1 files changed, 0 insertions, 298 deletions
diff --git a/java/src/Token.java b/java/src/Token.java
deleted file mode 100644
index a17be013ad5..00000000000
--- a/java/src/Token.java
+++ /dev/null
@@ -1,298 +0,0 @@
-/*************************************************
- *
- * = PACKAGE
- *    JACE.Concurrency
- *
- * = FILENAME
- *    Token.java
- *
- *@author Prashant Jain
- *
- *************************************************/
-package JACE.Concurrency;
-
-import java.util.*;
-import JACE.ASX.*;
-
-class WaitObject extends TimedWait
-{
-  public boolean condition ()
-  {
-    return this.condition_;
-  }
-  
-  public void condition (boolean c)
-  {
-    this.condition_ = c;
-  }
-
-  private boolean condition_ = false;
-}
-
-/**
- * <hr>
- * <h2>SYNOPSIS</h2>
- *<blockquote>
- *     Class that acquires, renews, and releases a synchronization
- *     token that is serviced in strict FIFO ordering.
- *
- *</blockquote>
- *
- * <h2>DESCRIPTION</h2>
- *<blockquote>
- *     This is a general-purpose synchronization mechanism that offers
- *     several benefits. For example, it implements "recursive mutex"
- *     semantics, where a thread that owns the token can reacquire it
- *     without deadlocking.  In addition, threads that are blocked
- *     awaiting the token are serviced in strict FIFO order as other
- *     threads release the token. The solution makes use of the
- *     Specific Notification pattern presented by Tom Cargill in
- *     "Specific Notification for Java Thread Synchronization," PLoP96.
- *</blockquote>
- */
-public class Token
-{
-  /**
-   * Acquire the token. Note that this will block. The method uses
-   * synchronized blocks internally to avoid race conditions.
-   *@return 0 if acquires without calling <sleepHook>
-   * 1 if <sleepHook> is called.
-   * -1 if failure occurs
-   *@exception InterruptedException exception during wait
-   */
-  public int acquire () throws InterruptedException
-    {
-      try
-	{
-	  return this.acquire (new TimeValue ());
-	}
-      catch (TimeoutException e)
-	{
-	  // This really shouldn't happen since we are supposed to
-	  // block.
-	  return -1;
-	}
-    }
-
-  /**
-   * Acquire the token. Wait for timeout amount of time. The method
-   * uses synchronized blocks internally to avoid race conditions. 
-   *@param timeout Amount of time to wait for in trying to acquire the
-   * token.
-   *@return 0 if acquires without calling <sleepHook>
-   * 1 if <sleepHook> is called.
-   * -1 if failure occurs
-   *@exception TimeoutException exception if timeout occurs
-   *@exception InterruptedException exception during wait
-   */
-  public int acquire (TimeValue timeout) throws InterruptedException, TimeoutException
-    {
-      int result = 0;
-      WaitObject snl = new WaitObject ();
-      boolean mustWait;
-      synchronized (snl)
-	{
-	  synchronized (this)
-	    {
-	      mustWait = !this.snq_.isEmpty ();
-	      if (mustWait &&
-		  Thread.currentThread ().toString ().compareTo (this.owner_) == 0)
-		{
-		  // I am the one who has the token. So just increment
-		  // the nesting level
-		  this.nestingLevel_++;
-		  return result;
-		}
-	      // Add local lock to the queue
-	      this.snq_.addElement (snl);
-	    }
-	  if (mustWait)
-	    {
-	      result = 1;
-	      // Call sleep hook
-	      sleepHook ();
-	      snl.timedWait (timeout);  // Do a blocking wait
-	    }
-	  // Set the owner of the token
-	  this.owner_ = Thread.currentThread ().toString ();
-	}
-      return result;
-    }
-
-  /**
-   * Try to acquire the token. Implements a non-blocking acquire.
-   *@return 0 if acquires without calling <sleepHook>
-   * 1 if <sleepHook> is called.
-   * -1 if failure occurs
-   */
-  public synchronized int tryAcquire ()
-    {
-      int result = 0;
-      if (!this.snq_.isEmpty ())
-	{
-	  // No one has the token, so acquire it
-	  this.snq_.addElement (new WaitObject ());
-	}
-      // Check if I am the one holding the token.
-      else if (Thread.currentThread ().toString ().compareTo (this.owner_) == 0)
-	{
-	  this.nestingLevel_++;
-	}
-      // Someone else has the token.
-      else
-	{
-	  // Will have to block to acquire the token, so call
-	  // sleepHook and return 
-	  sleepHook ();
-	  result = 1;
-	}
-      return result;
-    }
-
-  /**
-   * Method that is called before a thread goes to sleep in an
-   * acquire(). This should be overridden by a subclass to define 
-   * the appropriate behavior before acquire() goes to sleep.
-   * By default, this is a no-op.
-   */
-  public void sleepHook ()
-  {
-  }
-
-  /**
-   * An optimized method that efficiently reacquires the token if no
-   * other threads are waiting.  This is useful for situations where
-   * you don't want to degrade the quality of service if there are
-   * other threads waiting to get the token. 
-   *@param requeuePosition Position in the queue where to insert the
-   * lock. If requeuePosition == -1 and there are other threads
-   * waiting to obtain the token we are queued at the end of the list
-   * of waiters.  If requeuePosition > -1 then it indicates how many
-   * entries to skip over before inserting our thread into the list of
-   * waiters (e.g.,requeuePosition == 0 means "insert at front of the
-   * queue"). 
-   *@exception InterruptedException exception during wait
-   */
-  public void renew (int requeuePosition) throws InterruptedException
-  {
-    try
-      {
-	this.renew (requeuePosition, new TimeValue ());
-      }
-    catch (TimeoutException e)
-      {
-	// This really shouldn't happen since we are supposed to
-	// block.
-      }
-  }
-
-  /**
-   * An optimized method that efficiently reacquires the token if no
-   * other threads are waiting.  This is useful for situations where
-   * you don't want to degrade the quality of service if there are
-   * other threads waiting to get the token. 
-   *@param requeuePosition Position in the queue where to insert the
-   * lock. If requeuePosition == -1 and there are other threads
-   * waiting to obtain the token we are queued at the end of the list
-   * of waiters.  If requeuePosition > -1 then it indicates how many
-   * entries to skip over before inserting our thread into the list of
-   * waiters (e.g.,requeuePosition == 0 means "insert at front of the
-   * queue").
-   *@param timeout Amount of time to wait for in trying to acquire the
-   * token.
-   *@exception TimeoutException exception if timeout occurs
-   *@exception InterruptedException exception during wait
-   */
-  public void renew (int requeuePosition, TimeValue timeout) 
-    throws InterruptedException, TimeoutException
-  {
-    WaitObject snl = null;
-    int saveNestingLevel = 0;
-
-    synchronized (this)
-      {
-	// Check if there is a thread waiting to acquire the token. If
-	// not or if requeuePosition == 0, then we don't do anything
-	// and we simply keep the token. 
-	if (this.snq_.size () > 1 && requeuePosition != 0)
-	  {
-	    // Save the nesting level
-	    saveNestingLevel = this.nestingLevel_;
-	    this.nestingLevel_ = 0;
-
-	    // Reinsert ourselves at requeuePosition in the queue
-	    snl = (WaitObject) this.snq_.firstElement ();
-	    this.snq_.removeElementAt (0);
-
-	    if (requeuePosition < 0)
-	      this.snq_.addElement (snl);  // Insert at end
-	    else
-	      this.snq_.insertElementAt (snl, requeuePosition);
-
-	    synchronized (this.snq_.firstElement ())
-	      {
-		// Notify the first waiting thread in the queue
-		WaitObject obj = (WaitObject) this.snq_.firstElement ();
-		// Set its condition to be true so that it falls out
-		// of the for loop
-		obj.condition (true);
-		// Now signal the thread
-		obj.signal ();
-	      }    
-	  }
-      }
-    
-    // Check if we reinserted the lock in the queue and therefore need
-    // to do a wait 
-    if (snl != null)
-      {
-	synchronized (snl)
-	  {
-	    // Set the condition to be false so that we can begin the
-	    // wait 
-	    snl.condition (false);
-	    // Do a blocking wait
-	    snl.timedWait (timeout);
-	  }
-	// Restore the nesting level and current owner of the lock
-	this.nestingLevel_ = saveNestingLevel;
-	this.owner_ = Thread.currentThread ().toString ();
-      }
-  }
-
-  /**
-   * Release the token.
-   */
-  public synchronized void release ()
-  {
-    // Check if nestingLevel > 0 and if so, decrement it
-    if (this.nestingLevel_ > 0)
-      this.nestingLevel_--;
-    else
-      {
-	this.snq_.removeElementAt (0);
-	if (!this.snq_.isEmpty ())
-	  {
-	    synchronized (this.snq_.firstElement ())
-	      {
-		// Notify the first waiting thread in the queue
-		WaitObject obj = (WaitObject) this.snq_.firstElement ();
-		// Set its condition to be true so that it falls out
-		// of the for loop
-		obj.condition (true);
-		// Now signal the thread
-		obj.signal ();
-	      }
-	  }
-      }
-  }
-
-  private Vector snq_ = new Vector ();
-  // Vector of lock objects
-
-  private int nestingLevel_ = 0;
-  // Current Nesting Level
-
-  private String owner_ = null;
-  // Current owner of the token.
-}