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/* -*- C++ -*- */

//=============================================================================
/**
 *  @file    Message_Queue_T.h
 *
 *  $Id$
 *
 *  @author Douglas C. Schmidt <schmidt@cs.wustl.edu>
 */
//=============================================================================


#ifndef ACE_MESSAGE_QUEUE_T_H
#define ACE_MESSAGE_QUEUE_T_H
#include "ace/pre.h"

#include "ace/Synch.h"

#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */

#if defined (VXWORKS)
class ACE_Message_Queue_Vx;
#endif /* defined (VXWORKS) */

#if defined (ACE_WIN32) && (ACE_HAS_WINNT4 != 0)
class ACE_Message_Queue_NT;
#endif /* ACE_WIN32 && ACE_HAS_WINNT4 != 0 */

/**
 * @class ACE_Message_Queue
 *
 * @brief A threaded message queueing facility, modeled after the
 * queueing facilities in System V STREAMs.
 *
 * An <ACE_Message_Queue> is the central queueing facility for
 * messages in the ASX framework.  If <ACE_SYNCH_DECL> is
 * <ACE_MT_SYNCH> then all operations are thread-safe.
 * Otherwise, if it's <ACE_NULL_SYNCH> then there's no locking
 * overhead.
 */
template <ACE_SYNCH_DECL>
class ACE_Message_Queue : public ACE_Message_Queue_Base
{
public:
  friend class ACE_Message_Queue_Iterator<ACE_SYNCH_USE>;
  friend class ACE_Message_Queue_Reverse_Iterator<ACE_SYNCH_USE>;

  // = Traits
  typedef ACE_Message_Queue_Iterator<ACE_SYNCH_USE>
          ITERATOR;
  typedef ACE_Message_Queue_Reverse_Iterator<ACE_SYNCH_USE>
          REVERSE_ITERATOR;

  // = Initialization and termination methods.
  /**
   * Initialize an <ACE_Message_Queue>.  The <high_water_mark>
   * determines how many bytes can be stored in a queue before it's
   * considered "full."  Supplier threads must block until the queue
   * is no longer full.  The <low_water_mark> determines how many
   * bytes must be in the queue before supplier threads are allowed to
   * enqueue additional <ACE_Message_Block>s.  By default, the
   * <high_water_mark> equals the <low_water_mark>, which means that
   * suppliers will be able to enqueue new messages as soon as a
   * consumer removes any message from the queue.  Making the
   * <low_water_mark> smaller than the <high_water_mark> forces
   * consumers to drain more messages from the queue before suppliers
   * can enqueue new messages, which can minimize the "silly window
   * syndrome."
   */
  ACE_Message_Queue (size_t high_water_mark = ACE_Message_Queue_Base::DEFAULT_HWM,
                     size_t low_water_mark = ACE_Message_Queue_Base::DEFAULT_LWM,
                     ACE_Notification_Strategy * = 0);

  /**
   * Initialize an <ACE_Message_Queue>.  The <high_water_mark>
   * determines how many bytes can be stored in a queue before it's
   * considered "full."  Supplier threads must block until the queue
   * is no longer full.  The <low_water_mark> determines how many
   * bytes must be in the queue before supplier threads are allowed to
   * enqueue additional <ACE_Message_Block>s.  By default, the
   * <high_water_mark> equals the <low_water_mark>, which means that
   * suppliers will be able to enqueue new messages as soon as a
   * consumer removes any message from the queue.  Making the
   * <low_water_mark> smaller than the <high_water_mark> forces
   * consumers to drain more messages from the queue before suppliers
   * can enqueue new messages, which can minimize the "silly window
   * syndrome."
   */
  virtual int open (size_t hwm = ACE_Message_Queue_Base::DEFAULT_HWM,
                    size_t lwm = ACE_Message_Queue_Base::DEFAULT_LWM,
                    ACE_Notification_Strategy * = 0);

  /// Close down the message queue and release all resources.
  virtual int close (void);

  /// Close down the message queue and release all resources.
  virtual ~ACE_Message_Queue (void);

  // = Enqueue and dequeue methods.

  // For the following enqueue and dequeue methods if <timeout> == 0,
  // the caller will block until action is possible, else will wait
  // until the absolute time specified in *<timeout> elapses).  These
  // calls will return, however, when queue is closed, deactivated,
  // when a signal occurs, or if the time specified in timeout
  // elapses, (in which case errno = EWOULDBLOCK).

  /**
   * Retrieve the first <ACE_Message_Block> without removing it.  Note
   * that <timeout> uses <{absolute}> time rather than <{relative}>
   * time.  If the <timeout> elapses without receiving a message -1 is
   * returned and <errno> is set to <EWOULDBLOCK>.  If the queue is
   * deactivated -1 is returned and <errno> is set to <ESHUTDOWN>.
   * Otherwise, returns -1 on failure, else the number of items still
   * on the queue.
   */
  virtual int peek_dequeue_head (ACE_Message_Block *&first_item,
                                 ACE_Time_Value *timeout = 0);

  /**
   * Enqueue an <ACE_Message_Block *> into the <Message_Queue> in
   * accordance with its <msg_priority> (0 is lowest priority).  FIFO
   * order is maintained when messages of the same priority are
   * inserted consecutively.  Note that <timeout> uses <{absolute}>
   * time rather than <{relative}> time.  If the <timeout> elapses
   * without receiving a message -1 is returned and <errno> is set to
   * <EWOULDBLOCK>.  If the queue is deactivated -1 is returned and
   * <errno> is set to <ESHUTDOWN>.  Otherwise, returns -1 on failure,
   * else the number of items still on the queue.
   */
  virtual int enqueue_prio (ACE_Message_Block *new_item,
                            ACE_Time_Value *timeout = 0);

  /**
   * This is an alias for <enqueue_prio>.  It's only here for
   * backwards compatibility and will go away in a subsequent release.
   * Please use <enqueue_prio> instead.  Note that <timeout> uses
   * <{absolute}> time rather than <{relative}> time.
   */
  virtual int enqueue (ACE_Message_Block *new_item,
                       ACE_Time_Value *timeout = 0);

  /**
   * Enqueue an <ACE_Message_Block *> at the end of the queue.  Note
   * that <timeout> uses <{absolute}> time rather than <{relative}>
   * time.  If the <timeout> elapses without receiving a message -1 is
   * returned and <errno> is set to <EWOULDBLOCK>.  If the queue is
   * deactivated -1 is returned and <errno> is set to <ESHUTDOWN>.
   * Otherwise, returns -1 on failure, else the number of items still
   * on the queue.
   */
  virtual int enqueue_tail (ACE_Message_Block *new_item,
                            ACE_Time_Value *timeout = 0);

  /**
   * Enqueue an <ACE_Message_Block *> at the head of the queue.  Note
   * that <timeout> uses <{absolute}> time rather than <{relative}>
   * time.  If the <timeout> elapses without receiving a message -1 is
   * returned and <errno> is set to <EWOULDBLOCK>.  If the queue is
   * deactivated -1 is returned and <errno> is set to <ESHUTDOWN>.
   * Otherwise, returns -1 on failure, else the number of items still
   * on the queue.
   */
  virtual int enqueue_head (ACE_Message_Block *new_item,
                            ACE_Time_Value *timeout = 0);

  /// This method is an alias for the following <dequeue_head> method.
  virtual int dequeue (ACE_Message_Block *&first_item,
                       ACE_Time_Value *timeout = 0);

  /**
   * Dequeue and return the <ACE_Message_Block *> at the head of the
   * queue.  Note that <timeout> uses <{absolute}> time rather than
   * <{relative}> time.  If the <timeout> elapses without receiving a
   * message -1 is returned and <errno> is set to <EWOULDBLOCK>.  If
   * the queue is deactivated -1 is returned and <errno> is set to
   * <ESHUTDOWN>.  Otherwise, returns -1 on failure, else the number
   * of items still on the queue.
   */
  virtual int dequeue_head (ACE_Message_Block *&first_item,
                            ACE_Time_Value *timeout = 0);

  // = Check if queue is full/empty.
  /// True if queue is full, else false.
  /// True if queue is empty, else false.
  virtual int is_full (void);
  virtual int is_empty (void);

  // = Queue statistic methods.
  /**
   * Number of total bytes on the queue, i.e., sum of the message
   * block sizes.
   * Number of total length on the queue, i.e., sum of the message
   * block lengths.
   * Number of total messages on the queue.
   */
  virtual size_t message_bytes (void);
  virtual size_t message_length (void);
  virtual size_t message_count (void);

  // = Manual changes to these stats (used when queued message blocks
  // change size or lengths).
  /**
   * New value of the number of total bytes on the queue, i.e., sum of
   * the message block sizes.
   * New value of the number of total length on the queue, i.e., sum
   * of the message block lengths.
   */
  virtual void message_bytes (size_t new_size);
  virtual void message_length (size_t new_length);

  // = Flow control methods.

  /**
   * Get high watermark.
   * Set the high watermark, which determines how many bytes can be
   * stored in a queue before it's considered "full."
   */
  virtual size_t high_water_mark (void);
  virtual void high_water_mark (size_t hwm);

  /**
   * Get low watermark.
   * Set the low watermark, which determines how many bytes must be in
   * the queue before supplier threads are allowed to enqueue
   * additional <ACE_Message_Block>s.
   */
  virtual size_t low_water_mark (void);
  virtual void low_water_mark (size_t lwm);

  // = Activation control methods.

  /**
   * Deactivate the queue and wakeup all threads waiting on the queue
   * so they can continue.  No messages are removed from the queue,
   * however.  Any other operations called until the queue is
   * activated again will immediately return -1 with <errno> ==
   * ESHUTDOWN.  Returns WAS_INACTIVE if queue was inactive before the
   * call and WAS_ACTIVE if queue was active before the call.
   */
  virtual int deactivate (void);

  /**
   * Reactivate the queue so that threads can enqueue and dequeue
   * messages again.  Returns WAS_INACTIVE if queue was inactive
   * before the call and WAS_ACTIVE if queue was active before the
   * call.
   */
  virtual int activate (void);

  /// Returns true if <deactivated_> is enabled.
  virtual int deactivated (void);

  // = Notification hook.

  /**
   * This hook is automatically invoked by <enqueue_head>,
   * <enqueue_tail>, and <enqueue_prio> when a new item is inserted
   * into the queue.  Subclasses can override this method to perform
   * specific notification strategies (e.g., signaling events for a
   * <WFMO_Reactor>, notifying a <Reactor>, etc.).  In a
   * multi-threaded application with concurrent consumers, there is no
   * guarantee that the queue will be still be non-empty by the time
   * the notification occurs.
   */
  virtual int notify (void);

  // = Get/set the notification strategy for the <Message_Queue>
  virtual ACE_Notification_Strategy *notification_strategy (void);
  virtual void notification_strategy (ACE_Notification_Strategy *s);

  /// Returns a reference to the lock used by the <ACE_Message_Queue>.
  ACE_SYNCH_MUTEX_T &lock (void)
    {
      //
      // The Sun Forte 6 (CC 5.1) compiler is only happy if this is in the
      // header file      (j.russell.noseworthy@objectsciences.com)
      //
      return this->lock_;
    }

  /// Dump the state of an object.
  virtual void dump (void) const;

  /// Declare the dynamic allocation hooks.
  ACE_ALLOC_HOOK_DECLARE;

protected:
  // = Routines that actually do the enqueueing and dequeueing.

  // These routines assume that locks are held by the corresponding
  // public methods.  Since they are virtual, you can change the
  // queueing mechanism by subclassing from <ACE_Message_Queue>.

  /// Enqueue an <ACE_Message_Block *> in accordance with its priority.
  virtual int enqueue_i (ACE_Message_Block *new_item);

  /// Enqueue an <ACE_Message_Block *> at the end of the queue.
  virtual int enqueue_tail_i (ACE_Message_Block *new_item);

  /// Enqueue an <ACE_Message_Block *> at the head of the queue.
  virtual int enqueue_head_i (ACE_Message_Block *new_item);

  /// Dequeue and return the <ACE_Message_Block *> at the head of the
  /// queue.
  virtual int dequeue_head_i (ACE_Message_Block *&first_item);

  // = Check the boundary conditions (assumes locks are held).

  /// True if queue is full, else false.
  virtual int is_full_i (void);

  /// True if queue is empty, else false.
  virtual int is_empty_i (void);

  // = Implementation of the public <activate> and <deactivate> methods.

  // These methods assume locks are held.

  /// Deactivate the queue.
  virtual int deactivate_i (void);

  /// Activate the queue.
  virtual int activate_i (void);

  // = Helper methods to factor out common #ifdef code.

  /// Wait for the queue to become non-full.
  virtual int wait_not_full_cond (ACE_Guard<ACE_SYNCH_MUTEX_T> &mon,
                                  ACE_Time_Value *timeout);

  /// Wait for the queue to become non-empty.
  virtual int wait_not_empty_cond (ACE_Guard<ACE_SYNCH_MUTEX_T> &mon,
                                   ACE_Time_Value *timeout);

  /// Inform any threads waiting to enqueue that they can procede.
  virtual int signal_enqueue_waiters (void);

  /// Inform any threads waiting to dequeue that they can procede.
  virtual int signal_dequeue_waiters (void);

  /// Pointer to head of ACE_Message_Block list.
  ACE_Message_Block *head_;

  /// Pointer to tail of ACE_Message_Block list.
  ACE_Message_Block *tail_;

  /// Lowest number before unblocking occurs.
  size_t low_water_mark_;

  /// Greatest number of bytes before blocking.
  size_t high_water_mark_;

  /// Current number of bytes in the queue.
  size_t cur_bytes_;

  /// Current length of messages in the queue.
  size_t cur_length_;

  /// Current number of messages in the queue.
  size_t cur_count_;

  /// Indicates that the queue is inactive.
  int deactivated_;

  /// The notification strategy used when a new message is enqueued.
  ACE_Notification_Strategy *notification_strategy_;

  // = Synchronization primitives for controlling concurrent access.
  /// Protect queue from concurrent access.
  ACE_SYNCH_MUTEX_T lock_;

#if defined (ACE_HAS_OPTIMIZED_MESSAGE_QUEUE)
  /// Used to make threads sleep until the queue is no longer empty.
  ACE_SYNCH_SEMAPHORE_T not_empty_cond_;

  /// Used to make threads sleep until the queue is no longer full.
  ACE_SYNCH_SEMAPHORE_T not_full_cond_;

  /// Number of threads waiting to dequeue a <Message_Block>.
  size_t dequeue_waiters_;

  /// Number of threads waiting to enqueue a <Message_Block>.
  size_t enqueue_waiters_;
#else
  /// Used to make threads sleep until the queue is no longer empty.
  ACE_SYNCH_CONDITION_T not_empty_cond_;

  /// Used to make threads sleep until the queue is no longer full.
  ACE_SYNCH_CONDITION_T not_full_cond_;
#endif /* ACE_HAS_OPTIMIZED_MESSAGE_QUEUE */

private:

  // = Disallow these operations.
  ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Message_Queue<ACE_SYNCH_USE> &))
  ACE_UNIMPLEMENTED_FUNC (ACE_Message_Queue (const ACE_Message_Queue<ACE_SYNCH_USE> &))
};

/**
 * @class ACE_Message_Queue_Iterator
 *
 * @brief Iterator for the <ACE_Message_Queue>.
 */
template <ACE_SYNCH_DECL>
class ACE_Message_Queue_Iterator
{
public:
  // = Initialization method.
  ACE_Message_Queue_Iterator (ACE_Message_Queue <ACE_SYNCH_USE> &queue);

  // = Iteration methods.
  /// Pass back the <entry> that hasn't been seen in the queue.
  /// Returns 0 when all items have been seen, else 1.
  int next (ACE_Message_Block *&entry);

  /// Returns 1 when all items have been seen, else 0.
  int done (void) const;

  /// Move forward by one element in the queue.  Returns 0 when all the
  /// items in the set have been seen, else 1.
  int advance (void);

  /// Dump the state of an object.
  void dump (void) const;

  /// Declare the dynamic allocation hooks.
  ACE_ALLOC_HOOK_DECLARE;

private:
  /// Message_Queue we are iterating over.
  ACE_Message_Queue <ACE_SYNCH_USE> &queue_;

  /// Keeps track of how far we've advanced...
  ACE_Message_Block *curr_;
};

/**
 * @class ACE_Message_Queue_Reverse_Iterator
 *
 * @brief Reverse Iterator for the <ACE_Message_Queue>.
 */
template <ACE_SYNCH_DECL>
class ACE_Message_Queue_Reverse_Iterator
{
public:
  // = Initialization method.
  ACE_Message_Queue_Reverse_Iterator (ACE_Message_Queue <ACE_SYNCH_USE> &queue);

  // = Iteration methods.
  /// Pass back the <entry> that hasn't been seen in the queue.
  /// Returns 0 when all items have been seen, else 1.
  int next (ACE_Message_Block *&entry);

  /// Returns 1 when all items have been seen, else 0.
  int done (void) const;

  /// Move forward by one element in the queue.  Returns 0 when all the
  /// items in the set have been seen, else 1.
  int advance (void);

  /// Dump the state of an object.
  void dump (void) const;

  /// Declare the dynamic allocation hooks.
  ACE_ALLOC_HOOK_DECLARE;

private:
  /// Message_Queue we are iterating over.
  ACE_Message_Queue <ACE_SYNCH_USE> &queue_;

  /// Keeps track of how far we've advanced...
  ACE_Message_Block *curr_;
};

/**
 * @class ACE_Dynamic_Message_Queue
 *
 * @brief A derived class which adapts the <ACE_Message_Queue>
 * class in order to maintain dynamic priorities for enqueued
 * <ACE_Message_Blocks> and manage the queue order according
 * to these dynamic priorities.
 *
 * The messages in the queue are managed so as to preserve
 * a logical ordering with minimal overhead per enqueue and
 * dequeue operation.  For this reason, the actual order of
 * messages in the linked list of the queue may differ from
 * their priority order.  As time passes, a message may change
 * from pending status to late status, and eventually to beyond
 * late status.  To minimize reordering overhead under this
 * design force, three separate boundaries are maintained
 * within the linked list of messages.  Messages are dequeued
 * preferentially from the head of the pending portion, then
 * the head of the late portion, and finally from the head
 * of the beyond late portion.  In this way, only the boundaries
 * need to be maintained (which can be done efficiently, as
 * aging messages maintain the same linked list order as they
 * progress from one status to the next), with no reordering
 * of the messages themselves, while providing correct priority
 * ordered dequeueing semantics.
 * Head and tail enqueue methods inherited from ACE_Message_Queue
 * are made private to prevent out-of-order messages from confusing
 * management of the various portions of the queue.  Messages in
 * the pending portion of the queue whose priority becomes late
 * (according to the specific dynamic strategy) advance into
 * the late portion of the queue.  Messages in the late portion
 * of the queue whose priority becomes later than can be represented
 * advance to the beyond_late portion of the queue.  These behaviors
 * support a limited schedule overrun, with pending messages prioritized
 * ahead of late messages, and late messages ahead of beyond late
 * messages.  These behaviors can be modified in derived classes by
 * providing alternative definitions for the appropriate virtual methods.
 * When filled with messages, the queue's linked list should look like:
 * H                                           T
 * |                                           |
 * B - B - B - B - L - L - L - P - P - P - P - P
 * |           |   |       |   |               |
 * BH          BT   LH     LT   PH             PT
 * Where the symbols are as follows:
 * H  = Head of the entire list
 * T  = Tail of the entire list
 * B  = Beyond late message
 * BH = Beyond late messages Head
 * BT = Beyond late messages Tail
 * L  = Late message
 * LH = Late messages Head
 * LT = Late messages Tail
 * P  = Pending message
 * PH = Pending messages Head
 * PT = Pending messages Tail
 * Caveat: the virtual methods enqueue_tail, enqueue_head,
 * and peek_dequeue_head have semantics for the static
 * message queues that cannot be guaranteed for dynamic
 * message queues.  The peek_dequeue_head method just
 * calls the base class method, while the two enqueue
 * methods call the priority enqueue method.  The
 * order of messages in the dynamic queue is a function
 * of message deadlines and how long they are in the
 * queues.  You can manipulate these in some cases to
 * ensure the correct semantics, but that is not a
 * very stable or portable approach (discouraged).
 */
template <ACE_SYNCH_DECL>
class ACE_Dynamic_Message_Queue : public ACE_Message_Queue<ACE_SYNCH_USE>
{
public:
  // = Initialization and termination methods.
  ACE_Dynamic_Message_Queue (ACE_Dynamic_Message_Strategy & message_strategy,
                             size_t hwm = ACE_Message_Queue_Base::DEFAULT_HWM,
                             size_t lwm = ACE_Message_Queue_Base::DEFAULT_LWM,
                             ACE_Notification_Strategy * = 0);

  /// Close down the message queue and release all resources.
  virtual ~ACE_Dynamic_Message_Queue (void);

  /**
   * Detach all messages with status given in the passed flags from
   * the queue and return them by setting passed head and tail pointers
   * to the linked list they comprise.  This method is intended primarily
   * as a means of periodically harvesting messages that have missed
   * their deadlines, but is available in its most general form.  All
   * messages are returned in priority order, from head to tail, as of
   * the time this method was called.
   */
  virtual int remove_messages (ACE_Message_Block *&list_head,
                               ACE_Message_Block *&list_tail,
                               u_int status_flags);

  /**
   * Dequeue and return the <ACE_Message_Block *> at the head of the
   * queue.  Returns -1 on failure, else the number of items still on
   * the queue.
   */
  virtual int dequeue_head (ACE_Message_Block *&first_item,
                            ACE_Time_Value *timeout = 0);

  /// Dump the state of the queue.
  virtual void dump (void) const;

  /**
   * just call priority enqueue method: tail enqueue semantics for dynamic
   * message queues are unstable: the message may or may not be where
   * it was placed after the queue is refreshed prior to the next
   * enqueue or dequeue operation.
   */
  virtual int enqueue_tail (ACE_Message_Block *new_item,
                            ACE_Time_Value *timeout = 0);

  /**
   * just call priority enqueue method: head enqueue semantics for dynamic
   * message queues are unstable: the message may or may not be where
   * it was placed after the queue is refreshed prior to the next
   * enqueue or dequeue operation.
   */
  virtual int enqueue_head (ACE_Message_Block *new_item,
                            ACE_Time_Value *timeout = 0);


  /// Declare the dynamic allocation hooks.
  ACE_ALLOC_HOOK_DECLARE;

protected:

  /**
   * Enqueue an <ACE_Message_Block *> in accordance with its priority.
   * priority may be *dynamic* or *static* or a combination or *both*
   * It calls the priority evaluation function passed into the Dynamic
   * Message Queue constructor to update the priorities of all
   * enqueued messages.
   */
  virtual int enqueue_i (ACE_Message_Block *new_item);

  /// enqueue a message in priority order within a given priority status sublist
  virtual int sublist_enqueue_i (ACE_Message_Block *new_item,
                                 const ACE_Time_Value &current_time,
                                 ACE_Message_Block *&sublist_head,
                                 ACE_Message_Block *&sublist_tail,
                                 ACE_Dynamic_Message_Strategy::Priority_Status status);

  /**
   * Dequeue and return the <ACE_Message_Block *> at the head of the
   * logical queue.  Attempts first to dequeue from the pending
   * portion of the queue, or if that is empty from the late portion,
   * or if that is empty from the beyond late portion, or if that is
   * empty just sets the passed pointer to zero and returns -1.
   */
  virtual int dequeue_head_i (ACE_Message_Block *&first_item);

  /// Refresh the queue using the strategy
  /// specific priority status function.
  virtual int refresh_queue (const ACE_Time_Value & current_time);

  /// Refresh the pending queue using the strategy
  /// specific priority status function.
  virtual int refresh_pending_queue (const ACE_Time_Value & current_time);

  /// Refresh the late queue using the strategy
  /// specific priority status function.
  virtual int refresh_late_queue (const ACE_Time_Value & current_time);

  /// Pointer to head of the pending messages
  ACE_Message_Block *pending_head_;

  /// Pointer to tail of the pending messages
  ACE_Message_Block *pending_tail_;

  /// Pointer to head of the late messages
  ACE_Message_Block *late_head_;

  /// Pointer to tail of the late messages
  ACE_Message_Block *late_tail_;

  /// Pointer to head of the beyond late messages
  ACE_Message_Block *beyond_late_head_;

  /// Pointer to tail of the beyond late messages
  ACE_Message_Block *beyond_late_tail_;

  /// Pointer to a dynamic priority evaluation function.
  ACE_Dynamic_Message_Strategy &message_strategy_;

private:
  // = Disallow public access to these operations.

  ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Dynamic_Message_Queue<ACE_SYNCH_USE> &))
  ACE_UNIMPLEMENTED_FUNC (ACE_Dynamic_Message_Queue (const ACE_Dynamic_Message_Queue<ACE_SYNCH_USE> &))

  // provide definitions for these (just call base class method),
  // but make them private so they're not accessible outside the class

  /// private method to hide public base class method: just calls base class method
  virtual int peek_dequeue_head (ACE_Message_Block *&first_item,
                                 ACE_Time_Value *timeout = 0);

};

/**
 * @class ACE_Message_Queue_Factory
 *
 * @brief ACE_Message_Queue_Factory is a static factory class template which
 * provides a separate factory method for each of the major kinds of
 * priority based message dispatching: static, earliest deadline first
 * (EDF), and minimum laxity first (MLF).
 *
 * The ACE_Dynamic_Message_Queue class assumes responsibility for
 * releasing the resources of the strategy with which it was
 * constructed: the user of a message queue constructed by
 * any of these factory methods is only responsible for
 * ensuring destruction of the message queue itself.
 */
template <ACE_SYNCH_DECL>
class ACE_Message_Queue_Factory
{

public:
  /// factory method for a statically prioritized ACE_Message_Queue
  static ACE_Message_Queue<ACE_SYNCH_USE> *
    create_static_message_queue (size_t hwm = ACE_Message_Queue_Base::DEFAULT_HWM,
                                 size_t lwm = ACE_Message_Queue_Base::DEFAULT_LWM,
                                 ACE_Notification_Strategy * = 0);

  /// factory method for a dynamically prioritized (by time to deadline) ACE_Dynamic_Message_Queue
  static ACE_Dynamic_Message_Queue<ACE_SYNCH_USE> *
    create_deadline_message_queue (size_t hwm = ACE_Message_Queue_Base::DEFAULT_HWM,
                                   size_t lwm = ACE_Message_Queue_Base::DEFAULT_LWM,
                                   ACE_Notification_Strategy * = 0,
                                   u_long static_bit_field_mask = 0x3FFUL,        // 2^(10) - 1
                                   u_long static_bit_field_shift = 10,            // 10 low order bits
                                   u_long dynamic_priority_max = 0x3FFFFFUL,      // 2^(22)-1
                                   u_long dynamic_priority_offset =  0x200000UL); // 2^(22-1)

  /// factory method for a dynamically prioritized (by laxity) ACE_Dynamic_Message_Queue
  static ACE_Dynamic_Message_Queue<ACE_SYNCH_USE> *
    create_laxity_message_queue (size_t hwm = ACE_Message_Queue_Base::DEFAULT_HWM,
                                 size_t lwm = ACE_Message_Queue_Base::DEFAULT_LWM,
                                 ACE_Notification_Strategy * = 0,
                                 u_long static_bit_field_mask = 0x3FFUL,        // 2^(10) - 1
                                 u_long static_bit_field_shift = 10,            // 10 low order bits
                                 u_long dynamic_priority_max = 0x3FFFFFUL,      // 2^(22)-1
                                 u_long dynamic_priority_offset =  0x200000UL); // 2^(22-1)


#if defined (VXWORKS)

  /// factory method for a wrapped VxWorks message queue
  static ACE_Message_Queue_Vx *
    create_Vx_message_queue (size_t max_messages, size_t max_message_length,
                             ACE_Notification_Strategy *ns = 0);

#endif /* defined (VXWORKS) */

#if defined (ACE_WIN32) && (ACE_HAS_WINNT4 != 0)

  /// factory method for a NT message queue.
  static ACE_Message_Queue_NT *
  create_NT_message_queue (size_t max_threads);

#endif /* ACE_WIN32 && ACE_HAS_WINNT4 != 0 */
};

#if defined (__ACE_INLINE__)
#include "ace/Message_Queue_T.i"
#endif /* __ACE_INLINE__ */

#if defined (ACE_TEMPLATES_REQUIRE_SOURCE)
#include "ace/Message_Queue_T.cpp"
#endif /* ACE_TEMPLATES_REQUIRE_SOURCE */

#if defined (ACE_TEMPLATES_REQUIRE_PRAGMA)
#pragma implementation ("Message_Queue_T.cpp")
#endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */

#include "ace/post.h"
#endif /* ACE_MESSAGE_QUEUE_T_H */