @return a Pointer<Message> which is a duplicate of this object.
          */
         Pointer<Message> copy() const {
             return Pointer<Message>(this->cloneDataStructure());
         }

         /**
          * Handles the marshaling of the objects properties into the
          * internal byte array before the object is marshaled to the
          * wire
          * @param wireFormat - the wireformat controller
          */
         virtual void beforeMarshal(wireformat::WireFormat* wireFormat AMQCPP_UNUSED);

         /**
          * Called after unmarshaling is started to cleanup the object being
          * unmarshaled.
          * @param wireFormat - the wireformat object to control unmarshaling
          */
         virtual void afterUnmarshal(wireformat::WireFormat* wireFormat AMQCPP_UNUSED);

         /**
          * Indicates that this command is aware of Marshaling, and needs
          * to have its Marshaling methods invoked.
          * @return boolean indicating desire to be in marshaling stages
          */
         virtual bool isMarshalAware() const {
             return true;
         }

         /**
          * Sets the Acknowledgment Handler that this Message will use
          * when the Acknowledge method is called.
          * @param handler ActiveMQAckHandler to call
          */
         virtual void setAckHandler(const Pointer<core::ActiveMQAckHandler>& handler) {
             this->ackHandler = handler;
         }

         /**
          * Gets the Acknowledgment Handler that this Message will use
          * when the Acknowledge method is called.
          * @return handler ActiveMQAckHandler to call or NULL if not set
          */
         virtual Pointer<core::ActiveMQAckHandler> getAckHandler() const {
             return this->ackHandler;
         }

         /**
          * Sets the ActiveMQConnection instance that this Command was created from
          * when the session create methods are called to create a Message..
          * @param handler ActiveMQConnection parent for this message
          */
         void setConnection(core::ActiveMQConnection* connection) {
             this->connection = connection;
         }

         /**
          * Gets the ActiveMQConnection instance that this Command was created from
          * when the session create methods are called to create a Message..
          * @return the ActiveMQConnection parent for this Message or NULL if not set.
          */
         core::ActiveMQConnection* getConnection() const {
             return this->connection;
         }

         /**
          * Returns the Size of this message in Bytes.
          * @return number of bytes this message equates to.
          */
         virtual unsigned int getSize() const;

         /**
          * Returns if this message has expired, meaning that its
          * Expiration time has elapsed.
          * @return true if message is expired.
          */
         virtual bool isExpired() const;

         /**
          * Allows derived Message classes to perform tasks before a message is sent.
          */
         virtual void onSend() {}

         /**
          * Gets a reference to the Message's Properties object, allows the derived
          * classes to get and set their own specific properties.
          *
          * @return a reference to the Primitive Map that holds message properties.
          */
         util::PrimitiveMap& getMessageProperties() {
             return this->properties;
         }
         const util::PrimitiveMap& getMessageProperties() const {
             return this->properties;
         }

         /**
          * Returns if the Message Properties Are Read Only
          * @return true if Message Properties are Read Only.
          */
         bool isReadOnlyProperties() const {
             return this->readOnlyProperties;
         }

         /**
          * Set the Read Only State of the Message Properties.
          * @param value - true if Properties should be read only.
          */
         void setReadOnlyProperties(bool value) {
             this->readOnlyProperties = value;
         }

         /**
          * Returns if the Message Body is Read Only
          * @return true if Message Content is Read Only.
          */
         bool isReadOnlyBody() const {
             return this->readOnlyBody;
         }

         /**
          * Set the Read Only State of the Message Content.
          * @param value - true if Content should be read only.
          */
         void setReadOnlyBody(bool value) {
             this->readOnlyBody = value;
         }

         virtual const Pointer<ProducerId>& getProducerId() const;
         virtual Pointer<ProducerId>& getProducerId();
         virtual void setProducerId(const Pointer<ProducerId>& producerId);

         virtual const Pointer<ActiveMQDestination>& getDestination() const;
         virtual Pointer<ActiveMQDestination>& getDestination();
         virtual void setDestination(const Pointer<ActiveMQDestination>& destination);

         virtual const Pointer<TransactionId>& getTransactionId() const;
         virtual Pointer<TransactionId>& getTransactionId();
         virtual void setTransactionId(const Pointer<TransactionId>& transactionId);

         virtual const Pointer<ActiveMQDestination>& getOriginalDestination() const;
         virtual Pointer<ActiveMQDestination>& getOriginalDestination();
         virtual void setOriginalDestination(const Pointer<ActiveMQDestination>& originalDestination);

         virtual const Pointer<MessageId>& getMessageId() const;
         virtual Pointer<MessageId>& getMessageId();
         virtual void setMessageId(const Pointer<MessageId>& messageId);

         virtual const Pointer<TransactionId>& getOriginalTransactionId() const;
         virtual Pointer<TransactionId>& getOriginalTransactionId();
         virtual void setOriginalTransactionId(const Pointer<TransactionId>& originalTransactionId);

         virtual const std::string& getGroupID() const;
         virtual std::string& getGroupID();
         virtual void setGroupID(const std::string& groupID);

         virtual int getGroupSequence() const;
         virtual void setGroupSequence(int groupSequence);

         virtual const std::string& getCorrelationId() const;
         virtual std::string& getCorrelationId();
         virtual void setCorrelationId(const std::string& correlationId);

         virtual bool isPersistent() const;
         virtual void setPersistent(bool persistent);

         virtual long long getExpiration() const;
         virtual void setExpiration(long long expiration);

         virtual unsigned char getPriority() const;
         virtual void setPriority(unsigned char priority);

         virtual const Pointer<ActiveMQDestination>& getReplyTo() const;
         virtual Pointer<ActiveMQDestination>& getReplyTo();
         virtual void setReplyTo(const Pointer<ActiveMQDestination>& replyTo);

         virtual long long getTimestamp() const;
         virtual void setTimestamp(long long timestamp);

         virtual const std::string& getType() const;
         virtual std::string& getType();
         virtual void setType(const std::string& type);

         virtual const std::vector<unsigned char>& getContent() const;
         virtual std::vector<unsigned char>& getContent();
         virtual void setContent(const std::vector<unsigned char>& content);

         virtual const std::vector<unsigned char>& getMarshalledProperties() const;
         virtual std::vector<unsigned char>& getMarshalledProperties();
         virtual void setMarshalledProperties(const std::vector<unsigned char>& marshalledProperties);

         virtual const Pointer<DataStructure>& getDataStructure() const;
         virtual Pointer<DataStructure>& getDataStructure();
         virtual void setDataStructure(const Pointer<DataStructure>& dataStructure);

         virtual const Pointer<ConsumerId>& getTargetConsumerId() const;
         virtual Pointer<ConsumerId>& getTargetConsumerId();
         virtual void setTargetConsumerId(const Pointer<ConsumerId>& targetConsumerId);

         virtual bool isCompressed() const;
         virtual void setCompressed(bool compressed);

         virtual int getRedeliveryCounter() const;
         virtual void setRedeliveryCounter(int redeliveryCounter);

         virtual const std::vector< decaf::lang::Pointer<BrokerId> >& getBrokerPath() const;
         virtual std::vector< decaf::lang::Pointer<BrokerId> >& getBrokerPath();
         virtual void setBrokerPath(const std::vector< decaf::lang::Pointer<BrokerId> >& brokerPath);

         virtual long long getArrival() const;
         virtual void setArrival(long long arrival);

         virtual const std::string& getUserID() const;
         virtual std::string& getUserID();
         virtual void setUserID(const std::string& userID);

         virtual bool isRecievedByDFBridge() const;
         virtual void setRecievedByDFBridge(bool recievedByDFBridge);

         virtual bool isDroppable() const;
         virtual void setDroppable(bool droppable);

         virtual const std::vector< decaf::lang::Pointer<BrokerId> >& getCluster() const;
         virtual std::vector< decaf::lang::Pointer<BrokerId> >& getCluster();
         virtual void setCluster(const std::vector< decaf::lang::Pointer<BrokerId> >& cluster);

         virtual long long getBrokerInTime() const;
         virtual void setBrokerInTime(long long brokerInTime);

         virtual long long getBrokerOutTime() const;
         virtual void setBrokerOutTime(long long brokerOutTime);

         virtual bool isJMSXGroupFirstForConsumer() const;
         virtual void setJMSXGroupFirstForConsumer(bool jMSXGroupFirstForConsumer);

         /**
          * @return an answer of true to the isMessage() query.
          */
         virtual bool isMessage() const {
             return true;
         }

         virtual Pointer<Command> visit(activemq::state::CommandVisitor* visitor);

     };

 }}

 #endif /*_ACTIVEMQ_COMMANDS_MESSAGE_H_*/
	/*
	* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed with
	* this work for additional information regarding copyright ownership.
	* The ASF licenses this file to You under the Apache License, Version 2.0
	* (the "License"); you may not use this file except in compliance with
	* the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef _ACTIVEMQ_COMMANDS_MESSAGE_H_
	#define _ACTIVEMQ_COMMANDS_MESSAGE_H_

	// Turn off warning message for ignored exception specification
	#ifdef _MSC_VER
	#pragma warning( disable : 4290 )
	#endif

	#include <activemq/commands/ActiveMQDestination.h>
	#include <activemq/commands/BaseCommand.h>
	#include <activemq/commands/BrokerId.h>
	#include <activemq/commands/ConsumerId.h>
	#include <activemq/commands/DataStructure.h>
	#include <activemq/commands/MessageId.h>
	#include <activemq/commands/ProducerId.h>
	#include <activemq/commands/TransactionId.h>
	#include <activemq/core/ActiveMQAckHandler.h>
	#include <activemq/util/Config.h>
	#include <activemq/util/PrimitiveMap.h>
	#include <decaf/lang/Pointer.h>
	#include <string>
	#include <vector>

	namespace activemq{
	namespace core{
	class ActiveMQAckHandler;
	class ActiveMQConnection;
	}
	namespace commands{

	using decaf::lang::Pointer;

	/*
	*
	* Command code for OpenWire format for Message
	*
	* NOTE!: This file is auto generated - do not modify!
	* if you need to make a change, please see the Java Classes
	* in the activemq-cpp-openwire-generator module
	*
	*/
	class AMQCPP_API Message : public BaseCommand {
	protected:

	Pointer<ProducerId> producerId;
	Pointer<ActiveMQDestination> destination;
	Pointer<TransactionId> transactionId;
	Pointer<ActiveMQDestination> originalDestination;
	Pointer<MessageId> messageId;
	Pointer<TransactionId> originalTransactionId;
	std::string groupID;
	int groupSequence;
	std::string correlationId;
	bool persistent;
	long long expiration;
	unsigned char priority;
	Pointer<ActiveMQDestination> replyTo;
	long long timestamp;
	std::string type;
	std::vector<unsigned char> content;
	std::vector<unsigned char> marshalledProperties;
	Pointer<DataStructure> dataStructure;
	Pointer<ConsumerId> targetConsumerId;
	bool compressed;
	int redeliveryCounter;
	std::vector< decaf::lang::Pointer<BrokerId> > brokerPath;
	long long arrival;
	std::string userID;
	bool recievedByDFBridge;
	bool droppable;
	std::vector< decaf::lang::Pointer<BrokerId> > cluster;
	long long brokerInTime;
	long long brokerOutTime;
	bool jMSXGroupFirstForConsumer;

	public:

	const static unsigned char ID_MESSAGE = 0;

	private:

	// Used to allow a client to call Message::acknowledge when in the Client
	// Ack mode.
	Pointer<core::ActiveMQAckHandler> ackHandler;

	// Message properties, these are Marshaled and Unmarshaled from the Message
	// Command's marshaledProperties vector.
	activemq::util::PrimitiveMap properties;

	// Indicates if the Message Properties are Read Only
	bool readOnlyProperties;

	// Indicates if the Message Body are Read Only
	bool readOnlyBody;

	protected:

	core::ActiveMQConnection* connection;

	static const unsigned int DEFAULT_MESSAGE_SIZE = 1024;

	private:

	Message(const Message&);
	Message& operator= (const Message&);

	public:

	Message();

	virtual ~Message();

	virtual unsigned char getDataStructureType() const;

	virtual Message* cloneDataStructure() const;

	virtual void copyDataStructure(const DataStructure* src);

	virtual std::string toString() const;

	virtual bool equals(const DataStructure* value) const;

	/**
	* Create a Pointer based copy of this message. Useful for chaining a clone
	* operation with other operation such as casting to a cms Message type.
	*
	* Pointer<cms::Message> cmsMsg = message->copy().dynamic_cast<cms::Message>();
	*
	* @return a Pointer<Message> which is a duplicate of this object.
	*/
	Pointer<Message> copy() const {
	return Pointer<Message>(this->cloneDataStructure());
	}

	/**
	* Handles the marshaling of the objects properties into the
	* internal byte array before the object is marshaled to the
	* wire
	* @param wireFormat - the wireformat controller
	*/
	virtual void beforeMarshal(wireformat::WireFormat* wireFormat AMQCPP_UNUSED);

	/**
	* Called after unmarshaling is started to cleanup the object being
	* unmarshaled.
	* @param wireFormat - the wireformat object to control unmarshaling
	*/
	virtual void afterUnmarshal(wireformat::WireFormat* wireFormat AMQCPP_UNUSED);

	/**
	* Indicates that this command is aware of Marshaling, and needs
	* to have its Marshaling methods invoked.
	* @return boolean indicating desire to be in marshaling stages
	*/
	virtual bool isMarshalAware() const {
	return true;
	}

	/**
	* Sets the Acknowledgment Handler that this Message will use
	* when the Acknowledge method is called.
	* @param handler ActiveMQAckHandler to call
	*/
	virtual void setAckHandler(const Pointer<core::ActiveMQAckHandler>& handler) {
	this->ackHandler = handler;
	}

	/**
	* Gets the Acknowledgment Handler that this Message will use
	* when the Acknowledge method is called.
	* @return handler ActiveMQAckHandler to call or NULL if not set
	*/
	virtual Pointer<core::ActiveMQAckHandler> getAckHandler() const {
	return this->ackHandler;
	}

	/**
	* Sets the ActiveMQConnection instance that this Command was created from
	* when the session create methods are called to create a Message..
	* @param handler ActiveMQConnection parent for this message
	*/
	void setConnection(core::ActiveMQConnection* connection) {
	this->connection = connection;
	}

	/**
	* Gets the ActiveMQConnection instance that this Command was created from
	* when the session create methods are called to create a Message..
	* @return the ActiveMQConnection parent for this Message or NULL if not set.
	*/
	core::ActiveMQConnection* getConnection() const {
	return this->connection;
	}

	/**
	* Returns the Size of this message in Bytes.
	* @return number of bytes this message equates to.
	*/
	virtual unsigned int getSize() const;

	/**
	* Returns if this message has expired, meaning that its
	* Expiration time has elapsed.
	* @return true if message is expired.
	*/
	virtual bool isExpired() const;

	/**
	* Allows derived Message classes to perform tasks before a message is sent.
	*/
	virtual void onSend() {}

	/**
	* Gets a reference to the Message's Properties object, allows the derived
	* classes to get and set their own specific properties.
	*
	* @return a reference to the Primitive Map that holds message properties.
	*/
	util::PrimitiveMap& getMessageProperties() {
	return this->properties;
	}
	const util::PrimitiveMap& getMessageProperties() const {
	return this->properties;
	}

	/**
	* Returns if the Message Properties Are Read Only
	* @return true if Message Properties are Read Only.
	*/
	bool isReadOnlyProperties() const {
	return this->readOnlyProperties;
	}

	/**
	* Set the Read Only State of the Message Properties.
	* @param value - true if Properties should be read only.
	*/
	void setReadOnlyProperties(bool value) {
	this->readOnlyProperties = value;
	}

	/**
	* Returns if the Message Body is Read Only
	* @return true if Message Content is Read Only.
	*/
	bool isReadOnlyBody() const {
	return this->readOnlyBody;
	}

	/**
	* Set the Read Only State of the Message Content.
	* @param value - true if Content should be read only.
	*/
	void setReadOnlyBody(bool value) {
	this->readOnlyBody = value;
	}

	virtual const Pointer<ProducerId>& getProducerId() const;
	virtual Pointer<ProducerId>& getProducerId();
	virtual void setProducerId(const Pointer<ProducerId>& producerId);

	virtual const Pointer<ActiveMQDestination>& getDestination() const;
	virtual Pointer<ActiveMQDestination>& getDestination();
	virtual void setDestination(const Pointer<ActiveMQDestination>& destination);

	virtual const Pointer<TransactionId>& getTransactionId() const;
	virtual Pointer<TransactionId>& getTransactionId();
	virtual void setTransactionId(const Pointer<TransactionId>& transactionId);

	virtual const Pointer<ActiveMQDestination>& getOriginalDestination() const;
	virtual Pointer<ActiveMQDestination>& getOriginalDestination();
	virtual void setOriginalDestination(const Pointer<ActiveMQDestination>& originalDestination);

	virtual const Pointer<MessageId>& getMessageId() const;
	virtual Pointer<MessageId>& getMessageId();
	virtual void setMessageId(const Pointer<MessageId>& messageId);

	virtual const Pointer<TransactionId>& getOriginalTransactionId() const;
	virtual Pointer<TransactionId>& getOriginalTransactionId();
	virtual void setOriginalTransactionId(const Pointer<TransactionId>& originalTransactionId);

	virtual const std::string& getGroupID() const;
	virtual std::string& getGroupID();
	virtual void setGroupID(const std::string& groupID);

	virtual int getGroupSequence() const;
	virtual void setGroupSequence(int groupSequence);

	virtual const std::string& getCorrelationId() const;
	virtual std::string& getCorrelationId();
	virtual void setCorrelationId(const std::string& correlationId);

	virtual bool isPersistent() const;
	virtual void setPersistent(bool persistent);

	virtual long long getExpiration() const;
	virtual void setExpiration(long long expiration);

	virtual unsigned char getPriority() const;
	virtual void setPriority(unsigned char priority);

	virtual const Pointer<ActiveMQDestination>& getReplyTo() const;
	virtual Pointer<ActiveMQDestination>& getReplyTo();
	virtual void setReplyTo(const Pointer<ActiveMQDestination>& replyTo);

	virtual long long getTimestamp() const;
	virtual void setTimestamp(long long timestamp);

	virtual const std::string& getType() const;
	virtual std::string& getType();
	virtual void setType(const std::string& type);

	virtual const std::vector<unsigned char>& getContent() const;
	virtual std::vector<unsigned char>& getContent();
	virtual void setContent(const std::vector<unsigned char>& content);

	virtual const std::vector<unsigned char>& getMarshalledProperties() const;
	virtual std::vector<unsigned char>& getMarshalledProperties();
	virtual void setMarshalledProperties(const std::vector<unsigned char>& marshalledProperties);

	virtual const Pointer<DataStructure>& getDataStructure() const;
	virtual Pointer<DataStructure>& getDataStructure();
	virtual void setDataStructure(const Pointer<DataStructure>& dataStructure);

	virtual const Pointer<ConsumerId>& getTargetConsumerId() const;
	virtual Pointer<ConsumerId>& getTargetConsumerId();
	virtual void setTargetConsumerId(const Pointer<ConsumerId>& targetConsumerId);

	virtual bool isCompressed() const;
	virtual void setCompressed(bool compressed);

	virtual int getRedeliveryCounter() const;
	virtual void setRedeliveryCounter(int redeliveryCounter);

	virtual const std::vector< decaf::lang::Pointer<BrokerId> >& getBrokerPath() const;
	virtual std::vector< decaf::lang::Pointer<BrokerId> >& getBrokerPath();
	virtual void setBrokerPath(const std::vector< decaf::lang::Pointer<BrokerId> >& brokerPath);

	virtual long long getArrival() const;
	virtual void setArrival(long long arrival);

	virtual const std::string& getUserID() const;
	virtual std::string& getUserID();
	virtual void setUserID(const std::string& userID);

	virtual bool isRecievedByDFBridge() const;
	virtual void setRecievedByDFBridge(bool recievedByDFBridge);

	virtual bool isDroppable() const;
	virtual void setDroppable(bool droppable);

	virtual const std::vector< decaf::lang::Pointer<BrokerId> >& getCluster() const;
	virtual std::vector< decaf::lang::Pointer<BrokerId> >& getCluster();
	virtual void setCluster(const std::vector< decaf::lang::Pointer<BrokerId> >& cluster);

	virtual long long getBrokerInTime() const;
	virtual void setBrokerInTime(long long brokerInTime);

	virtual long long getBrokerOutTime() const;
	virtual void setBrokerOutTime(long long brokerOutTime);

	virtual bool isJMSXGroupFirstForConsumer() const;
	virtual void setJMSXGroupFirstForConsumer(bool jMSXGroupFirstForConsumer);

	/**
	* @return an answer of true to the isMessage() query.
	*/
	virtual bool isMessage() const {
	return true;
	}

	virtual Pointer<Command> visit(activemq::state::CommandVisitor* visitor);

	};

	}}

	#endif /_ACTIVEMQ_COMMANDS_MESSAGE_H_/