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bazel / bazel / refs/heads/release-6.1.1 / . / src / main / java / com / google / devtools / build / skyframe / InMemoryNodeEntry.java
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// Copyright 2014 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 static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;
import com.google.common.base.MoreObjects;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import com.google.devtools.build.lib.util.GroupedList;
import com.google.devtools.build.skyframe.KeyToConsolidate.Op;
import com.google.errorprone.annotations.ForOverride;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Iterator;
import java.util.List;
import java.util.Set;
import javax.annotation.Nullable;
/**
* In-memory implementation of {@link NodeEntry}. All operations on this class are thread-safe.
*
* <p>Care was taken to provide certain compound operations to avoid certain check-then-act races.
* That means this class is somewhat closely tied to the exact Evaluator implementation.
*
* <p>Consider the example with two threads working on two nodes, where one depends on the other,
* say b depends on a. If a completes first, it's done. If it completes second, it needs to signal
* b, and potentially re-schedule it. If b completes first, it must exit, because it will be
* signaled (and re-scheduled) by a. If it completes second, it must signal (and re-schedule)
* itself. However, if the Evaluator supported re-entrancy for a node, then this wouldn't have to be
* so strict, because duplicate scheduling would be less problematic.
*
* <p>During its life, a node can go through states as follows:
*
* <ol>
* <li>Non-existent
* <li>Just created or marked as affected ({@link #isDone} is false; {@link #isDirty} is false)
* <li>Evaluating ({@link #isDone} is false; {@link #isDirty} is true)
* <li>Done ({@link #isDone} is true; {@link #isDirty} is false)
* </ol>
*
* <p>The "just created" state is there to allow the {@link ProcessableGraph#createIfAbsentBatch}
* and {@link NodeEntry#addReverseDepAndCheckIfDone} methods to be separate. All callers have to
* call both methods in that order if they want to create a node. The second method returns the
* NEEDS_SCHEDULING state only on the first time it was called. A caller that gets NEEDS_SCHEDULING
* back from that call must start the evaluation of this node, while any subsequent callers must
* not.
*
* <p>An entry is set to ALREADY_EVALUATING as soon as it is scheduled for evaluation. Thus, even a
* node that is never actually built (for instance, a dirty node that is verified as clean) is in
* the ALREADY_EVALUATING state until it is DONE.
*
* <p>From the DONE state, the node can go back to the "marked as affected" state.
*
* <p>This class is public only for the benefit of alternative graph implementations outside of the
* package.
*/
public class InMemoryNodeEntry implements NodeEntry {
/** Actual data stored in this entry when it is done. */
protected volatile SkyValue value = null;
/**
* The last version of the graph at which this node's value was changed. In {@link #setValue} it
* may be determined that the value being written to the graph at a given version is the same as
* the already-stored value. In that case, the version will remain the same. The version can be
* thought of as the latest timestamp at which this value was changed.
*/
protected volatile Version lastChangedVersion = MinimalVersion.INSTANCE;
/**
* Returns the last version this entry was evaluated at, even if it re-evaluated to the same
* value. When a child signals this entry with the last version it was changed at in {@link
* #signalDep}, this entry need not re-evaluate if the child's version is at most this version,
* even if the {@link #lastChangedVersion} is less than this one.
*
* @see #signalDep(Version, SkyKey)
*/
protected Version lastEvaluatedVersion = MinimalVersion.INSTANCE;
/**
* This object represents the direct deps of the node, in groups if the {@code SkyFunction}
* requested them that way. It contains either the in-progress direct deps, stored as a {@code
* GroupedList<SkyKey>} before the node is finished building, or the full direct deps, compressed
* in a memory-efficient way (via {@link GroupedList#compress}, after the node is done.
*
* <p>It is initialized lazily in getTemporaryDirectDeps() to save a little bit more memory.
*/
protected Object directDeps = null;
/**
* This list stores the reverse dependencies of this node that have been declared so far.
*
* <p>In case of a single object we store the object unwrapped, without the list, for
* memory-efficiency.
*
* <p>When an entry is being re-evaluated, this object stores the reverse deps from the previous
* evaluation. At the end of evaluation, the changed reverse dep operations from {@link
* #reverseDepsDataToConsolidate} are merged in here.
*/
protected Object reverseDeps = ImmutableList.of();
/**
* This list stores objects returned by {@link KeyToConsolidate#create}. Morally they are {@link
* KeyToConsolidate} objects, but since some operations are stored bare, we can only declare that
* this list holds {@link Object} references. Created lazily to save memory.
*
* <p>This list serves double duty. For a done node, when a reverse dep is removed, checked for
* presence, or possibly added, we store the mutation in this object instead of immediately doing
* the operation. That is because removals/checks in reverseDeps are O(N). Originally reverseDeps
* was a HashSet, but because of memory consumption we switched to a list.
*
* <p>Internally, {@link ReverseDepsUtility} consolidates this data periodically, and when the set
* of reverse deps is requested. While this operation is not free, it can be done more effectively
* than trying to remove/check each dirty reverse dependency individually (O(N) each time).
*
* <p>When the node entry is evaluating, this list serves to declare the reverse dep operations
* that have taken place on it during this evaluation. When evaluation finishes, this list will be
* merged into the existing reverse deps if any, but furthermore, this list will also be used to
* calculate the set of reverse deps to signal when this entry finishes evaluation. That is done
* by {@link ReverseDepsUtility#consolidateDataAndReturnNewElements}.
*/
private List<Object> reverseDepsDataToConsolidate = null;
/**
* Object encapsulating dirty state of the object between when it is marked dirty and
* re-evaluated.
*/
@Nullable protected volatile DirtyBuildingState dirtyBuildingState = null;
/** Construct a InMemoryNodeEntry. Use ONLY in Skyframe evaluation and graph implementations. */
public InMemoryNodeEntry() {}
/** Whether this node stores edges (deps and rdeps). */
boolean keepsEdges() {
return true;
}
private boolean isEvaluating() {
return dirtyBuildingState != null;
}
@Override
public boolean isDone() {
return value != null && dirtyBuildingState == null;
}
@Override
public synchronized boolean isReady() {
checkState(!isDone(), "can't be ready if done: %s", this);
checkState(isEvaluating(), this);
return dirtyBuildingState.isReady(getNumTemporaryDirectDeps());
}
@Override
public synchronized boolean isDirty() {
return !isDone() && dirtyBuildingState != null;
}
@Override
public synchronized boolean isChanged() {
return !isDone() && dirtyBuildingState != null && dirtyBuildingState.isChanged();
}
@Override
public SkyValue getValue() {
checkState(isDone(), "no value until done. ValueEntry: %s", this);
return ValueWithMetadata.justValue(value);
}
@Override
@Nullable
public SkyValue getValueMaybeWithMetadata() {
return value;
}
@Nullable
@Override
public SkyValue toValue() {
if (isDone()) {
return getErrorInfo() == null ? getValue() : null;
} else if (isChanged() || isDirty()) {
SkyValue lastBuildValue;
try {
lastBuildValue = dirtyBuildingState.getLastBuildValue();
} catch (InterruptedException e) {
throw new IllegalStateException("Interruption unexpected: " + this, e);
}
return ValueWithMetadata.justValue(lastBuildValue);
} else {
// Value has not finished evaluating. It's probably about to be cleaned from the graph.
return null;
}
}
@Override
public Iterable<SkyKey> getDirectDeps() {
return GroupedList.compressedToIterable(getCompressedDirectDepsForDoneEntry());
}
@Override
public boolean hasAtLeastOneDep() {
return GroupedList.numGroups(getCompressedDirectDepsForDoneEntry()) > 0;
}
/** Returns the compressed {@link GroupedList} of direct deps. Can only be called when done. */
public final synchronized @GroupedList.Compressed Object getCompressedDirectDepsForDoneEntry() {
assertKeepEdges();
checkState(isDone(), "no deps until done. NodeEntry: %s", this);
checkNotNull(directDeps, "deps can't be null: %s", this);
return GroupedList.castAsCompressed(directDeps);
}
public int getNumDirectDeps() {
return GroupedList.numElements(getCompressedDirectDepsForDoneEntry());
}
@Override
@Nullable
public synchronized ErrorInfo getErrorInfo() {
checkState(isDone(), "no errors until done. NodeEntry: %s", this);
return ValueWithMetadata.getMaybeErrorInfo(value);
}
/**
* Puts entry in "done" state, as checked by {@link #isDone}. Subclasses that override one may
* need to override the other.
*/
protected void markDone() {
dirtyBuildingState = null;
}
@Override
public synchronized void addExternalDep() {
checkNotNull(dirtyBuildingState, this);
dirtyBuildingState.addExternalDep();
}
protected final synchronized Set<SkyKey> setStateFinishedAndReturnReverseDepsToSignal() {
Set<SkyKey> reverseDepsToSignal = ReverseDepsUtility.consolidateDataAndReturnNewElements(this);
directDeps = keepsEdges() ? getTemporaryDirectDeps().compress() : null;
markDone();
return reverseDepsToSignal;
}
@Override
public synchronized Set<SkyKey> getInProgressReverseDeps() {
checkState(!isDone(), this);
return ReverseDepsUtility.returnNewElements(this);
}
/**
* {@inheritDoc}
*
* <p>In this method it is crucial that {@link #lastChangedVersion} is set prior to {@link #value}
* because although this method itself is synchronized, there are unsynchronized consumers of the
* version and the value.
*/
@Override
public synchronized Set<SkyKey> setValue(
SkyValue value, Version graphVersion, @Nullable Version maxTransitiveSourceVersion)
throws InterruptedException {
checkState(isReady(), "Not ready (this=%s, value=%s)", this, value);
checkState(
this.lastChangedVersion.atMost(graphVersion)
&& this.lastEvaluatedVersion.atMost(graphVersion),
"Bad version (this=%s, version=%s, value=%s)",
this,
graphVersion,
value);
this.lastEvaluatedVersion = graphVersion;
if (dirtyBuildingState.unchangedFromLastBuild(value)) {
// If the value is the same as before, just use the old value. Note that we don't use the new
// value, because preserving == equality is even better than .equals() equality.
this.value = dirtyBuildingState.getLastBuildValue();
} else {
// If this is a new value, or it has changed since the last build, set the version to the
// current graph version.
this.lastChangedVersion = graphVersion;
this.value = value;
}
return setStateFinishedAndReturnReverseDepsToSignal();
}
@Override
public DependencyState addReverseDepAndCheckIfDone(SkyKey reverseDep) {
if ((reverseDep == null || !keepsEdges()) && isDone()) {
return DependencyState.DONE;
}
synchronized (this) {
boolean done = isDone();
if (!done && dirtyBuildingState == null) {
dirtyBuildingState = DirtyBuildingState.createNew();
}
if (reverseDep != null) {
if (done) {
if (keepsEdges()) {
ReverseDepsUtility.addReverseDep(this, reverseDep);
}
} else {
appendToReverseDepOperations(reverseDep, Op.ADD);
}
}
if (done) {
return DependencyState.DONE;
}
boolean wasEvaluating = dirtyBuildingState.isEvaluating();
if (!wasEvaluating) {
dirtyBuildingState.startEvaluating();
}
return wasEvaluating ? DependencyState.ALREADY_EVALUATING : DependencyState.NEEDS_SCHEDULING;
}
}
/** Sets {@link #reverseDeps}. Does not alter {@link #reverseDepsDataToConsolidate}. */
synchronized void setSingleReverseDepForReverseDepsUtil(SkyKey reverseDep) {
this.reverseDeps = reverseDep;
}
/** Sets {@link #reverseDeps}. Does not alter {@link #reverseDepsDataToConsolidate}. */
synchronized void setReverseDepsForReverseDepsUtil(List<SkyKey> reverseDeps) {
this.reverseDeps = reverseDeps;
}
/** Sets {@link #reverseDepsDataToConsolidate}. Does not alter {@link #reverseDeps}. */
synchronized void setReverseDepsDataToConsolidateForReverseDepsUtil(
List<Object> dataToConsolidate) {
this.reverseDepsDataToConsolidate = dataToConsolidate;
}
synchronized Object getReverseDepsRawForReverseDepsUtil() {
return this.reverseDeps;
}
synchronized List<Object> getReverseDepsDataToConsolidateForReverseDepsUtil() {
return this.reverseDepsDataToConsolidate;
}
private synchronized void appendToReverseDepOperations(SkyKey reverseDep, Op op) {
checkState(!isDone(), "Don't append to done %s %s %s", this, reverseDep, op);
if (reverseDepsDataToConsolidate == null) {
reverseDepsDataToConsolidate = new ArrayList<>();
}
checkState(isDirty() || op != Op.CHECK, "Not dirty check %s %s", this, reverseDep);
reverseDepsDataToConsolidate.add(KeyToConsolidate.create(reverseDep, op, this));
}
@Override
public synchronized DependencyState checkIfDoneForDirtyReverseDep(SkyKey reverseDep) {
checkNotNull(reverseDep, this);
checkState(keepsEdges(), "Incremental means keeping edges %s %s", reverseDep, this);
if (isDone()) {
ReverseDepsUtility.checkReverseDep(this, reverseDep);
} else {
appendToReverseDepOperations(reverseDep, Op.CHECK);
}
return addReverseDepAndCheckIfDone(null);
}
@Override
public synchronized void removeReverseDep(SkyKey reverseDep) {
if (!keepsEdges()) {
return;
}
if (isDone()) {
ReverseDepsUtility.removeReverseDep(this, reverseDep);
} else {
// Removing a reverse dep from an in-flight node is rare -- it should only happen when this
// node is about to be cleaned from the graph.
appendToReverseDepOperations(reverseDep, Op.REMOVE_OLD);
}
}
@Override
public synchronized void removeReverseDepsFromDoneEntryDueToDeletion(Set<SkyKey> deletedKeys) {
assertKeepEdges();
checkState(isDone(), this);
ReverseDepsUtility.removeReverseDepsMatching(this, deletedKeys);
}
@Override
public synchronized void removeInProgressReverseDep(SkyKey reverseDep) {
appendToReverseDepOperations(reverseDep, Op.REMOVE);
}
@Override
public synchronized Collection<SkyKey> getReverseDepsForDoneEntry() {
assertKeepEdges();
checkState(isDone(), "Called on not done %s", this);
return ReverseDepsUtility.getReverseDeps(this, /*checkConsistency=*/ true);
}
@Override
public synchronized Collection<SkyKey> getAllReverseDepsForNodeBeingDeleted() {
assertKeepEdges();
if (!isDone()) {
// This consolidation loses information about pending reverse deps to signal, but that is
// unimportant since this node is being deleted.
ReverseDepsUtility.consolidateDataAndReturnNewElements(this);
}
return ReverseDepsUtility.getReverseDeps(this, /*checkConsistency=*/ false);
}
@Override
public synchronized boolean signalDep(Version childVersion, @Nullable SkyKey childForDebugging) {
checkState(
!isDone(), "Value must not be done in signalDep %s child=%s", this, childForDebugging);
checkNotNull(dirtyBuildingState, "%s %s", this, childForDebugging);
checkState(dirtyBuildingState.isEvaluating(), "%s %s", this, childForDebugging);
dirtyBuildingState.signalDep();
// childVersion > lastEvaluatedVersion means the child has changed since the last evaluation.
boolean childChanged = !childVersion.atMost(lastEvaluatedVersion);
dirtyBuildingState.signalDepPostProcess(childChanged, getNumTemporaryDirectDeps());
return isReady();
}
/** Checks that a caller is not trying to access not-stored graph edges. */
private void assertKeepEdges() {
checkState(keepsEdges(), "Not keeping edges: %s", this);
}
/**
* Creates a {@link DirtyBuildingState} for the case where this node is done and is being marked
* dirty.
*/
@ForOverride
protected DirtyBuildingState createDirtyBuildingStateForDoneNode(
DirtyType dirtyType, GroupedList<SkyKey> directDeps, SkyValue value) {
return DirtyBuildingState.create(dirtyType, directDeps, value);
}
private static final GroupedList<SkyKey> EMPTY_LIST = new GroupedList<>();
@Nullable
@Override
public synchronized MarkedDirtyResult markDirty(DirtyType dirtyType) {
if (!DirtyType.FORCE_REBUILD.equals(dirtyType)) {
// A node can't be found to be dirty without deps unless it's force-rebuilt.
assertKeepEdges();
}
if (isDone()) {
GroupedList<SkyKey> directDeps =
keepsEdges() ? GroupedList.create(getCompressedDirectDepsForDoneEntry()) : EMPTY_LIST;
dirtyBuildingState = createDirtyBuildingStateForDoneNode(dirtyType, directDeps, value);
value = null;
this.directDeps = null;
return new MarkedDirtyResult(
keepsEdges()
? ReverseDepsUtility.getReverseDeps(this, /*checkConsistency=*/ true)
: ImmutableList.of());
}
if (dirtyType.equals(DirtyType.FORCE_REBUILD)) {
if (dirtyBuildingState != null) {
dirtyBuildingState.markForceRebuild();
}
return null;
}
// The caller may be simultaneously trying to mark this node dirty and changed, and the dirty
// thread may have lost the race, but it is the caller's responsibility not to try to mark
// this node changed twice. The end result of racing markers must be a changed node, since one
// of the markers is trying to mark the node changed.
checkState(
dirtyType.equals(DirtyType.CHANGE) != isChanged(),
"Cannot mark node dirty twice or changed twice: %s",
this);
checkState(value == null, "Value should have been reset already %s", this);
if (dirtyType.equals(DirtyType.CHANGE)) {
checkNotNull(dirtyBuildingState, this);
// If the changed marker lost the race, we just need to mark changed in this method -- all
// other work was done by the dirty marker.
dirtyBuildingState.markChanged();
}
return null;
}
@Override
public synchronized NodeValueAndRdepsToSignal markClean() throws InterruptedException {
checkNotNull(dirtyBuildingState, this);
this.value = checkNotNull(dirtyBuildingState.getLastBuildValue());
checkState(isReady(), "Should be ready when clean: %s", this);
checkState(
dirtyBuildingState.depsUnchangedFromLastBuild(getTemporaryDirectDeps()),
"Direct deps must be the same as those found last build for node to be marked clean: %s",
this);
checkState(isDirty(), this);
checkState(!dirtyBuildingState.isChanged(), "shouldn't be changed: %s", this);
Set<SkyKey> rDepsToSignal = setStateFinishedAndReturnReverseDepsToSignal();
return new NodeValueAndRdepsToSignal(this.value, rDepsToSignal);
}
@Override
public synchronized void forceRebuild() {
checkNotNull(dirtyBuildingState, this);
checkState(isEvaluating(), this);
dirtyBuildingState.forceRebuild(getNumTemporaryDirectDeps());
}
@Override
public Version getVersion() {
return lastChangedVersion;
}
@Override
public synchronized NodeEntry.DirtyState getDirtyState() {
checkNotNull(dirtyBuildingState, this);
return dirtyBuildingState.getDirtyState();
}
/**
* @see DirtyBuildingState#getNextDirtyDirectDeps()
*/
@Override
public synchronized ImmutableList<SkyKey> getNextDirtyDirectDeps() throws InterruptedException {
checkState(isReady(), this);
checkNotNull(dirtyBuildingState, this);
checkState(dirtyBuildingState.isEvaluating(), "Not evaluating during getNextDirty? %s", this);
return dirtyBuildingState.getNextDirtyDirectDeps();
}
@Override
public synchronized Iterable<SkyKey> getAllDirectDepsForIncompleteNode()
throws InterruptedException {
checkState(!isDone(), this);
if (!isDirty()) {
return getTemporaryDirectDeps().getAllElementsAsIterable();
} else {
// There may be duplicates here. Make sure everything is unique.
ImmutableSet.Builder<SkyKey> result = ImmutableSet.builder();
for (Iterable<SkyKey> group : getTemporaryDirectDeps()) {
result.addAll(group);
}
result.addAll(dirtyBuildingState.getAllRemainingDirtyDirectDeps(/*preservePosition=*/ false));
return result.build();
}
}
@Override
public synchronized ImmutableSet<SkyKey> getAllRemainingDirtyDirectDeps()
throws InterruptedException {
checkNotNull(dirtyBuildingState, this);
checkState(dirtyBuildingState.isEvaluating(), "Not evaluating for remaining dirty? %s", this);
if (isDirty()) {
DirtyState dirtyState = dirtyBuildingState.getDirtyState();
checkState(
dirtyState == DirtyState.REBUILDING || dirtyState == DirtyState.FORCED_REBUILDING, this);
return dirtyBuildingState.getAllRemainingDirtyDirectDeps(/*preservePosition=*/ true);
} else {
return ImmutableSet.of();
}
}
@Override
public synchronized void markRebuilding() {
checkNotNull(dirtyBuildingState, this).markRebuilding();
}
@SuppressWarnings("unchecked")
@Override
public synchronized GroupedList<SkyKey> getTemporaryDirectDeps() {
checkState(!isDone(), "temporary shouldn't be done: %s", this);
if (directDeps == null) {
// Initialize lazily, to save a little bit of memory.
directDeps = new GroupedList<>();
}
return (GroupedList<SkyKey>) directDeps;
}
private synchronized int getNumTemporaryDirectDeps() {
return directDeps == null ? 0 : getTemporaryDirectDeps().numElements();
}
@Override
public synchronized boolean noDepsLastBuild() {
checkState(isEvaluating(), this);
return dirtyBuildingState.noDepsLastBuild();
}
/**
* {@inheritDoc}
*
* <p>This is complicated by the need to maintain the group data. If we remove a dep that ended a
* group, then its predecessor's group data must be changed to indicate that it now ends the
* group.
*/
@Override
public synchronized void removeUnfinishedDeps(Set<SkyKey> unfinishedDeps) {
getTemporaryDirectDeps().remove(unfinishedDeps);
}
@Override
public synchronized void resetForRestartFromScratch() {
checkState(isReady(), this);
directDeps = null;
dirtyBuildingState.resetForRestartFromScratch();
}
@Override
public synchronized void addSingletonTemporaryDirectDep(SkyKey dep) {
getTemporaryDirectDeps().appendSingleton(dep);
}
@Override
public synchronized void addTemporaryDirectDepGroup(ImmutableList<SkyKey> group) {
getTemporaryDirectDeps().appendGroup(group);
}
@Override
public void addTemporaryDirectDepsInGroups(Set<SkyKey> deps, List<Integer> groupSizes) {
if (groupSizes.isEmpty()) {
checkGroupSizes(deps.isEmpty(), deps, groupSizes);
return;
}
if (groupSizes.size() == 1) {
int onlyGroupSize = groupSizes.get(0);
checkGroupSizes(deps.size() == onlyGroupSize, deps, groupSizes);
if (onlyGroupSize == 1) {
addSingletonTemporaryDirectDep(Iterables.getOnlyElement(deps));
} else {
addTemporaryDirectDepGroup(ImmutableList.copyOf(deps));
}
return;
}
GroupedList<SkyKey> temporaryDirectDeps = getTemporaryDirectDeps();
Iterator<SkyKey> it = deps.iterator();
synchronized (this) {
temporaryDirectDeps.ensureCapacityForAdditionalGroups(groupSizes.size());
for (int groupSize : groupSizes) {
if (groupSize == 0) {
continue;
}
if (groupSize == 1) {
temporaryDirectDeps.appendSingleton(it.next());
} else {
ImmutableList.Builder<SkyKey> group = ImmutableList.builderWithExpectedSize(groupSize);
for (int i = 0; i < groupSize; i++) {
group.add(it.next());
}
temporaryDirectDeps.appendGroup(group.build());
}
}
}
checkGroupSizes(!it.hasNext(), deps, groupSizes);
}
private static void checkGroupSizes(
boolean condition, Set<SkyKey> deps, List<Integer> groupSizes) {
checkArgument(
condition, "size(deps) != sum(groupSizes) (deps=%s, groupSizes=%s)", deps, groupSizes);
}
protected synchronized MoreObjects.ToStringHelper toStringHelper() {
return MoreObjects.toStringHelper(this)
.add("identity", System.identityHashCode(this))
.add("value", value)
.add("lastChangedVersion", lastChangedVersion)
.add("lastEvaluatedVersion", lastEvaluatedVersion)
.add(
"directDeps",
isDone() && keepsEdges()
? GroupedList.create(getCompressedDirectDepsForDoneEntry())
: directDeps)
.add("reverseDeps", ReverseDepsUtility.toString(this))
.add("dirtyBuildingState", dirtyBuildingState);
}
@Override
public final synchronized String toString() {
return toStringHelper().toString();
}
// Only used for testing hooks.
protected synchronized InMemoryNodeEntry cloneNodeEntry(InMemoryNodeEntry newEntry) {
checkState(isDone(), "Only done nodes can be copied: %s", this);
newEntry.value = value;
newEntry.lastChangedVersion = this.lastChangedVersion;
newEntry.lastEvaluatedVersion = this.lastEvaluatedVersion;
for (SkyKey reverseDep : ReverseDepsUtility.getReverseDeps(this, /*checkConsistency=*/ true)) {
ReverseDepsUtility.addReverseDep(newEntry, reverseDep);
}
newEntry.directDeps = directDeps;
newEntry.dirtyBuildingState = null;
return newEntry;
}
/**
* Do not use except in custom evaluator implementations! Added only temporarily.
*
* <p>Clones a InMemoryMutableNodeEntry iff it is a done node. Otherwise it fails.
*/
public synchronized InMemoryNodeEntry cloneNodeEntry() {
return cloneNodeEntry(new InMemoryNodeEntry());
}
}