vmkit/mmtk/java/src/org/mmtk/plan/semispace/SSMutator.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.plan.semispace;

 import org.mmtk.plan.*;
 import org.mmtk.policy.CopyLocal;
 import org.mmtk.policy.Space;
 import org.mmtk.utility.alloc.Allocator;

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

 /**
  * This class implements <i>per-mutator thread</i> behavior
  * and state for the <i>SS</i> plan, which implements a full-heap
  * semi-space collector.<p>
  *
  * Specifically, this class defines <i>SS</i> mutator-time allocation
  * and per-mutator thread collection semantics (flushing and restoring
  * per-mutator allocator state).<p>
  *
  * See {@link SS} for an overview of the semi-space algorithm.<p>
  *
  * @see SS
  * @see SSCollector
  * @see StopTheWorldMutator
  * @see MutatorContext
  */
 @Uninterruptible
 public class SSMutator extends StopTheWorldMutator {
   /****************************************************************************
    * Instance fields
    */
   protected final CopyLocal ss;

   /****************************************************************************
    *
    * Initialization
    */

   /**
    * Constructor
    */
   public SSMutator() {
     ss = new CopyLocal();
   }

   /**
    * Called before the MutatorContext is used, but after the context has been
    * fully registered and is visible to collection.
    */
   public void initMutator(int id) {
     super.initMutator(id);
     ss.rebind(SS.toSpace());
   }

   /****************************************************************************
    *
    * Mutator-time allocation
    */

   /**
    * Allocate space (for an object)
    *
    * @param bytes The size of the space to be allocated (in bytes)
    * @param align The requested alignment.
    * @param offset The alignment offset.
    * @param allocator The allocator number to be used for this allocation
    * @param site Allocation site
    * @return The address of the first byte of the allocated region
    */
   @Inline
   public Address alloc(int bytes, int align, int offset, int allocator, int site) {
     if (allocator == SS.ALLOC_SS)
       return ss.alloc(bytes, align, offset);
     else
       return super.alloc(bytes, align, offset, allocator, site);
   }

   /**
    * Perform post-allocation actions.  For many allocators none are
    * required.
    *
    * @param object The newly allocated object
    * @param typeRef The type reference for the instance being created
    * @param bytes The size of the space to be allocated (in bytes)
    * @param allocator The allocator number to be used for this allocation
    */
   @Inline
   public void postAlloc(ObjectReference object, ObjectReference typeRef,
       int bytes, int allocator) {
     if (allocator == SS.ALLOC_SS) return;
     super.postAlloc(object, typeRef, bytes, allocator);
   }

   /**
    * Return the allocator instance associated with a space
    * <code>space</code>, for this plan instance.
    *
    * @param space The space for which the allocator instance is desired.
    * @return The allocator instance associated with this plan instance
    * which is allocating into <code>space</code>, or <code>null</code>
    * if no appropriate allocator can be established.
    */
   public Allocator getAllocatorFromSpace(Space space) {
     if (space == SS.copySpace0 || space == SS.copySpace1) return ss;
     return super.getAllocatorFromSpace(space);
   }

   /****************************************************************************
    *
    * Collection
    */

   /**
    * Perform a per-mutator collection phase.
    *
    * @param phaseId The collection phase to perform
    * @param primary Perform any single-threaded activities using this thread.
    */
   @Inline
   public void collectionPhase(short phaseId, boolean primary) {
     if (phaseId == SS.PREPARE) {
       super.collectionPhase(phaseId, primary);
       return;
     }

     if (phaseId == SS.RELEASE) {
       super.collectionPhase(phaseId, primary);
       // rebind the allocation bump pointer to the appropriate semispace.
       ss.rebind(SS.toSpace());
       return;
     }

     super.collectionPhase(phaseId, primary);
   }


   /****************************************************************************
    *
    * Miscellaneous
    */

   /**
    * Show the status of each of the allocators.
    */
   public final void show() {
     ss.show();
     los.show();
     immortal.show();
   }

 }
	/*
	* 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.plan.semispace;

	import org.mmtk.plan.*;
	import org.mmtk.policy.CopyLocal;
	import org.mmtk.policy.Space;
	import org.mmtk.utility.alloc.Allocator;

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

	/**
	* This class implements <i>per-mutator thread</i> behavior
	* and state for the <i>SS</i> plan, which implements a full-heap
	* semi-space collector.<p>
	*
	* Specifically, this class defines <i>SS</i> mutator-time allocation
	* and per-mutator thread collection semantics (flushing and restoring
	* per-mutator allocator state).<p>
	*
	* See {@link SS} for an overview of the semi-space algorithm.<p>
	*
	* @see SS
	* @see SSCollector
	* @see StopTheWorldMutator
	* @see MutatorContext
	*/
	@Uninterruptible
	public class SSMutator extends StopTheWorldMutator {
	/****************************************************************************
	* Instance fields
	*/
	protected final CopyLocal ss;

	/****************************************************************************
	*
	* Initialization
	*/

	/**
	* Constructor
	*/
	public SSMutator() {
	ss = new CopyLocal();
	}

	/**
	* Called before the MutatorContext is used, but after the context has been
	* fully registered and is visible to collection.
	*/
	public void initMutator(int id) {
	super.initMutator(id);
	ss.rebind(SS.toSpace());
	}

	/****************************************************************************
	*
	* Mutator-time allocation
	*/

	/**
	* Allocate space (for an object)
	*
	* @param bytes The size of the space to be allocated (in bytes)
	* @param align The requested alignment.
	* @param offset The alignment offset.
	* @param allocator The allocator number to be used for this allocation
	* @param site Allocation site
	* @return The address of the first byte of the allocated region
	*/
	@Inline
	public Address alloc(int bytes, int align, int offset, int allocator, int site) {
	if (allocator == SS.ALLOC_SS)
	return ss.alloc(bytes, align, offset);
	else
	return super.alloc(bytes, align, offset, allocator, site);
	}

	/**
	* Perform post-allocation actions. For many allocators none are
	* required.
	*
	* @param object The newly allocated object
	* @param typeRef The type reference for the instance being created
	* @param bytes The size of the space to be allocated (in bytes)
	* @param allocator The allocator number to be used for this allocation
	*/
	@Inline
	public void postAlloc(ObjectReference object, ObjectReference typeRef,
	int bytes, int allocator) {
	if (allocator == SS.ALLOC_SS) return;
	super.postAlloc(object, typeRef, bytes, allocator);
	}

	/**
	* Return the allocator instance associated with a space
	* <code>space</code>, for this plan instance.
	*
	* @param space The space for which the allocator instance is desired.
	* @return The allocator instance associated with this plan instance
	* which is allocating into <code>space</code>, or <code>null</code>
	* if no appropriate allocator can be established.
	*/
	public Allocator getAllocatorFromSpace(Space space) {
	if (space == SS.copySpace0 \|\| space == SS.copySpace1) return ss;
	return super.getAllocatorFromSpace(space);
	}

	/****************************************************************************
	*
	* Collection
	*/

	/**
	* Perform a per-mutator collection phase.
	*
	* @param phaseId The collection phase to perform
	* @param primary Perform any single-threaded activities using this thread.
	*/
	@Inline
	public void collectionPhase(short phaseId, boolean primary) {
	if (phaseId == SS.PREPARE) {
	super.collectionPhase(phaseId, primary);
	return;
	}

	if (phaseId == SS.RELEASE) {
	super.collectionPhase(phaseId, primary);
	// rebind the allocation bump pointer to the appropriate semispace.
	ss.rebind(SS.toSpace());
	return;
	}

	super.collectionPhase(phaseId, primary);
	}


	/****************************************************************************
	*
	* Miscellaneous
	*/

	/**
	* Show the status of each of the allocators.
	*/
	public final void show() {
	ss.show();
	los.show();
	immortal.show();
	}

	}