vmkit/mmtk/java/src/org/mmtk/vm/VM.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.vm;

 import org.mmtk.utility.options.Options;
 import org.mmtk.utility.gcspy.Color;
 import org.mmtk.utility.gcspy.drivers.AbstractDriver;
 import org.mmtk.vm.gcspy.ByteStream;
 import org.mmtk.vm.gcspy.IntStream;
 import org.mmtk.vm.gcspy.ServerInterpreter;
 import org.mmtk.vm.gcspy.ServerSpace;
 import org.mmtk.vm.gcspy.ShortStream;
 import org.mmtk.vm.gcspy.Util;
 import org.vmmagic.pragma.Untraced;
 import org.vmmagic.unboxed.Address;
 import org.vmmagic.unboxed.Offset;

 /**
  * This class is responsible for all VM-specific functionality required
  * by MMTk.<p>
  *
  * The class has three major elements.  First it defines VM-specific
  * constants which are used throughout MMTk, second, it declares
  * singleton instances of each of the abstract classes in this
  * package, and third, it provides factory methods for VM-specific
  * instances which are needed by MMTk (such as <code>Lock</code>).<p>
  *
  * Both the constants and the singleton instances are initialized to
  * VM-specific values at build time using reflection and a VM-specific
  * factory class. The system property <code>mmtk.hostjvm</code> is
  * interrogated at build time to establish concrete instantations of
  * the abstract classes in this package. By <b>convention</b>,
  * <code>mmtk.hostjvm</code> will identify a VM-provided package which
  * includes concrete instances of each of the abstract classes, with
  * each concrete class having the same base class name (but different
  * package name) as the abstract classes defined here.  The class
  * initializer for this class then uses the system property
  * <code>mmtk.hostjvm</code> to load the VM-specific concrete classes
  * and initialize the constants and singletons defined here.
  */
 public final class VM {
   /*
    * VM-specific constant values
    */
   /** <code>true</code> if assertions should be verified */
   public static final boolean VERIFY_ASSERTIONS;
   /** The lowest address in virtual memory known to MMTk */
   public static final Address HEAP_START;
   /** The highest address in virtual memory known to MMTk */
   public static final Address HEAP_END;
   /** The lowest address in the contiguously available memory available to MMTk */
   public static final Address AVAILABLE_START;
   /** The highest address in the contiguously available memory available to MMTk */
   public static final Address AVAILABLE_END;
   /** The log base two of the size of an address */
   public static final byte LOG_BYTES_IN_ADDRESS;
   /** The log base two of the size of a word */
   public static final byte LOG_BYTES_IN_WORD;
   /** The log base two of the size of an OS page */
   public static final byte LOG_BYTES_IN_PAGE;
   /** The log base two of the minimum allocation alignment */
   public static final byte LOG_MIN_ALIGNMENT;
   /** The log base two of (MAX_ALIGNMENT/MIN_ALIGNMENT) */
   public static final byte MAX_ALIGNMENT_SHIFT;
   /** The maximum number of bytes of padding to prepend to an object */
   public static final int MAX_BYTES_PADDING;
   /** The value to store in alignment holes */
   public static final int ALIGNMENT_VALUE;
   /** The offset from an array reference to element zero */
   public static final Offset ARRAY_BASE_OFFSET;
   /** Global debugging switch */
   public static final boolean DEBUG;

   /*
    * VM-specific functionality captured in a series of singleton classs
    */
   @Untraced
   public static final ActivePlan activePlan;
   @Untraced
   public static final Assert assertions;
   @Untraced
   public static final Barriers barriers;
   @Untraced
   public static final Collection collection;
   @Untraced
   public static final Config config;
   @Untraced
   public static final Memory memory;
   @Untraced
   public static final ObjectModel objectModel;
   @Untraced
   public static final ReferenceProcessor weakReferences;
   @Untraced
   public static final ReferenceProcessor softReferences;
   @Untraced
   public static final ReferenceProcessor phantomReferences;
   @Untraced
   public static final FinalizableProcessor finalizableProcessor;
   @Untraced
   public static final Scanning scanning;
   @Untraced
   public static final Statistics statistics;
   @Untraced
   public static final Strings strings;
   @Untraced
   public static final TraceInterface traceInterface;
   @Untraced
   public static final MMTk_Events events;
   @Untraced
   public static final Debug debugging;

   /*
    * The remainder is does the static initialization of the
    * above, reflectively binding to the appropriate host jvm
    * classes.
    */
   private static final Factory factory;
   private static final String vmFactory;

   /**
    * This class initializer establishes a VM-specific factory class
    * using reflection, and then uses that to create VM-specific concrete
    * instances of all of the vm classes, initializing the singltons in
    * this class.  Finally the constants declared in this class are
    * initialized using the VM-specific singletons.
    */
   static {
     /* Identify the VM-specific factory using reflection */
     vmFactory = System.getProperty("mmtk.hostjvm");
     Factory xfa = null;
     try {
       xfa = (Factory) Class.forName(vmFactory).newInstance();
     } catch (Exception e) {
       e.printStackTrace();
       System.exit(-1);     // we must *not* go on if the above has failed
     }
     factory = xfa;

     /* Now instantiate the singletons using the factory */
     activePlan = factory.newActivePlan();
     assertions = factory.newAssert();
     barriers = factory.newBarriers();
     collection = factory.newCollection();
     memory = factory.newMemory();
     objectModel = factory.newObjectModel();
     Options.set = factory.getOptionSet();
     weakReferences = factory.newReferenceProcessor(ReferenceProcessor.Semantics.WEAK);
     softReferences = factory.newReferenceProcessor(ReferenceProcessor.Semantics.SOFT);
     phantomReferences = factory.newReferenceProcessor(ReferenceProcessor.Semantics.PHANTOM);
     finalizableProcessor = factory.newFinalizableProcessor();
     scanning = factory.newScanning();
     statistics = factory.newStatistics();
     strings = factory.newStrings();
     traceInterface = factory.newTraceInterface();
     events = factory.newEvents();
     debugging = factory.newDebug();
     config = new Config(factory.newBuildTimeConfig());

     /* Now initialize the constants using the vm-specific singletons */
     VERIFY_ASSERTIONS = Assert.verifyAssertionsTrapdoor(assertions);
     HEAP_START = Memory.heapStartTrapdoor(memory);
     HEAP_END = Memory.heapEndTrapdoor(memory);
     AVAILABLE_START = Memory.availableStartTrapdoor(memory);
     AVAILABLE_END = Memory.availableEndTrapdoor(memory);
     LOG_BYTES_IN_ADDRESS = Memory.logBytesInAddressTrapdoor(memory);
     LOG_BYTES_IN_WORD = Memory.logBytesInWordTrapdoor(memory);
     LOG_BYTES_IN_PAGE = Memory.logBytesInPageTrapdoor(memory);
     LOG_MIN_ALIGNMENT = Memory.logMinAlignmentTrapdoor(memory);
     MAX_ALIGNMENT_SHIFT = Memory.maxAlignmentShiftTrapdoor(memory);
     MAX_BYTES_PADDING = Memory.maxBytesPaddingTrapdoor(memory);
     ALIGNMENT_VALUE = Memory.alignmentValueTrapdoor(memory);
     ARRAY_BASE_OFFSET = ObjectModel.arrayBaseOffsetTrapdoor(objectModel);
     DEBUG = Debug.isEnabledTrapdoor(debugging);
   }

   /**
    * Create a new Lock instance using the appropriate VM-specific
    * concrete Lock sub-class.
    *
    * @see Lock
    *
    * @param name The string to be associated with this lock instance
    * @return A concrete VM-specific Lock instance.
    */
   public static Lock newLock(String name) {
     return factory.newLock(name);
   }

   /**
    * Create a new SynchronizedCounter instance using the appropriate
    * VM-specific concrete SynchronizedCounter sub-class.
    *
    * @see SynchronizedCounter
    *
    * @return A concrete VM-specific SynchronizedCounter instance.
    */
   public static SynchronizedCounter newSynchronizedCounter() {
     return factory.newSynchronizedCounter();
   }

   /**********************************************************************
    * GCspy methods
    */

   /**
    * Create a new Util instance using the appropriate
    * VM-specific concrete Util sub-class.
    *
    * @see Util
    *
    * @return A concrete VM-specific Util instance.
    */
   public static Util newGCspyUtil() {
     return factory.newGCspyUtil();
   }

   /**
    * Create a new ServerInterpreter instance using the appropriate
    * VM-specific concrete ServerInterpreter sub-class.
    *
    * @see ServerInterpreter
    *
    * @return A concrete VM-specific ServerInterpreter instance.
    */
   public static ServerInterpreter newGCspyServerInterpreter() {
     return factory.newGCspyServerInterpreter();
   }

   /**
    * Create a new ServerInterpreter instance using the appropriate
    * VM-specific concrete ServerInterpreter sub-class.
    *
    * @see ServerInterpreter
    *
    * @return A concrete VM-specific ServerInterpreter instance.
    */
   public static ServerSpace newGCspyServerSpace(
       ServerInterpreter serverInterpreter,
       String serverName,
       String driverName,
       String title,
       String blockInfo,
       int tileNum,
       String unused,
       boolean mainSpace) {
     return factory.newGCspyServerSpace(serverInterpreter, serverName, driverName,
                                        title, blockInfo, tileNum, unused,
                                        mainSpace);
   }

   /**
    * Create a new ByteStream instance using the appropriate
    * VM-specific concrete ByteStream sub-class.
    *
    * @param driver        The driver that owns this Stream
    * @param name           The name of the stream (e.g. "Used space")
    * @param minValue       The minimum value for any item in this stream.
    *                       Values less than this will be represented as "minValue-"
    * @param maxValue       The maximum value for any item in this stream.
    *                       Values greater than this will be represented as "maxValue+"
    * @param zeroValue      The zero value for this stream
    * @param defaultValue   The default value for this stream
    * @param stringPre      A string to prefix values (e.g. "Used: ")
    * @param stringPost     A string to suffix values (e.g. " bytes.")
    * @param presentation   How a stream value is to be presented.
    * @param paintStyle     How the value is to be painted.
    * @param indexMaxStream The index of the maximum stream if the presentation is *_VAR.
    * @param colour         The default colour for tiles of this stream
    * @see IntStream
    *
    * @return A concrete VM-specific ByteStream instance.
    */
   public static ByteStream newGCspyByteStream(
       AbstractDriver driver,
       String name,
       byte minValue,
       byte maxValue,
       byte zeroValue,
       byte defaultValue,
       String stringPre,
       String stringPost,
       int presentation,
       int paintStyle,
       int indexMaxStream,
       Color colour,
       boolean summary) {
     return factory.newGCspyByteStream(driver, name, minValue,  maxValue,
                                      zeroValue, defaultValue, stringPre, stringPost,
                                      presentation, paintStyle, indexMaxStream,
                                      colour, summary);
   }

   /**
    * Create a new IntStream instance using the appropriate
    * VM-specific concrete IntStream sub-class.
    *
    * @param driver        The driver that owns this Stream
    * @param name           The name of the stream (e.g. "Used space")
    * @param minValue       The minimum value for any item in this stream.
    *                       Values less than this will be represented as "minValue-"
    * @param maxValue       The maximum value for any item in this stream.
    *                       Values greater than this will be represented as "maxValue+"
    * @param zeroValue      The zero value for this stream
    * @param defaultValue   The default value for this stream
    * @param stringPre      A string to prefix values (e.g. "Used: ")
    * @param stringPost     A string to suffix values (e.g. " bytes.")
    * @param presentation   How a stream value is to be presented.
    * @param paintStyle     How the value is to be painted.
    * @param indexMaxStream The index of the maximum stream if the presentation is *_VAR.
    * @param colour         The default colour for tiles of this stream
    * @see IntStream
    *
    * @return A concrete VM-specific IntStream instance.
    */
   public static IntStream newGCspyIntStream(
       AbstractDriver driver,
       String name,
       int minValue,
       int maxValue,
       int zeroValue,
       int defaultValue,
       String stringPre,
       String stringPost,
       int presentation,
       int paintStyle,
       int indexMaxStream,
       Color colour,
       boolean summary) {
     return factory.newGCspyIntStream(driver, name, minValue,  maxValue,
                                      zeroValue, defaultValue, stringPre, stringPost,
                                      presentation, paintStyle, indexMaxStream,
                                      colour, summary);
   }

   /**
    * Create a new ShortStream instance using the appropriate
    * VM-specific concrete ShortStream sub-class.
    *
    * @param driver        The driver that owns this Stream
    * @param name           The name of the stream (e.g. "Used space")
    * @param minValue       The minimum value for any item in this stream.
    *                       Values less than this will be represented as "minValue-"
    * @param maxValue       The maximum value for any item in this stream.
    *                       Values greater than this will be represented as "maxValue+"
    * @param zeroValue      The zero value for this stream
    * @param defaultValue   The default value for this stream
    * @param stringPre      A string to prefix values (e.g. "Used: ")
    * @param stringPost     A string to suffix values (e.g. " bytes.")
    * @param presentation   How a stream value is to be presented.
    * @param paintStyle     How the value is to be painted.
    * @param indexMaxStream The index of the maximum stream if the presentation is *_VAR.
    * @param colour         The default colour for tiles of this stream
    * @see IntStream
    *
    * @return A concrete VM-specific IntStream instance.
    */
   public static ShortStream newGCspyShortStream(
       AbstractDriver driver,
       String name,
       short minValue,
       short maxValue,
       short zeroValue,
       short defaultValue,
       String stringPre,
       String stringPost,
       int presentation,
       int paintStyle,
       int indexMaxStream,
       Color colour,
       boolean summary) {
     return factory.newGCspyShortStream(driver, name, minValue,  maxValue,
                                      zeroValue, defaultValue, stringPre, stringPost,
                                      presentation, paintStyle, indexMaxStream,
                                      colour, summary);
   }
 }
	/*
	* 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.vm;

	import org.mmtk.utility.options.Options;
	import org.mmtk.utility.gcspy.Color;
	import org.mmtk.utility.gcspy.drivers.AbstractDriver;
	import org.mmtk.vm.gcspy.ByteStream;
	import org.mmtk.vm.gcspy.IntStream;
	import org.mmtk.vm.gcspy.ServerInterpreter;
	import org.mmtk.vm.gcspy.ServerSpace;
	import org.mmtk.vm.gcspy.ShortStream;
	import org.mmtk.vm.gcspy.Util;
	import org.vmmagic.pragma.Untraced;
	import org.vmmagic.unboxed.Address;
	import org.vmmagic.unboxed.Offset;

	/**
	* This class is responsible for all VM-specific functionality required
	* by MMTk.<p>
	*
	* The class has three major elements. First it defines VM-specific
	* constants which are used throughout MMTk, second, it declares
	* singleton instances of each of the abstract classes in this
	* package, and third, it provides factory methods for VM-specific
	* instances which are needed by MMTk (such as <code>Lock</code>).<p>
	*
	* Both the constants and the singleton instances are initialized to
	* VM-specific values at build time using reflection and a VM-specific
	* factory class. The system property <code>mmtk.hostjvm</code> is
	* interrogated at build time to establish concrete instantations of
	* the abstract classes in this package. By <b>convention</b>,
	* <code>mmtk.hostjvm</code> will identify a VM-provided package which
	* includes concrete instances of each of the abstract classes, with
	* each concrete class having the same base class name (but different
	* package name) as the abstract classes defined here. The class
	* initializer for this class then uses the system property
	* <code>mmtk.hostjvm</code> to load the VM-specific concrete classes
	* and initialize the constants and singletons defined here.
	*/
	public final class VM {
	/*
	* VM-specific constant values
	*/
	/** <code>true</code> if assertions should be verified */
	public static final boolean VERIFY_ASSERTIONS;
	/** The lowest address in virtual memory known to MMTk */
	public static final Address HEAP_START;
	/** The highest address in virtual memory known to MMTk */
	public static final Address HEAP_END;
	/** The lowest address in the contiguously available memory available to MMTk */
	public static final Address AVAILABLE_START;
	/** The highest address in the contiguously available memory available to MMTk */
	public static final Address AVAILABLE_END;
	/** The log base two of the size of an address */
	public static final byte LOG_BYTES_IN_ADDRESS;
	/** The log base two of the size of a word */
	public static final byte LOG_BYTES_IN_WORD;
	/** The log base two of the size of an OS page */
	public static final byte LOG_BYTES_IN_PAGE;
	/** The log base two of the minimum allocation alignment */
	public static final byte LOG_MIN_ALIGNMENT;
	/** The log base two of (MAX_ALIGNMENT/MIN_ALIGNMENT) */
	public static final byte MAX_ALIGNMENT_SHIFT;
	/** The maximum number of bytes of padding to prepend to an object */
	public static final int MAX_BYTES_PADDING;
	/** The value to store in alignment holes */
	public static final int ALIGNMENT_VALUE;
	/** The offset from an array reference to element zero */
	public static final Offset ARRAY_BASE_OFFSET;
	/** Global debugging switch */
	public static final boolean DEBUG;

	/*
	* VM-specific functionality captured in a series of singleton classs
	*/
	@Untraced
	public static final ActivePlan activePlan;
	@Untraced
	public static final Assert assertions;
	@Untraced
	public static final Barriers barriers;
	@Untraced
	public static final Collection collection;
	@Untraced
	public static final Config config;
	@Untraced
	public static final Memory memory;
	@Untraced
	public static final ObjectModel objectModel;
	@Untraced
	public static final ReferenceProcessor weakReferences;
	@Untraced
	public static final ReferenceProcessor softReferences;
	@Untraced
	public static final ReferenceProcessor phantomReferences;
	@Untraced
	public static final FinalizableProcessor finalizableProcessor;
	@Untraced
	public static final Scanning scanning;
	@Untraced
	public static final Statistics statistics;
	@Untraced
	public static final Strings strings;
	@Untraced
	public static final TraceInterface traceInterface;
	@Untraced
	public static final MMTk_Events events;
	@Untraced
	public static final Debug debugging;

	/*
	* The remainder is does the static initialization of the
	* above, reflectively binding to the appropriate host jvm
	* classes.
	*/
	private static final Factory factory;
	private static final String vmFactory;

	/**
	* This class initializer establishes a VM-specific factory class
	* using reflection, and then uses that to create VM-specific concrete
	* instances of all of the vm classes, initializing the singltons in
	* this class. Finally the constants declared in this class are
	* initialized using the VM-specific singletons.
	*/
	static {
	/* Identify the VM-specific factory using reflection */
	vmFactory = System.getProperty("mmtk.hostjvm");
	Factory xfa = null;
	try {
	xfa = (Factory) Class.forName(vmFactory).newInstance();
	} catch (Exception e) {
	e.printStackTrace();
	System.exit(-1); // we must not go on if the above has failed
	}
	factory = xfa;

	/* Now instantiate the singletons using the factory */
	activePlan = factory.newActivePlan();
	assertions = factory.newAssert();
	barriers = factory.newBarriers();
	collection = factory.newCollection();
	memory = factory.newMemory();
	objectModel = factory.newObjectModel();
	Options.set = factory.getOptionSet();
	weakReferences = factory.newReferenceProcessor(ReferenceProcessor.Semantics.WEAK);
	softReferences = factory.newReferenceProcessor(ReferenceProcessor.Semantics.SOFT);
	phantomReferences = factory.newReferenceProcessor(ReferenceProcessor.Semantics.PHANTOM);
	finalizableProcessor = factory.newFinalizableProcessor();
	scanning = factory.newScanning();
	statistics = factory.newStatistics();
	strings = factory.newStrings();
	traceInterface = factory.newTraceInterface();
	events = factory.newEvents();
	debugging = factory.newDebug();
	config = new Config(factory.newBuildTimeConfig());

	/* Now initialize the constants using the vm-specific singletons */
	VERIFY_ASSERTIONS = Assert.verifyAssertionsTrapdoor(assertions);
	HEAP_START = Memory.heapStartTrapdoor(memory);
	HEAP_END = Memory.heapEndTrapdoor(memory);
	AVAILABLE_START = Memory.availableStartTrapdoor(memory);
	AVAILABLE_END = Memory.availableEndTrapdoor(memory);
	LOG_BYTES_IN_ADDRESS = Memory.logBytesInAddressTrapdoor(memory);
	LOG_BYTES_IN_WORD = Memory.logBytesInWordTrapdoor(memory);
	LOG_BYTES_IN_PAGE = Memory.logBytesInPageTrapdoor(memory);
	LOG_MIN_ALIGNMENT = Memory.logMinAlignmentTrapdoor(memory);
	MAX_ALIGNMENT_SHIFT = Memory.maxAlignmentShiftTrapdoor(memory);
	MAX_BYTES_PADDING = Memory.maxBytesPaddingTrapdoor(memory);
	ALIGNMENT_VALUE = Memory.alignmentValueTrapdoor(memory);
	ARRAY_BASE_OFFSET = ObjectModel.arrayBaseOffsetTrapdoor(objectModel);
	DEBUG = Debug.isEnabledTrapdoor(debugging);
	}

	/**
	* Create a new Lock instance using the appropriate VM-specific
	* concrete Lock sub-class.
	*
	* @see Lock
	*
	* @param name The string to be associated with this lock instance
	* @return A concrete VM-specific Lock instance.
	*/
	public static Lock newLock(String name) {
	return factory.newLock(name);
	}

	/**
	* Create a new SynchronizedCounter instance using the appropriate
	* VM-specific concrete SynchronizedCounter sub-class.
	*
	* @see SynchronizedCounter
	*
	* @return A concrete VM-specific SynchronizedCounter instance.
	*/
	public static SynchronizedCounter newSynchronizedCounter() {
	return factory.newSynchronizedCounter();
	}

	/**********************************************************************
	* GCspy methods
	*/

	/**
	* Create a new Util instance using the appropriate
	* VM-specific concrete Util sub-class.
	*
	* @see Util
	*
	* @return A concrete VM-specific Util instance.
	*/
	public static Util newGCspyUtil() {
	return factory.newGCspyUtil();
	}

	/**
	* Create a new ServerInterpreter instance using the appropriate
	* VM-specific concrete ServerInterpreter sub-class.
	*
	* @see ServerInterpreter
	*
	* @return A concrete VM-specific ServerInterpreter instance.
	*/
	public static ServerInterpreter newGCspyServerInterpreter() {
	return factory.newGCspyServerInterpreter();
	}

	/**
	* Create a new ServerInterpreter instance using the appropriate
	* VM-specific concrete ServerInterpreter sub-class.
	*
	* @see ServerInterpreter
	*
	* @return A concrete VM-specific ServerInterpreter instance.
	*/
	public static ServerSpace newGCspyServerSpace(
	ServerInterpreter serverInterpreter,
	String serverName,
	String driverName,
	String title,
	String blockInfo,
	int tileNum,
	String unused,
	boolean mainSpace) {
	return factory.newGCspyServerSpace(serverInterpreter, serverName, driverName,
	title, blockInfo, tileNum, unused,
	mainSpace);
	}

	/**
	* Create a new ByteStream instance using the appropriate
	* VM-specific concrete ByteStream sub-class.
	*
	* @param driver The driver that owns this Stream
	* @param name The name of the stream (e.g. "Used space")
	* @param minValue The minimum value for any item in this stream.
	* Values less than this will be represented as "minValue-"
	* @param maxValue The maximum value for any item in this stream.
	* Values greater than this will be represented as "maxValue+"
	* @param zeroValue The zero value for this stream
	* @param defaultValue The default value for this stream
	* @param stringPre A string to prefix values (e.g. "Used: ")
	* @param stringPost A string to suffix values (e.g. " bytes.")
	* @param presentation How a stream value is to be presented.
	* @param paintStyle How the value is to be painted.
	* @param indexMaxStream The index of the maximum stream if the presentation is *_VAR.
	* @param colour The default colour for tiles of this stream
	* @see IntStream
	*
	* @return A concrete VM-specific ByteStream instance.
	*/
	public static ByteStream newGCspyByteStream(
	AbstractDriver driver,
	String name,
	byte minValue,
	byte maxValue,
	byte zeroValue,
	byte defaultValue,
	String stringPre,
	String stringPost,
	int presentation,
	int paintStyle,
	int indexMaxStream,
	Color colour,
	boolean summary) {
	return factory.newGCspyByteStream(driver, name, minValue, maxValue,
	zeroValue, defaultValue, stringPre, stringPost,
	presentation, paintStyle, indexMaxStream,
	colour, summary);
	}

	/**
	* Create a new IntStream instance using the appropriate
	* VM-specific concrete IntStream sub-class.
	*
	* @param driver The driver that owns this Stream
	* @param name The name of the stream (e.g. "Used space")
	* @param minValue The minimum value for any item in this stream.
	* Values less than this will be represented as "minValue-"
	* @param maxValue The maximum value for any item in this stream.
	* Values greater than this will be represented as "maxValue+"
	* @param zeroValue The zero value for this stream
	* @param defaultValue The default value for this stream
	* @param stringPre A string to prefix values (e.g. "Used: ")
	* @param stringPost A string to suffix values (e.g. " bytes.")
	* @param presentation How a stream value is to be presented.
	* @param paintStyle How the value is to be painted.
	* @param indexMaxStream The index of the maximum stream if the presentation is *_VAR.
	* @param colour The default colour for tiles of this stream
	* @see IntStream
	*
	* @return A concrete VM-specific IntStream instance.
	*/
	public static IntStream newGCspyIntStream(
	AbstractDriver driver,
	String name,
	int minValue,
	int maxValue,
	int zeroValue,
	int defaultValue,
	String stringPre,
	String stringPost,
	int presentation,
	int paintStyle,
	int indexMaxStream,
	Color colour,
	boolean summary) {
	return factory.newGCspyIntStream(driver, name, minValue, maxValue,
	zeroValue, defaultValue, stringPre, stringPost,
	presentation, paintStyle, indexMaxStream,
	colour, summary);
	}

	/**
	* Create a new ShortStream instance using the appropriate
	* VM-specific concrete ShortStream sub-class.
	*
	* @param driver The driver that owns this Stream
	* @param name The name of the stream (e.g. "Used space")
	* @param minValue The minimum value for any item in this stream.
	* Values less than this will be represented as "minValue-"
	* @param maxValue The maximum value for any item in this stream.
	* Values greater than this will be represented as "maxValue+"
	* @param zeroValue The zero value for this stream
	* @param defaultValue The default value for this stream
	* @param stringPre A string to prefix values (e.g. "Used: ")
	* @param stringPost A string to suffix values (e.g. " bytes.")
	* @param presentation How a stream value is to be presented.
	* @param paintStyle How the value is to be painted.
	* @param indexMaxStream The index of the maximum stream if the presentation is *_VAR.
	* @param colour The default colour for tiles of this stream
	* @see IntStream
	*
	* @return A concrete VM-specific IntStream instance.
	*/
	public static ShortStream newGCspyShortStream(
	AbstractDriver driver,
	String name,
	short minValue,
	short maxValue,
	short zeroValue,
	short defaultValue,
	String stringPre,
	String stringPost,
	int presentation,
	int paintStyle,
	int indexMaxStream,
	Color colour,
	boolean summary) {
	return factory.newGCspyShortStream(driver, name, minValue, maxValue,
	zeroValue, defaultValue, stringPre, stringPost,
	presentation, paintStyle, indexMaxStream,
	colour, summary);
	}
	}