src/main/java/com/google/devtools/build/skyframe/DirtyBuildingState.java - bazel - Git at Google

 // Copyright 2016 The Bazel Authors. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 package com.google.devtools.build.skyframe;

 import com.google.common.base.MoreObjects;
 import com.google.common.base.Preconditions;
 import com.google.common.collect.ImmutableSet;
 import com.google.devtools.build.lib.util.GroupedList;
 import com.google.devtools.build.skyframe.NodeEntry.DirtyState;
 import com.google.devtools.build.skyframe.ThinNodeEntry.DirtyType;
 import java.util.List;
 import java.util.Set;
 import javax.annotation.Nullable;

 /**
  * State for a node that has been dirtied, and will be checked to see if it needs re-evaluation, and
  * either marked clean or re-evaluated.
  *
  * <p>This class is public only for the benefit of alternative graph implementations outside of the
  * package.
  */
 public abstract class DirtyBuildingState {
   private static final int NOT_EVALUATING_SENTINEL = -1;

   static DirtyBuildingState create(
       DirtyType dirtyType, GroupedList<SkyKey> lastBuildDirectDeps, SkyValue lastBuildValue) {
     return new FullDirtyBuildingState(dirtyType, lastBuildDirectDeps, lastBuildValue);
   }

   static DirtyBuildingState createNew() {
     return new FullDirtyBuildingState(DirtyType.CHANGE, null, null);
   }

   /**
    * The state of a dirty node. A node is marked dirty in the DirtyBuildingState constructor, and
    * goes into either the state {@link DirtyState#CHECK_DEPENDENCIES} or {@link
    * DirtyState#NEEDS_REBUILDING}, depending on whether the caller specified that the node was
    * itself changed or not. Never null.
    */
   private DirtyState dirtyState;

   /**
    * The number of dependencies that are known to be done in a {@link NodeEntry}.
    *
    * <p>There is a potential check-then-act race here during evaluation, so we need to make sure
    * that when this is increased, we always check if the new value is equal to the number of
    * required dependencies, and if so, we must re-schedule the node for evaluation.
    *
    * <p>There are two potential pitfalls here: 1) If multiple dependencies signal this node in close
    * succession, this node should be scheduled exactly once. 2) If a thread is still working on this
    * node, it should not be scheduled.
    *
    * <p>To solve the first problem, the {@link NodeEntry#signalDep} method also returns if the node
    * needs to be re-scheduled, and ensures that only one thread gets a true return value.
    *
    * <p>The second problem is solved by first adding the newly discovered deps to a node's {@link
    * InMemoryNodeEntry#directDeps}, and then looping through the direct deps and registering this
    * node as a reverse dependency. This ensures that the signaledDeps counter can only reach {@link
    * InMemoryNodeEntry#directDeps#numElements} on the very last iteration of the loop, i.e., the
    * thread is not working on the node anymore. Note that this requires that there is no code after
    * the loop in {@link ParallelEvaluator.Evaluate#run}.
    */
   private int signaledDeps = NOT_EVALUATING_SENTINEL;

   /**
    * The number of external dependencies (in contrast to the number of internal dependencies which
    * are tracked in NodeEntry. We never keep information about external dependencies across Skyframe
    * calls.
    */
   // We do not strictly require a counter here; all external deps from one SkyFunction evaluation
   // pass are registered as a single logical dependency, and the SkyFunction is only re-evaluated if
   // all of them complete. Therefore, we only need a single bit to track this fact. If the mere
   // existence of this field turns out to be a significant memory burden, we could change the
   // implementation by moving to a single-bit approach, and then store that bit as part of the
   // dirtyState field, e.g., by adding a REBUILDING_WAITING_FOR_EXTERNAL_DEPS enum value, as this
   // can only happen during evaluation.
   private int externalDeps;

   /**
    * The dependencies requested (with group markers) last time the node was built (and below, the
    * value last time the node was built). They will be compared to dependencies requested on this
    * build to check whether this node has changed in {@link NodeEntry#setValue}. If they are null,
    * it means that this node is being built for the first time. See {@link
    * InMemoryNodeEntry#directDeps} for more on dependency group storage.
    *
    * <p>Public only for the use of alternative graph implementations.
    */
   @Nullable
   public abstract GroupedList<SkyKey> getLastBuildDirectDeps() throws InterruptedException;

   /**
    * The number of groups of the dependencies requested last time when the node was built.
    *
    * <p>Getting the number of last-built dependencies should not throw {@link InterruptedException}.
    */
   protected abstract int getNumOfGroupsInLastBuildDirectDeps();

   /** The number of total dependencies requested the last time the node was built. */
   public abstract int getNumElementsInLastBuildDirectDeps();

   /**
    * The value of the node the last time it was built.
    *
    * <p>Public only for the use of alternative graph implementations.
    */
   @Nullable
   public abstract SkyValue getLastBuildValue() throws InterruptedException;

   /**
    * Group of children to be checked next in the process of determining if this entry needs to be
    * re-evaluated. Used by {@link DirtyBuildingState#getNextDirtyDirectDeps} and {@link
    * #signalDepPostProcess}.
    */
   protected int dirtyDirectDepIndex;

   protected DirtyBuildingState(DirtyType dirtyType) {
     dirtyState = dirtyType.getInitialDirtyState();
     // We need to iterate through the deps to see if they have changed, or to remove them if one
     // has. Initialize the iterating index.
     dirtyDirectDepIndex = 0;
   }

   /** Returns true if this state does have information about a previously built version. */
   protected abstract boolean isDirty();

   final void markChanged() {
     Preconditions.checkState(dirtyState == DirtyState.CHECK_DEPENDENCIES, this);
     Preconditions.checkState(dirtyDirectDepIndex == 0, "Unexpected evaluation: %s", this);
     dirtyState = DirtyState.NEEDS_REBUILDING;
   }

   final void markForceRebuild() {
     if (dirtyState == DirtyState.CHECK_DEPENDENCIES || dirtyState == DirtyState.NEEDS_REBUILDING) {
       dirtyState = DirtyState.NEEDS_REBUILDING;
     }
   }

   final void forceRebuild(int numTemporaryDirectDeps) {
     Preconditions.checkState(numTemporaryDirectDeps + externalDeps == signaledDeps, this);
     Preconditions.checkState(
         (dirtyState == DirtyState.CHECK_DEPENDENCIES
                 && getNumOfGroupsInLastBuildDirectDeps() == dirtyDirectDepIndex)
             || dirtyState == DirtyState.NEEDS_FORCED_REBUILDING,
         this);
     dirtyState = DirtyState.FORCED_REBUILDING;
   }

   final boolean isEvaluating() {
     return signaledDeps > NOT_EVALUATING_SENTINEL;
   }

   final boolean isChanged() {
     return dirtyState == DirtyState.NEEDS_REBUILDING
         || dirtyState == DirtyState.NEEDS_FORCED_REBUILDING
         || dirtyState == DirtyState.REBUILDING
         || dirtyState == DirtyState.FORCED_REBUILDING;
   }

   private void checkFinishedBuildingWhenAboutToSetValue() {
     Preconditions.checkState(
         dirtyState == DirtyState.VERIFIED_CLEAN
             || dirtyState == DirtyState.REBUILDING
             || dirtyState == DirtyState.FORCED_REBUILDING,
         "not done building %s",
         this);
   }

   final void signalDep() {
     Preconditions.checkState(isEvaluating());
     signaledDeps++;
   }

   final void addExternalDep() {
     Preconditions.checkState(isEvaluating());
     externalDeps++;
   }

   /**
    * If this node is not yet known to need rebuilding, sets {@link #dirtyState} to {@link
    * DirtyState#NEEDS_REBUILDING} if the child has changed, and {@link DirtyState#VERIFIED_CLEAN} if
    * the child has not changed and this was the last child to be checked (as determined by {@code
    * isReady} and comparing {@link #dirtyDirectDepIndex} and {@link
    * DirtyBuildingState#getNumOfGroupsInLastBuildDirectDeps()}.
    */
   final void signalDepPostProcess(boolean childChanged, int numTemporaryDirectDeps) {
     Preconditions.checkState(
         isChanged() || (dirtyState == DirtyState.CHECK_DEPENDENCIES && dirtyDirectDepIndex > 0),
         "Unexpected not evaluating: %s",
         this);
     if (!isChanged()) {
       // Synchronization isn't needed here because the only caller is NodeEntry, which does it
       // through the synchronized method signalDep.
       if (childChanged) {
         dirtyState = DirtyState.NEEDS_REBUILDING;
       } else if (dirtyState == DirtyState.CHECK_DEPENDENCIES
           && isReady(numTemporaryDirectDeps)
           && getNumOfGroupsInLastBuildDirectDeps() == dirtyDirectDepIndex) {
         // No other dep already marked this as NEEDS_REBUILDING, no deps outstanding, and this was
         // the last block of deps to be checked.
         dirtyState = DirtyState.VERIFIED_CLEAN;
       }
     }
   }

   public final void unmarkNeedsRebuilding() {
     Preconditions.checkState(dirtyState == DirtyState.NEEDS_REBUILDING, this);
     if (getNumOfGroupsInLastBuildDirectDeps() == dirtyDirectDepIndex) {
       dirtyState = DirtyState.VERIFIED_CLEAN;
     } else {
       dirtyState = DirtyState.CHECK_DEPENDENCIES;
     }
   }

   /**
    * Returns true if {@code newValue}.equals the value from the last time this node was built.
    * Should only be used by {@link NodeEntry#setValue}.
    *
    * <p>Changes in direct deps do <i>not</i> force this to return false. Only the value is
    * considered.
    */
   public final boolean unchangedFromLastBuild(SkyValue newValue) throws InterruptedException {
     checkFinishedBuildingWhenAboutToSetValue();
     return !(newValue instanceof NotComparableSkyValue)
         && getLastBuildValue() != null
         && getLastBuildValue().equals(newValue);
   }

   /**
    * Returns true if the deps requested during this evaluation ({@code directDeps}) are exactly
    * those requested the last time this node was built, in the same order.
    */
   final boolean depsUnchangedFromLastBuild(GroupedList<SkyKey> directDeps)
       throws InterruptedException {
     checkFinishedBuildingWhenAboutToSetValue();
     return getLastBuildDirectDeps().equals(directDeps);
   }

   final boolean noDepsLastBuild() {
     return getNumOfGroupsInLastBuildDirectDeps() == 0;
   }

   /** @see NodeEntry#getDirtyState() */
   final DirtyState getDirtyState() {
     return dirtyState;
   }

   /**
    * Gets the next children to be re-evaluated to see if this dirty node needs to be re-evaluated.
    *
    * <p>See {@link NodeEntry#getNextDirtyDirectDeps}.
    */
   final List<SkyKey> getNextDirtyDirectDeps() throws InterruptedException {
     Preconditions.checkState(dirtyState == DirtyState.CHECK_DEPENDENCIES, this);
     Preconditions.checkState(dirtyDirectDepIndex < getNumOfGroupsInLastBuildDirectDeps(), this);
     return getLastBuildDirectDeps().get(dirtyDirectDepIndex++);
   }

   /**
    * Returns the remaining direct deps that have not been checked. If {@code preservePosition} is
    * true, this method is non-mutating. If {@code preservePosition} is false, the caller must
    * process the returned set, and so subsequent calls to this method will return the empty set.
    */
   Set<SkyKey> getAllRemainingDirtyDirectDeps(boolean preservePosition) throws InterruptedException {
     if (getLastBuildDirectDeps() == null) {
       return ImmutableSet.of();
     }
     ImmutableSet.Builder<SkyKey> result = ImmutableSet.builder();
     for (int ind = dirtyDirectDepIndex; ind < getNumOfGroupsInLastBuildDirectDeps(); ind++) {
       result.addAll(getLastBuildDirectDeps().get(ind));
     }
     if (!preservePosition) {
       dirtyDirectDepIndex = getNumOfGroupsInLastBuildDirectDeps();
     }
     return result.build();
   }

   final void resetForRestartFromScratch() {
     Preconditions.checkState(
         dirtyState == DirtyState.REBUILDING || dirtyState == DirtyState.FORCED_REBUILDING, this);
     signaledDeps = 0;
     dirtyDirectDepIndex = 0;
   }

   protected void markRebuilding(boolean isEligibleForChangePruning) {
     Preconditions.checkState(dirtyState == DirtyState.NEEDS_REBUILDING, this);
     dirtyState = DirtyState.REBUILDING;
   }

   void startEvaluating() {
     Preconditions.checkState(!isEvaluating(), this);
     signaledDeps = 0;
   }

   public int getLastDirtyDirectDepIndex() {
     return dirtyDirectDepIndex - 1;
   }

   public int getSignaledDeps() {
     return signaledDeps;
   }

   /** Returns whether all known children of this node have signaled that they are done. */
   boolean isReady(int numDirectDeps) {
     Preconditions.checkState(
         signaledDeps <= numDirectDeps + externalDeps,
         "%s %s %s",
         numDirectDeps,
         externalDeps,
         this);
     return signaledDeps == numDirectDeps + externalDeps;
   }

   protected MoreObjects.ToStringHelper getStringHelper() {
     return MoreObjects.toStringHelper(this)
         .add("dirtyState", dirtyState)
         .add("signaledDeps", signaledDeps)
         .add("externalDeps", externalDeps)
         .add("dirtyDirectDepIndex", dirtyDirectDepIndex);
   }

   @Override
   public String toString() {
     return getStringHelper().toString();
   }

   private static class FullDirtyBuildingState extends DirtyBuildingState {
     private final GroupedList<SkyKey> lastBuildDirectDeps;
     private final SkyValue lastBuildValue;

     private FullDirtyBuildingState(
         DirtyType dirtyType, GroupedList<SkyKey> lastBuildDirectDeps, SkyValue lastBuildValue) {
       super(dirtyType);
       this.lastBuildDirectDeps = lastBuildDirectDeps;
       Preconditions.checkState(
           !dirtyType.equals(DirtyType.DIRTY) || getNumOfGroupsInLastBuildDirectDeps() > 0,
           "%s is being marked dirty but has no children that could have dirtied it",
           this);
       this.lastBuildValue = lastBuildValue;
     }

     @Override
     protected boolean isDirty() {
       return lastBuildDirectDeps != null;
     }

     @Override
     public SkyValue getLastBuildValue() {
       return lastBuildValue;
     }

     @Override
     public GroupedList<SkyKey> getLastBuildDirectDeps() throws InterruptedException {
       return lastBuildDirectDeps;
     }

     @Override
     protected int getNumOfGroupsInLastBuildDirectDeps() {
       return lastBuildDirectDeps == null ? 0 : lastBuildDirectDeps.listSize();
     }

     @Override
     public int getNumElementsInLastBuildDirectDeps() {
       return lastBuildDirectDeps.numElements();
     }

     @Override
     protected MoreObjects.ToStringHelper getStringHelper() {
       return super.getStringHelper()
           .add("lastBuildDirectDeps", lastBuildDirectDeps)
           .add("lastBuildValue", lastBuildValue);
     }
   }
 }
	// Copyright 2016 The Bazel Authors. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	package com.google.devtools.build.skyframe;

	import com.google.common.base.MoreObjects;
	import com.google.common.base.Preconditions;
	import com.google.common.collect.ImmutableSet;
	import com.google.devtools.build.lib.util.GroupedList;
	import com.google.devtools.build.skyframe.NodeEntry.DirtyState;
	import com.google.devtools.build.skyframe.ThinNodeEntry.DirtyType;
	import java.util.List;
	import java.util.Set;
	import javax.annotation.Nullable;

	/**
	* State for a node that has been dirtied, and will be checked to see if it needs re-evaluation, and
	* either marked clean or re-evaluated.
	*
	* <p>This class is public only for the benefit of alternative graph implementations outside of the
	* package.
	*/
	public abstract class DirtyBuildingState {
	private static final int NOT_EVALUATING_SENTINEL = -1;

	static DirtyBuildingState create(
	DirtyType dirtyType, GroupedList<SkyKey> lastBuildDirectDeps, SkyValue lastBuildValue) {
	return new FullDirtyBuildingState(dirtyType, lastBuildDirectDeps, lastBuildValue);
	}

	static DirtyBuildingState createNew() {
	return new FullDirtyBuildingState(DirtyType.CHANGE, null, null);
	}

	/**
	* The state of a dirty node. A node is marked dirty in the DirtyBuildingState constructor, and
	* goes into either the state {@link DirtyState#CHECK_DEPENDENCIES} or {@link
	* DirtyState#NEEDS_REBUILDING}, depending on whether the caller specified that the node was
	* itself changed or not. Never null.
	*/
	private DirtyState dirtyState;

	/**
	* The number of dependencies that are known to be done in a {@link NodeEntry}.
	*
	* <p>There is a potential check-then-act race here during evaluation, so we need to make sure
	* that when this is increased, we always check if the new value is equal to the number of
	* required dependencies, and if so, we must re-schedule the node for evaluation.
	*
	* <p>There are two potential pitfalls here: 1) If multiple dependencies signal this node in close
	* succession, this node should be scheduled exactly once. 2) If a thread is still working on this
	* node, it should not be scheduled.
	*
	* <p>To solve the first problem, the {@link NodeEntry#signalDep} method also returns if the node
	* needs to be re-scheduled, and ensures that only one thread gets a true return value.
	*
	* <p>The second problem is solved by first adding the newly discovered deps to a node's {@link
	* InMemoryNodeEntry#directDeps}, and then looping through the direct deps and registering this
	* node as a reverse dependency. This ensures that the signaledDeps counter can only reach {@link
	* InMemoryNodeEntry#directDeps#numElements} on the very last iteration of the loop, i.e., the
	* thread is not working on the node anymore. Note that this requires that there is no code after
	* the loop in {@link ParallelEvaluator.Evaluate#run}.
	*/
	private int signaledDeps = NOT_EVALUATING_SENTINEL;

	/**
	* The number of external dependencies (in contrast to the number of internal dependencies which
	* are tracked in NodeEntry. We never keep information about external dependencies across Skyframe
	* calls.
	*/
	// We do not strictly require a counter here; all external deps from one SkyFunction evaluation
	// pass are registered as a single logical dependency, and the SkyFunction is only re-evaluated if
	// all of them complete. Therefore, we only need a single bit to track this fact. If the mere
	// existence of this field turns out to be a significant memory burden, we could change the
	// implementation by moving to a single-bit approach, and then store that bit as part of the
	// dirtyState field, e.g., by adding a REBUILDING_WAITING_FOR_EXTERNAL_DEPS enum value, as this
	// can only happen during evaluation.
	private int externalDeps;

	/**
	* The dependencies requested (with group markers) last time the node was built (and below, the
	* value last time the node was built). They will be compared to dependencies requested on this
	* build to check whether this node has changed in {@link NodeEntry#setValue}. If they are null,
	* it means that this node is being built for the first time. See {@link
	* InMemoryNodeEntry#directDeps} for more on dependency group storage.
	*
	* <p>Public only for the use of alternative graph implementations.
	*/
	@Nullable
	public abstract GroupedList<SkyKey> getLastBuildDirectDeps() throws InterruptedException;

	/**
	* The number of groups of the dependencies requested last time when the node was built.
	*
	* <p>Getting the number of last-built dependencies should not throw {@link InterruptedException}.
	*/
	protected abstract int getNumOfGroupsInLastBuildDirectDeps();

	/** The number of total dependencies requested the last time the node was built. */
	public abstract int getNumElementsInLastBuildDirectDeps();

	/**
	* The value of the node the last time it was built.
	*
	* <p>Public only for the use of alternative graph implementations.
	*/
	@Nullable
	public abstract SkyValue getLastBuildValue() throws InterruptedException;

	/**
	* Group of children to be checked next in the process of determining if this entry needs to be
	* re-evaluated. Used by {@link DirtyBuildingState#getNextDirtyDirectDeps} and {@link
	* #signalDepPostProcess}.
	*/
	protected int dirtyDirectDepIndex;

	protected DirtyBuildingState(DirtyType dirtyType) {
	dirtyState = dirtyType.getInitialDirtyState();
	// We need to iterate through the deps to see if they have changed, or to remove them if one
	// has. Initialize the iterating index.
	dirtyDirectDepIndex = 0;
	}

	/** Returns true if this state does have information about a previously built version. */
	protected abstract boolean isDirty();

	final void markChanged() {
	Preconditions.checkState(dirtyState == DirtyState.CHECK_DEPENDENCIES, this);
	Preconditions.checkState(dirtyDirectDepIndex == 0, "Unexpected evaluation: %s", this);
	dirtyState = DirtyState.NEEDS_REBUILDING;
	}

	final void markForceRebuild() {
	if (dirtyState == DirtyState.CHECK_DEPENDENCIES \|\| dirtyState == DirtyState.NEEDS_REBUILDING) {
	dirtyState = DirtyState.NEEDS_REBUILDING;
	}
	}

	final void forceRebuild(int numTemporaryDirectDeps) {
	Preconditions.checkState(numTemporaryDirectDeps + externalDeps == signaledDeps, this);
	Preconditions.checkState(
	(dirtyState == DirtyState.CHECK_DEPENDENCIES
	&& getNumOfGroupsInLastBuildDirectDeps() == dirtyDirectDepIndex)
	\|\| dirtyState == DirtyState.NEEDS_FORCED_REBUILDING,
	this);
	dirtyState = DirtyState.FORCED_REBUILDING;
	}

	final boolean isEvaluating() {
	return signaledDeps > NOT_EVALUATING_SENTINEL;
	}

	final boolean isChanged() {
	return dirtyState == DirtyState.NEEDS_REBUILDING
	\|\| dirtyState == DirtyState.NEEDS_FORCED_REBUILDING
	\|\| dirtyState == DirtyState.REBUILDING
	\|\| dirtyState == DirtyState.FORCED_REBUILDING;
	}

	private void checkFinishedBuildingWhenAboutToSetValue() {
	Preconditions.checkState(
	dirtyState == DirtyState.VERIFIED_CLEAN
	\|\| dirtyState == DirtyState.REBUILDING
	\|\| dirtyState == DirtyState.FORCED_REBUILDING,
	"not done building %s",
	this);
	}

	final void signalDep() {
	Preconditions.checkState(isEvaluating());
	signaledDeps++;
	}

	final void addExternalDep() {
	Preconditions.checkState(isEvaluating());
	externalDeps++;
	}

	/**
	* If this node is not yet known to need rebuilding, sets {@link #dirtyState} to {@link
	* DirtyState#NEEDS_REBUILDING} if the child has changed, and {@link DirtyState#VERIFIED_CLEAN} if
	* the child has not changed and this was the last child to be checked (as determined by {@code
	* isReady} and comparing {@link #dirtyDirectDepIndex} and {@link
	* DirtyBuildingState#getNumOfGroupsInLastBuildDirectDeps()}.
	*/
	final void signalDepPostProcess(boolean childChanged, int numTemporaryDirectDeps) {
	Preconditions.checkState(
	isChanged() \|\| (dirtyState == DirtyState.CHECK_DEPENDENCIES && dirtyDirectDepIndex > 0),
	"Unexpected not evaluating: %s",
	this);
	if (!isChanged()) {
	// Synchronization isn't needed here because the only caller is NodeEntry, which does it
	// through the synchronized method signalDep.
	if (childChanged) {
	dirtyState = DirtyState.NEEDS_REBUILDING;
	} else if (dirtyState == DirtyState.CHECK_DEPENDENCIES
	&& isReady(numTemporaryDirectDeps)
	&& getNumOfGroupsInLastBuildDirectDeps() == dirtyDirectDepIndex) {
	// No other dep already marked this as NEEDS_REBUILDING, no deps outstanding, and this was
	// the last block of deps to be checked.
	dirtyState = DirtyState.VERIFIED_CLEAN;
	}
	}
	}

	public final void unmarkNeedsRebuilding() {
	Preconditions.checkState(dirtyState == DirtyState.NEEDS_REBUILDING, this);
	if (getNumOfGroupsInLastBuildDirectDeps() == dirtyDirectDepIndex) {
	dirtyState = DirtyState.VERIFIED_CLEAN;
	} else {
	dirtyState = DirtyState.CHECK_DEPENDENCIES;
	}
	}

	/**
	* Returns true if {@code newValue}.equals the value from the last time this node was built.
	* Should only be used by {@link NodeEntry#setValue}.
	*
	* <p>Changes in direct deps do <i>not</i> force this to return false. Only the value is
	* considered.
	*/
	public final boolean unchangedFromLastBuild(SkyValue newValue) throws InterruptedException {
	checkFinishedBuildingWhenAboutToSetValue();
	return !(newValue instanceof NotComparableSkyValue)
	&& getLastBuildValue() != null
	&& getLastBuildValue().equals(newValue);
	}

	/**
	* Returns true if the deps requested during this evaluation ({@code directDeps}) are exactly
	* those requested the last time this node was built, in the same order.
	*/
	final boolean depsUnchangedFromLastBuild(GroupedList<SkyKey> directDeps)
	throws InterruptedException {
	checkFinishedBuildingWhenAboutToSetValue();
	return getLastBuildDirectDeps().equals(directDeps);
	}

	final boolean noDepsLastBuild() {
	return getNumOfGroupsInLastBuildDirectDeps() == 0;
	}

	/** @see NodeEntry#getDirtyState() */
	final DirtyState getDirtyState() {
	return dirtyState;
	}

	/**
	* Gets the next children to be re-evaluated to see if this dirty node needs to be re-evaluated.
	*
	* <p>See {@link NodeEntry#getNextDirtyDirectDeps}.
	*/
	final List<SkyKey> getNextDirtyDirectDeps() throws InterruptedException {
	Preconditions.checkState(dirtyState == DirtyState.CHECK_DEPENDENCIES, this);
	Preconditions.checkState(dirtyDirectDepIndex < getNumOfGroupsInLastBuildDirectDeps(), this);
	return getLastBuildDirectDeps().get(dirtyDirectDepIndex++);
	}

	/**
	* Returns the remaining direct deps that have not been checked. If {@code preservePosition} is
	* true, this method is non-mutating. If {@code preservePosition} is false, the caller must
	* process the returned set, and so subsequent calls to this method will return the empty set.
	*/
	Set<SkyKey> getAllRemainingDirtyDirectDeps(boolean preservePosition) throws InterruptedException {
	if (getLastBuildDirectDeps() == null) {
	return ImmutableSet.of();
	}
	ImmutableSet.Builder<SkyKey> result = ImmutableSet.builder();
	for (int ind = dirtyDirectDepIndex; ind < getNumOfGroupsInLastBuildDirectDeps(); ind++) {
	result.addAll(getLastBuildDirectDeps().get(ind));
	}
	if (!preservePosition) {
	dirtyDirectDepIndex = getNumOfGroupsInLastBuildDirectDeps();
	}
	return result.build();
	}

	final void resetForRestartFromScratch() {
	Preconditions.checkState(
	dirtyState == DirtyState.REBUILDING \|\| dirtyState == DirtyState.FORCED_REBUILDING, this);
	signaledDeps = 0;
	dirtyDirectDepIndex = 0;
	}

	protected void markRebuilding(boolean isEligibleForChangePruning) {
	Preconditions.checkState(dirtyState == DirtyState.NEEDS_REBUILDING, this);
	dirtyState = DirtyState.REBUILDING;
	}

	void startEvaluating() {
	Preconditions.checkState(!isEvaluating(), this);
	signaledDeps = 0;
	}

	public int getLastDirtyDirectDepIndex() {
	return dirtyDirectDepIndex - 1;
	}

	public int getSignaledDeps() {
	return signaledDeps;
	}

	/** Returns whether all known children of this node have signaled that they are done. */
	boolean isReady(int numDirectDeps) {
	Preconditions.checkState(
	signaledDeps <= numDirectDeps + externalDeps,
	"%s %s %s",
	numDirectDeps,
	externalDeps,
	this);
	return signaledDeps == numDirectDeps + externalDeps;
	}

	protected MoreObjects.ToStringHelper getStringHelper() {
	return MoreObjects.toStringHelper(this)
	.add("dirtyState", dirtyState)
	.add("signaledDeps", signaledDeps)
	.add("externalDeps", externalDeps)
	.add("dirtyDirectDepIndex", dirtyDirectDepIndex);
	}

	@Override
	public String toString() {
	return getStringHelper().toString();
	}

	private static class FullDirtyBuildingState extends DirtyBuildingState {
	private final GroupedList<SkyKey> lastBuildDirectDeps;
	private final SkyValue lastBuildValue;

	private FullDirtyBuildingState(
	DirtyType dirtyType, GroupedList<SkyKey> lastBuildDirectDeps, SkyValue lastBuildValue) {
	super(dirtyType);
	this.lastBuildDirectDeps = lastBuildDirectDeps;
	Preconditions.checkState(
	!dirtyType.equals(DirtyType.DIRTY) \|\| getNumOfGroupsInLastBuildDirectDeps() > 0,
	"%s is being marked dirty but has no children that could have dirtied it",
	this);
	this.lastBuildValue = lastBuildValue;
	}

	@Override
	protected boolean isDirty() {
	return lastBuildDirectDeps != null;
	}

	@Override
	public SkyValue getLastBuildValue() {
	return lastBuildValue;
	}

	@Override
	public GroupedList<SkyKey> getLastBuildDirectDeps() throws InterruptedException {
	return lastBuildDirectDeps;
	}

	@Override
	protected int getNumOfGroupsInLastBuildDirectDeps() {
	return lastBuildDirectDeps == null ? 0 : lastBuildDirectDeps.listSize();
	}

	@Override
	public int getNumElementsInLastBuildDirectDeps() {
	return lastBuildDirectDeps.numElements();
	}

	@Override
	protected MoreObjects.ToStringHelper getStringHelper() {
	return super.getStringHelper()
	.add("lastBuildDirectDeps", lastBuildDirectDeps)
	.add("lastBuildValue", lastBuildValue);
	}
	}
	}