vmkit/mmtk/java/src/org/mmtk/utility/gcspy/drivers/AbstractDriver.java - llvm-archive - Git at Google

 /*
  *  This file is part of the Jikes RVM project (http://jikesrvm.org).
  *
  *  This file is licensed to You under the Eclipse Public License (EPL);
  *  You may not use this file except in compliance with the License. You
  *  may obtain a copy of the License at
  *
  *      http://www.opensource.org/licenses/eclipse-1.0.php
  *
  *  See the COPYRIGHT.txt file distributed with this work for information
  *  regarding copyright ownership.
  */
 package org.mmtk.utility.gcspy.drivers;

 import org.mmtk.policy.Space;
 import org.mmtk.utility.Log;
 import org.mmtk.utility.gcspy.GCspy;
 import org.mmtk.utility.gcspy.Subspace;
 import org.mmtk.vm.gcspy.ServerSpace;
 import org.mmtk.vm.gcspy.ServerInterpreter;
 import org.mmtk.vm.gcspy.Stream;
 import org.mmtk.vm.VM;

 import org.vmmagic.unboxed.*;
 import org.vmmagic.pragma.*;

 /**
  * Abstract GCspy driver for MMTk collectors.
  *
  * This class implements for the MMTk a base driver for a GCspy space.
  * All drivers for GCspy spaces should inherit from this class.
  */
 @Uninterruptible
 public abstract class AbstractDriver {

   /****************************************************************************
    *
    * Class variables
    */

   // Controls used for tile presentation
   /** The tile is used */
   protected static final byte CONTROL_USED            =  1;
   /** The tile is a background tile */
   protected static final byte CONTROL_BACKGROUND      =  2;
   /** The tile is unused */
   protected static final byte CONTROL_UNUSED          =  4;
   /** The tile is a separator */
   protected static final byte CONTROL_SEPARATOR       =  8;
   /** The tile is a link */
   protected static final byte CONTROL_LINK            = 16;


   private static final int MAX_STREAMS = 64;    // Max number of streams

   private static final boolean DEBUG = false;
   protected String myClass;                     // used in debugging messages


   /****************************************************************************
    *
    * Instance variables
    */

   /** The owning GCspy server */
   protected final ServerInterpreter server;
   /** The name of the GCspy space driver */
   protected final String name;
   /** The GCspy space abstraction */
   protected final ServerSpace serverSpace;
   /** The MMTK space */
   protected final Space mmtkSpace;
   /** The GCspy space's block size */
   protected int blockSize;
   /** The maximum number of tiles in this GCspy space */
   protected int maxTileNum;
   /** This space's streams  */
   protected Stream[] streams;
   /**  control values for tiles in this space */
   protected byte[] control;
   /** Has this space changed? */
   protected boolean changed = true;


   /**
    * Create a new driver for this collector.
    *
    * @param server The ServerInterpreter that owns this GCspy space.
    * @param name The name of this driver.
    * @param mmtkSpace The MMTk space represented by this driver.
    * @param blockSize The tile size.
    * @param mainSpace Is this the main space?
    */
   public AbstractDriver(ServerInterpreter server,
                         String name,
                         Space mmtkSpace,
                         int blockSize,
                         boolean mainSpace) {
     this.server = server;
     this.name = name;
     this.mmtkSpace = mmtkSpace;
     this.blockSize = blockSize;
     myClass = getClass().getName();
     maxTileNum = countTileNum(mmtkSpace.getExtent(), blockSize);
     control = (byte[])GCspy.util.createDataArray(new byte[0], maxTileNum);
     // to avoid allocation during GC we preallocate the streams array
     streams = new Stream[MAX_STREAMS];
     serverSpace = createServerSpace(server, name, maxTileNum, mainSpace);
   }

   /**
    * Create a subspace for this space.
    * Subspace provide useful facilities for contiguous spaces, even if
    * a space contains only one.
    * @param mmtkSpace The MMTk space
    */
   @Interruptible
   protected Subspace createSubspace(Space mmtkSpace) {
     Address start = mmtkSpace.getStart();
     return new Subspace(start, start, 0, blockSize, 0);
   }

   /**
    * Create a new GCspy ServerSpace and add it to the ServerInterpreter.
    * @param server the GCspy ServerInterpreter.
    * @param spaceName The name of this driver.
    * @param maxTileNum the maximum number of tiles in this space.
    * @param mainSpace Is this the main space?
    */
   @Interruptible
   protected ServerSpace createServerSpace(ServerInterpreter server,
                   String spaceName,
                   int maxTileNum,
                   boolean mainSpace) {
     // Set the block label
     String tmp = "Block Size: " + ((blockSize < 1024) ?
                      blockSize + " bytes\n":
                      (blockSize / 1024) + " Kbytes\n");

     // Create a single GCspy Space
     return VM.newGCspyServerSpace(server,           // the server
                                   spaceName,        // space name
                                   getDriverName(),  // driver (space) name
                                   "Block ",         // space title
                                   tmp,              // block info
                                   maxTileNum,       // number of tiles
                                   "UNUSED",         // the label for unused blocks
                                   mainSpace);       // main space
   }

   /**
    * Get the name of this driver type.
    * @return The name of this driver.
    */
   protected abstract String getDriverName();

   /**
    * Get the maximum number of tiles in this space.
    * @return the maximum number of tiles in the space.
    */
   public int getMaxTileNum() {
     return maxTileNum;
   }

   /**
    * The GCspy space managed by this driver.
    * @return the GCspy server space.
    */
   public ServerSpace getServerSpace() { return serverSpace; }

   /**
    * Add a stream to the driver. This also sets the stream's id
    * (unique for this space).
    * @param stream The stream
    * @exception IndexOutOfBoundsException if more than MAX_STREAMS are added
    */
   @Interruptible
   public void addStream(Stream stream) {
     int id = 0;
     while (id < MAX_STREAMS) {
       if (streams[id] == null) {
         streams[id] = stream;
         if (DEBUG) { Log.write("Adding stream with id="); Log.writeln(id); }
         Address stream_ = serverSpace.addStream(id);
         stream.setStream(id, stream_);
         return;
       }
       id++;
     }
     throw new IndexOutOfBoundsException("Too many streams added to driver "+name);
   }

   /**
    * Count number of tiles in an address range.
    * @param start The start of the range.
    * @param end The end of the range.
    * @param tileSize The size of each tile.
    * @return The number of tiles in this range.
    */
   protected int countTileNum(Address start, Address end, int tileSize) {
     if (end.LE(start)) return 0;
     int diff = end.diff(start).toInt();
     return countTileNum(diff, tileSize);
   }

   /**
    * Count number of tiles in an address range.
    * @param extent The extent of the range.
    * @param tileSize The size of each tile.
    * @return The number of tiles in this range.
    */
   protected int countTileNum(Extent extent, int tileSize) {
     int diff = extent.toInt();
     return countTileNum(diff, tileSize);
   }

   private int countTileNum(int diff, int tileSize) {
     int tiles = diff / tileSize;
     if ((diff % tileSize) != 0)
       ++tiles;
     return tiles;
   }

   /**
    * Indicate the limits of a space.
    *
    * @param start the Address of the start of the space.
    * @param end the Address of the end of the space.
    */
   public void setRange(Address start, Address end) {}

   /**
    * Indicate the limits of a space.
    *
    * @param start the Address of the start of the space.
    * @param extent the extent of the space.
    */
   public void setRange(Address start, Extent extent) {
     setRange(start, start.plus(extent));
   }

   /**
    * Setup the tile names in a subspace. Tile names are typically
    * address ranges but may be anything (e.g. a size class if the
    * space is a segregated free-list manager, or a class name if the
    * space represents the class instances loaded).
    *
    * @param subspace the Subspace
    * @param numTiles the number of tiles to name
    */
   protected void setTilenames(Subspace subspace, int numTiles) {
     Address start = subspace.getStart();
     int first = subspace.getFirstIndex();
     int bs = subspace.getBlockSize();

     for (int i = 0; i < numTiles; ++i) {
       if (subspace.indexInRange(i))
         serverSpace.setTilename(i, start.plus((i - first) * bs),
                                 start.plus((i + 1 - first) * bs));
     }
   }

   /**
    * The "typical" maximum number of objects in each tile.
    * @param blockSize The size of a tile
    * @return The maximum number of objects in a tile
    */
   public int maxObjectsPerBlock(int blockSize) {
     // Maybe a misuse of ServerInterpreter but it's a convenient
     // VM-dependent class
     return blockSize / GCspy.server.computeHeaderSize();
   }

   /**
    * Is the server connected to a GCspy client?
    * @param event The current event
    */
   public boolean isConnected(int event) {
     return server.isConnected(event);
   }

   /**
    * Reset the statistics for a space.
    * In this base driver, we simply note that the data has changed.
    */
   protected void resetData() { changed = true; }

   /**
    * Scan an object found at a location.
    * Collectors typically call this method to update GCspy statistics.
    * The driver may or may not accumulate values found, depending on
    * the value of total.
    * @param obj the reference to the object found
    * @param total Whether to total the statistics
    */
   public void scan(ObjectReference obj, boolean total) {}

   /**
    * Scan an object found at a location.
    * Collectors typically call this method to update GCspy statistics
    * The driver will accumulate values found.
    * @param obj the reference to the object found
    */
   public void scan(ObjectReference obj) { scan(obj, true); }

   /**
    * Scan an object found at a location.
    * Collectors typically call this method to update GCspy statistics.
    * The driver may or may not accumulate values found, depending on
    * the value of total.
    * @param obj the reference to the object found
    * @param total Whether to total the statistics
    */
   public void scan(Address obj, boolean total) {}

   /**
    * Scan an object found at a location.
    * Collectors typically call this method to update GCspy statistics
    * The driver will accumulate values found.
    * @param obj the reference to the object found
    */
   public void scan(Address obj) {}

   /**
    * Handle a direct reference from the immortal space.<p>
    * This is an empty implementation. Subclasses may override this method
    * to increment their <code>refFromImmortal</code> Stream.
    *
    * @param addr The Address
    * @return true if the given Address is in this subspace. Always false here.
    */
   public boolean handleReferenceFromImmortalSpace(Address addr) {
     return false;
   }

   /**
    * Set space info.
    * This simply reports the size of the current space.
    * Drivers that want to send something more complex than
    *  "Current Size: size\n"
    * must override this method.
    *
    * @param size the size of the space
    */
   protected void setSpaceInfo(Offset size) {
     //    - sprintf(tmp, "Current Size: %s\n", gcspy_formatSize(size));
     Address tmp = GCspy.util.formatSize("Current Size: %s\n", 128, size.toInt());
     serverSpace.spaceInfo(tmp);
     GCspy.util.free(tmp);
   }


   /****************************************************************************
    *
    * Control values
    */

   /**
    * Is a tile used?
    * @param val the control value.
    * @return true if the tile is used
    */
   protected static boolean controlIsUsed(byte val) {
     return (val & CONTROL_USED) != 0;
   }

   /**
    * Is a tile a background pseudo-tile?
    * @param val the control value.
    * @return true if the tile is a background tile
    */
   protected static boolean controlIsBackground(byte val) {
     return (val & CONTROL_BACKGROUND) != 0;
   }

   /**
    * Is a tile unused?
    * @param val the control value.
    * @return true if the tile is unused
    */
   protected static boolean controlIsUnused(byte val) {
     return (val & CONTROL_UNUSED) != 0;
   }

   /**
    * Is this a separator?
    * @param val the control value.
    * @return true if this is a separator
    */
   protected static boolean controlIsSeparator(byte val) {
     return (val & CONTROL_SEPARATOR) != 0;
   }

   /**
    * Initialise the value of a control.
    * @param index The index of the tile.
    * @param value The new value of the control
    */
   protected void initControl(int index, byte value) {
     control[index] = value;
   }

   /**
    * Add a control to the tile
    * @param index The index of the tile.
    * @param value The control to add.
    */
   protected void addControl(int index, byte value) {
     control[index] |= value;
   }

   /** Set the control
    * @param value The value to set
    */
   protected void setControl(int index, byte value) {
     control[index] &= value;
   }

   /**
    * Get the controls for a tile.
    * @param index The index of the tile.
    * @return The value of the controls
    */
   public byte getControl(int index) {
     return control[index];
   }

   /**
    * Initialise control values in all tiles
    */
   protected void initControls() {
     for (int index = 0; index < control.length; ++index) {
       initControl(index, CONTROL_USED);
     }
   }

   /**
    * Set the control value in each tile in a region.
    * @param tag The control tag.
    * @param start The start index of the region.
    * @param len The number of tiles in the region.
    */
   protected void controlValues(byte tag, int start, int len) {
     if (DEBUG) {
       Log.write("AbstractDriver.controlValues for space ");
       Log.write(name);
       Log.write(", control length=", control.length);
       Log.write(" writing controls from ", start);
       Log.writeln(" to ", start + len);
     }
     changed = true;
     for (int i = start; i < (start+len); ++i) {
       // Cannot be both USED and UNUSED or BACKGROUND
       if (controlIsBackground(tag) || controlIsUnused(tag))
         setControl(i, (byte)~CONTROL_USED);
       else if (controlIsUsed(tag))
         setControl(i, (byte)~CONTROL_UNUSED);
       addControl(i, tag);
     }
   }

   /**
    * Transmit the streams for this space. A driver will typically
    * <ol>
    * <li> Determine whether a GCspy client is connected and interested in
    *      this event, e.g.
    *      <pre>server.isConnected(event)</pre>
    * <li> Setup the summaries for each stream, e.g.
    *      <pre>stream.setSummary(values...);</pre>
    * <li> Setup the control information for each tile. e.g.
    *      <pre>controlValues(CONTROL_USED, start, numBlocks);</pre>
    *      <pre>controlValues(CONTROL_UNUSED, end, remainingBlocks);</pre>
    * <li> Set up the space information, e.g.
    *      <pre>setSpace(info);</pre>
    * <li> Send the data for all streams, e.g.
    *      <pre>send(event, numTiles);</pre>
    *      Note that AbstractDriver.send takes care of sending the information
    *      for all streams (including control data).
    *
    * @param event The event
    */
   public abstract void transmit(int event);

   /**
    * Send all the streams for this space if it has changed.
    * Assume that the data has been gathered and that summary info
    * and control values have been set before this is called.
    *
    * @param event the event
    * @param numTiles the number of blocks in this space
    */
   protected void send(int event, int numTiles) {
     if (changed) {
       serverSpace.startCommunication();
       for (int i = 0; i < MAX_STREAMS; i++)
         if (streams[i] != null)
           streams[i].send(event, numTiles);
       serverSpace.sendControls(this, numTiles);
       serverSpace.endCommunication();
     }
   }
 }
	/*
	* This file is part of the Jikes RVM project (http://jikesrvm.org).
	*
	* This file is licensed to You under the Eclipse Public License (EPL);
	* You may not use this file except in compliance with the License. You
	* may obtain a copy of the License at
	*
	* http://www.opensource.org/licenses/eclipse-1.0.php
	*
	* See the COPYRIGHT.txt file distributed with this work for information
	* regarding copyright ownership.
	*/
	package org.mmtk.utility.gcspy.drivers;

	import org.mmtk.policy.Space;
	import org.mmtk.utility.Log;
	import org.mmtk.utility.gcspy.GCspy;
	import org.mmtk.utility.gcspy.Subspace;
	import org.mmtk.vm.gcspy.ServerSpace;
	import org.mmtk.vm.gcspy.ServerInterpreter;
	import org.mmtk.vm.gcspy.Stream;
	import org.mmtk.vm.VM;

	import org.vmmagic.unboxed.*;
	import org.vmmagic.pragma.*;

	/**
	* Abstract GCspy driver for MMTk collectors.
	*
	* This class implements for the MMTk a base driver for a GCspy space.
	* All drivers for GCspy spaces should inherit from this class.
	*/
	@Uninterruptible
	public abstract class AbstractDriver {

	/****************************************************************************
	*
	* Class variables
	*/

	// Controls used for tile presentation
	/** The tile is used */
	protected static final byte CONTROL_USED = 1;
	/** The tile is a background tile */
	protected static final byte CONTROL_BACKGROUND = 2;
	/** The tile is unused */
	protected static final byte CONTROL_UNUSED = 4;
	/** The tile is a separator */
	protected static final byte CONTROL_SEPARATOR = 8;
	/** The tile is a link */
	protected static final byte CONTROL_LINK = 16;


	private static final int MAX_STREAMS = 64; // Max number of streams

	private static final boolean DEBUG = false;
	protected String myClass; // used in debugging messages


	/****************************************************************************
	*
	* Instance variables
	*/

	/** The owning GCspy server */
	protected final ServerInterpreter server;
	/** The name of the GCspy space driver */
	protected final String name;
	/** The GCspy space abstraction */
	protected final ServerSpace serverSpace;
	/** The MMTK space */
	protected final Space mmtkSpace;
	/** The GCspy space's block size */
	protected int blockSize;
	/** The maximum number of tiles in this GCspy space */
	protected int maxTileNum;
	/** This space's streams */
	protected Stream[] streams;
	/** control values for tiles in this space */
	protected byte[] control;
	/** Has this space changed? */
	protected boolean changed = true;


	/**
	* Create a new driver for this collector.
	*
	* @param server The ServerInterpreter that owns this GCspy space.
	* @param name The name of this driver.
	* @param mmtkSpace The MMTk space represented by this driver.
	* @param blockSize The tile size.
	* @param mainSpace Is this the main space?
	*/
	public AbstractDriver(ServerInterpreter server,
	String name,
	Space mmtkSpace,
	int blockSize,
	boolean mainSpace) {
	this.server = server;
	this.name = name;
	this.mmtkSpace = mmtkSpace;
	this.blockSize = blockSize;
	myClass = getClass().getName();
	maxTileNum = countTileNum(mmtkSpace.getExtent(), blockSize);
	control = (byte[])GCspy.util.createDataArray(new byte[0], maxTileNum);
	// to avoid allocation during GC we preallocate the streams array
	streams = new Stream[MAX_STREAMS];
	serverSpace = createServerSpace(server, name, maxTileNum, mainSpace);
	}

	/**
	* Create a subspace for this space.
	* Subspace provide useful facilities for contiguous spaces, even if
	* a space contains only one.
	* @param mmtkSpace The MMTk space
	*/
	@Interruptible
	protected Subspace createSubspace(Space mmtkSpace) {
	Address start = mmtkSpace.getStart();
	return new Subspace(start, start, 0, blockSize, 0);
	}

	/**
	* Create a new GCspy ServerSpace and add it to the ServerInterpreter.
	* @param server the GCspy ServerInterpreter.
	* @param spaceName The name of this driver.
	* @param maxTileNum the maximum number of tiles in this space.
	* @param mainSpace Is this the main space?
	*/
	@Interruptible
	protected ServerSpace createServerSpace(ServerInterpreter server,
	String spaceName,
	int maxTileNum,
	boolean mainSpace) {
	// Set the block label
	String tmp = "Block Size: " + ((blockSize < 1024) ?
	blockSize + " bytes\n":
	(blockSize / 1024) + " Kbytes\n");

	// Create a single GCspy Space
	return VM.newGCspyServerSpace(server, // the server
	spaceName, // space name
	getDriverName(), // driver (space) name
	"Block ", // space title
	tmp, // block info
	maxTileNum, // number of tiles
	"UNUSED", // the label for unused blocks
	mainSpace); // main space
	}

	/**
	* Get the name of this driver type.
	* @return The name of this driver.
	*/
	protected abstract String getDriverName();

	/**
	* Get the maximum number of tiles in this space.
	* @return the maximum number of tiles in the space.
	*/
	public int getMaxTileNum() {
	return maxTileNum;
	}

	/**
	* The GCspy space managed by this driver.
	* @return the GCspy server space.
	*/
	public ServerSpace getServerSpace() { return serverSpace; }

	/**
	* Add a stream to the driver. This also sets the stream's id
	* (unique for this space).
	* @param stream The stream
	* @exception IndexOutOfBoundsException if more than MAX_STREAMS are added
	*/
	@Interruptible
	public void addStream(Stream stream) {
	int id = 0;
	while (id < MAX_STREAMS) {
	if (streams[id] == null) {
	streams[id] = stream;
	if (DEBUG) { Log.write("Adding stream with id="); Log.writeln(id); }
	Address stream_ = serverSpace.addStream(id);
	stream.setStream(id, stream_);
	return;
	}
	id++;
	}
	throw new IndexOutOfBoundsException("Too many streams added to driver "+name);
	}

	/**
	* Count number of tiles in an address range.
	* @param start The start of the range.
	* @param end The end of the range.
	* @param tileSize The size of each tile.
	* @return The number of tiles in this range.
	*/
	protected int countTileNum(Address start, Address end, int tileSize) {
	if (end.LE(start)) return 0;
	int diff = end.diff(start).toInt();
	return countTileNum(diff, tileSize);
	}

	/**
	* Count number of tiles in an address range.
	* @param extent The extent of the range.
	* @param tileSize The size of each tile.
	* @return The number of tiles in this range.
	*/
	protected int countTileNum(Extent extent, int tileSize) {
	int diff = extent.toInt();
	return countTileNum(diff, tileSize);
	}

	private int countTileNum(int diff, int tileSize) {
	int tiles = diff / tileSize;
	if ((diff % tileSize) != 0)
	++tiles;
	return tiles;
	}

	/**
	* Indicate the limits of a space.
	*
	* @param start the Address of the start of the space.
	* @param end the Address of the end of the space.
	*/
	public void setRange(Address start, Address end) {}

	/**
	* Indicate the limits of a space.
	*
	* @param start the Address of the start of the space.
	* @param extent the extent of the space.
	*/
	public void setRange(Address start, Extent extent) {
	setRange(start, start.plus(extent));
	}

	/**
	* Setup the tile names in a subspace. Tile names are typically
	* address ranges but may be anything (e.g. a size class if the
	* space is a segregated free-list manager, or a class name if the
	* space represents the class instances loaded).
	*
	* @param subspace the Subspace
	* @param numTiles the number of tiles to name
	*/
	protected void setTilenames(Subspace subspace, int numTiles) {
	Address start = subspace.getStart();
	int first = subspace.getFirstIndex();
	int bs = subspace.getBlockSize();

	for (int i = 0; i < numTiles; ++i) {
	if (subspace.indexInRange(i))
	serverSpace.setTilename(i, start.plus((i - first) * bs),
	start.plus((i + 1 - first) * bs));
	}
	}

	/**
	* The "typical" maximum number of objects in each tile.
	* @param blockSize The size of a tile
	* @return The maximum number of objects in a tile
	*/
	public int maxObjectsPerBlock(int blockSize) {
	// Maybe a misuse of ServerInterpreter but it's a convenient
	// VM-dependent class
	return blockSize / GCspy.server.computeHeaderSize();
	}

	/**
	* Is the server connected to a GCspy client?
	* @param event The current event
	*/
	public boolean isConnected(int event) {
	return server.isConnected(event);
	}

	/**
	* Reset the statistics for a space.
	* In this base driver, we simply note that the data has changed.
	*/
	protected void resetData() { changed = true; }

	/**
	* Scan an object found at a location.
	* Collectors typically call this method to update GCspy statistics.
	* The driver may or may not accumulate values found, depending on
	* the value of total.
	* @param obj the reference to the object found
	* @param total Whether to total the statistics
	*/
	public void scan(ObjectReference obj, boolean total) {}

	/**
	* Scan an object found at a location.
	* Collectors typically call this method to update GCspy statistics
	* The driver will accumulate values found.
	* @param obj the reference to the object found
	*/
	public void scan(ObjectReference obj) { scan(obj, true); }

	/**
	* Scan an object found at a location.
	* Collectors typically call this method to update GCspy statistics.
	* The driver may or may not accumulate values found, depending on
	* the value of total.
	* @param obj the reference to the object found
	* @param total Whether to total the statistics
	*/
	public void scan(Address obj, boolean total) {}

	/**
	* Scan an object found at a location.
	* Collectors typically call this method to update GCspy statistics
	* The driver will accumulate values found.
	* @param obj the reference to the object found
	*/
	public void scan(Address obj) {}

	/**
	* Handle a direct reference from the immortal space.<p>
	* This is an empty implementation. Subclasses may override this method
	* to increment their <code>refFromImmortal</code> Stream.
	*
	* @param addr The Address
	* @return true if the given Address is in this subspace. Always false here.
	*/
	public boolean handleReferenceFromImmortalSpace(Address addr) {
	return false;
	}

	/**
	* Set space info.
	* This simply reports the size of the current space.
	* Drivers that want to send something more complex than
	* "Current Size: size\n"
	* must override this method.
	*
	* @param size the size of the space
	*/
	protected void setSpaceInfo(Offset size) {
	// - sprintf(tmp, "Current Size: %s\n", gcspy_formatSize(size));
	Address tmp = GCspy.util.formatSize("Current Size: %s\n", 128, size.toInt());
	serverSpace.spaceInfo(tmp);
	GCspy.util.free(tmp);
	}


	/****************************************************************************
	*
	* Control values
	*/

	/**
	* Is a tile used?
	* @param val the control value.
	* @return true if the tile is used
	*/
	protected static boolean controlIsUsed(byte val) {
	return (val & CONTROL_USED) != 0;
	}

	/**
	* Is a tile a background pseudo-tile?
	* @param val the control value.
	* @return true if the tile is a background tile
	*/
	protected static boolean controlIsBackground(byte val) {
	return (val & CONTROL_BACKGROUND) != 0;
	}

	/**
	* Is a tile unused?
	* @param val the control value.
	* @return true if the tile is unused
	*/
	protected static boolean controlIsUnused(byte val) {
	return (val & CONTROL_UNUSED) != 0;
	}

	/**
	* Is this a separator?
	* @param val the control value.
	* @return true if this is a separator
	*/
	protected static boolean controlIsSeparator(byte val) {
	return (val & CONTROL_SEPARATOR) != 0;
	}

	/**
	* Initialise the value of a control.
	* @param index The index of the tile.
	* @param value The new value of the control
	*/
	protected void initControl(int index, byte value) {
	control[index] = value;
	}

	/**
	* Add a control to the tile
	* @param index The index of the tile.
	* @param value The control to add.
	*/
	protected void addControl(int index, byte value) {
	control[index] \|= value;
	}

	/** Set the control
	* @param value The value to set
	*/
	protected void setControl(int index, byte value) {
	control[index] &= value;
	}

	/**
	* Get the controls for a tile.
	* @param index The index of the tile.
	* @return The value of the controls
	*/
	public byte getControl(int index) {
	return control[index];
	}

	/**
	* Initialise control values in all tiles
	*/
	protected void initControls() {
	for (int index = 0; index < control.length; ++index) {
	initControl(index, CONTROL_USED);
	}
	}

	/**
	* Set the control value in each tile in a region.
	* @param tag The control tag.
	* @param start The start index of the region.
	* @param len The number of tiles in the region.
	*/
	protected void controlValues(byte tag, int start, int len) {
	if (DEBUG) {
	Log.write("AbstractDriver.controlValues for space ");
	Log.write(name);
	Log.write(", control length=", control.length);
	Log.write(" writing controls from ", start);
	Log.writeln(" to ", start + len);
	}
	changed = true;
	for (int i = start; i < (start+len); ++i) {
	// Cannot be both USED and UNUSED or BACKGROUND
	if (controlIsBackground(tag) \|\| controlIsUnused(tag))
	setControl(i, (byte)~CONTROL_USED);
	else if (controlIsUsed(tag))
	setControl(i, (byte)~CONTROL_UNUSED);
	addControl(i, tag);
	}
	}

	/**
	* Transmit the streams for this space. A driver will typically
	* <ol>
	* <li> Determine whether a GCspy client is connected and interested in
	* this event, e.g.
	* <pre>server.isConnected(event)</pre>
	* <li> Setup the summaries for each stream, e.g.
	* <pre>stream.setSummary(values...);</pre>
	* <li> Setup the control information for each tile. e.g.
	* <pre>controlValues(CONTROL_USED, start, numBlocks);</pre>
	* <pre>controlValues(CONTROL_UNUSED, end, remainingBlocks);</pre>
	* <li> Set up the space information, e.g.
	* <pre>setSpace(info);</pre>
	* <li> Send the data for all streams, e.g.
	* <pre>send(event, numTiles);</pre>
	* Note that AbstractDriver.send takes care of sending the information
	* for all streams (including control data).
	*
	* @param event The event
	*/
	public abstract void transmit(int event);

	/**
	* Send all the streams for this space if it has changed.
	* Assume that the data has been gathered and that summary info
	* and control values have been set before this is called.
	*
	* @param event the event
	* @param numTiles the number of blocks in this space
	*/
	protected void send(int event, int numTiles) {
	if (changed) {
	serverSpace.startCommunication();
	for (int i = 0; i < MAX_STREAMS; i++)
	if (streams[i] != null)
	streams[i].send(event, numTiles);
	serverSpace.sendControls(this, numTiles);
	serverSpace.endCommunication();
	}
	}
	}