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com.signalfx.shaded.google.common.collect.RegularImmutableMap Maven / Gradle / Ivy
/*
* Copyright (C) 2008 The Guava Authors
*
* 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.signalfx.shaded.google.common.collect;
import static com.signalfx.shaded.google.common.base.Preconditions.checkNotNull;
import static com.signalfx.shaded.google.common.base.Preconditions.checkPositionIndex;
import static com.signalfx.shaded.google.common.collect.CollectPreconditions.checkEntryNotNull;
import static com.signalfx.shaded.google.common.collect.ImmutableMapEntry.createEntryArray;
import static java.util.Objects.requireNonNull;
import com.signalfx.shaded.google.common.annotations.GwtCompatible;
import com.signalfx.shaded.google.common.annotations.GwtIncompatible;
import com.signalfx.shaded.google.common.annotations.J2ktIncompatible;
import com.signalfx.shaded.google.common.annotations.VisibleForTesting;
import com.signalfx.shaded.google.common.collect.ImmutableMapEntry.NonTerminalImmutableMapEntry;
import com.signalfx.shaded.google.errorprone.annotations.CanIgnoreReturnValue;
import java.io.Serializable;
import java.util.IdentityHashMap;
import java.util.function.BiConsumer;
import com.signalfx.shaded.javax.annotation.CheckForNull;
import com.signalfx.shaded.checkerframework.checker.nullness.qual.Nullable;
/**
* Implementation of {@link ImmutableMap} used for 0 entries and for 2+ entries. Additional
* implementations exist for particular cases, like {@link ImmutableTable} views and hash flooding.
* (This doc discusses {@link ImmutableMap} subclasses only for the JRE flavor; the Android flavor
* differs.)
*
* @author Jesse Wilson
* @author Kevin Bourrillion
* @author Gregory Kick
*/
@GwtCompatible(serializable = true, emulated = true)
@ElementTypesAreNonnullByDefault
final class RegularImmutableMap extends ImmutableMap {
@SuppressWarnings("unchecked")
static final ImmutableMap EMPTY =
new RegularImmutableMap<>((Entry[]) ImmutableMap.EMPTY_ENTRY_ARRAY, null, 0);
/**
* Closed addressing tends to perform well even with high load factors. Being conservative here
* ensures that the table is still likely to be relatively sparse (hence it misses fast) while
* saving space.
*/
@VisibleForTesting static final double MAX_LOAD_FACTOR = 1.2;
/**
* Maximum allowed false positive probability of detecting a hash flooding attack given random
* input.
*/
@VisibleForTesting static final double HASH_FLOODING_FPP = 0.001;
/**
* Maximum allowed length of a hash table bucket before falling back to a j.u.HashMap based
* implementation. Experimentally determined.
*/
static final int MAX_HASH_BUCKET_LENGTH = 8;
// entries in insertion order
@VisibleForTesting final transient Entry[] entries;
// array of linked lists of entries
@CheckForNull private final transient @Nullable ImmutableMapEntry[] table;
// 'and' with an int to get a table index
private final transient int mask;
static ImmutableMap fromEntries(Entry... entries) {
return fromEntryArray(entries.length, entries, /* throwIfDuplicateKeys= */ true);
}
/**
* Creates an ImmutableMap from the first n entries in entryArray. This implementation may replace
* the entries in entryArray with its own entry objects (though they will have the same key/value
* contents), and may take ownership of entryArray.
*/
static ImmutableMap fromEntryArray(
int n, @Nullable Entry[] entryArray, boolean throwIfDuplicateKeys) {
checkPositionIndex(n, entryArray.length);
if (n == 0) {
@SuppressWarnings("unchecked") // it has no entries so the type variables don't matter
ImmutableMap empty = (ImmutableMap) EMPTY;
return empty;
}
try {
return fromEntryArrayCheckingBucketOverflow(n, entryArray, throwIfDuplicateKeys);
} catch (BucketOverflowException e) {
// probable hash flooding attack, fall back to j.u.HM based implementation and use its
// implementation of hash flooding protection
return JdkBackedImmutableMap.create(n, entryArray, throwIfDuplicateKeys);
}
}
private static ImmutableMap fromEntryArrayCheckingBucketOverflow(
int n, @Nullable Entry[] entryArray, boolean throwIfDuplicateKeys)
throws BucketOverflowException {
/*
* The cast is safe: n==entryArray.length means that we have filled the whole array with Entry
* instances, in which case it is safe to cast it from an array of nullable entries to an array
* of non-null entries.
*/
@SuppressWarnings("nullness")
Entry[] entries =
(n == entryArray.length) ? (Entry[]) entryArray : createEntryArray(n);
int tableSize = Hashing.closedTableSize(n, MAX_LOAD_FACTOR);
@Nullable ImmutableMapEntry[] table = createEntryArray(tableSize);
int mask = tableSize - 1;
// If duplicates are allowed, this IdentityHashMap will record the final Entry for each
// duplicated key. We will use this final Entry to overwrite earlier slots in the entries array
// that have the same key. Then a second pass will remove all but the first of the slots that
// have this Entry. The value in the map becomes false when this first entry has been copied, so
// we know not to copy the remaining ones.
IdentityHashMap, Boolean> duplicates = null;
int dupCount = 0;
for (int entryIndex = n - 1; entryIndex >= 0; entryIndex--) {
// requireNonNull is safe because the first `n` elements have been filled in.
Entry entry = requireNonNull(entryArray[entryIndex]);
K key = entry.getKey();
V value = entry.getValue();
checkEntryNotNull(key, value);
int tableIndex = Hashing.smear(key.hashCode()) & mask;
ImmutableMapEntry keyBucketHead = table[tableIndex];
ImmutableMapEntry effectiveEntry =
checkNoConflictInKeyBucket(key, value, keyBucketHead, throwIfDuplicateKeys);
if (effectiveEntry == null) {
// prepend, not append, so the entries can be immutable
effectiveEntry =
(keyBucketHead == null)
? makeImmutable(entry, key, value)
: new NonTerminalImmutableMapEntry(key, value, keyBucketHead);
table[tableIndex] = effectiveEntry;
} else {
// We already saw this key, and the first value we saw (going backwards) is the one we are
// keeping. So we won't touch table[], but we do still want to add the existing entry that
// we found to entries[] so that we will see this key in the right place when iterating.
if (duplicates == null) {
duplicates = new IdentityHashMap<>();
}
duplicates.put(effectiveEntry, true);
dupCount++;
// Make sure we are not overwriting the original entries array, in case we later do
// buildOrThrow(). We would want an exception to include two values for the duplicate key.
if (entries == entryArray) {
// Temporary variable is necessary to defeat bad smartcast (entries adopting the type of
// entryArray) in the Kotlin translation.
Entry[] originalEntries = entries;
entries = originalEntries.clone();
}
}
entries[entryIndex] = effectiveEntry;
}
if (duplicates != null) {
// Explicit type parameters needed here to avoid a problem with nullness inference.
entries = RegularImmutableMap.removeDuplicates(entries, n, n - dupCount, duplicates);
int newTableSize = Hashing.closedTableSize(entries.length, MAX_LOAD_FACTOR);
if (newTableSize != tableSize) {
return fromEntryArrayCheckingBucketOverflow(
entries.length, entries, /* throwIfDuplicateKeys= */ true);
}
}
return new RegularImmutableMap<>(entries, table, mask);
}
/**
* Constructs a new entry array where each duplicated key from the original appears only once, at
* its first position but with its final value. The {@code duplicates} map is modified.
*
* @param entries the original array of entries including duplicates
* @param n the number of valid entries in {@code entries}
* @param newN the expected number of entries once duplicates are removed
* @param duplicates a map of canonical {@link Entry} objects for each duplicate key. This map
* will be updated by the method, setting each value to false as soon as the {@link Entry} has
* been included in the new entry array.
* @return an array of {@code newN} entries where no key appears more than once.
*/
static Entry[] removeDuplicates(
Entry[] entries, int n, int newN, IdentityHashMap, Boolean> duplicates) {
Entry[] newEntries = createEntryArray(newN);
for (int in = 0, out = 0; in < n; in++) {
Entry entry = entries[in];
Boolean status = duplicates.get(entry);
// null=>not dup'd; true=>dup'd, first; false=>dup'd, not first
if (status != null) {
if (status) {
duplicates.put(entry, false);
} else {
continue; // delete this entry; we already copied an earlier one for the same key
}
}
newEntries[out++] = entry;
}
return newEntries;
}
/** Makes an entry usable internally by a new ImmutableMap without rereading its contents. */
static ImmutableMapEntry makeImmutable(Entry entry, K key, V value) {
boolean reusable =
entry instanceof ImmutableMapEntry && ((ImmutableMapEntry) entry).isReusable();
return reusable ? (ImmutableMapEntry) entry : new ImmutableMapEntry(key, value);
}
/** Makes an entry usable internally by a new ImmutableMap. */
static ImmutableMapEntry makeImmutable(Entry entry) {
return makeImmutable(entry, entry.getKey(), entry.getValue());
}
private RegularImmutableMap(
Entry[] entries, @CheckForNull @Nullable ImmutableMapEntry[] table, int mask) {
this.entries = entries;
this.table = table;
this.mask = mask;
}
/**
* Checks if the given key already appears in the hash chain starting at {@code keyBucketHead}. If
* it does not, then null is returned. If it does, then if {@code throwIfDuplicateKeys} is true an
* {@code IllegalArgumentException} is thrown, and otherwise the existing {@link Entry} is
* returned.
*
* @throws IllegalArgumentException if another entry in the bucket has the same key and {@code
* throwIfDuplicateKeys} is true
* @throws BucketOverflowException if this bucket has too many entries, which may indicate a hash
* flooding attack
*/
@CanIgnoreReturnValue
@CheckForNull
static ImmutableMapEntry checkNoConflictInKeyBucket(
Object key,
Object newValue,
@CheckForNull ImmutableMapEntry keyBucketHead,
boolean throwIfDuplicateKeys)
throws BucketOverflowException {
int bucketSize = 0;
for (; keyBucketHead != null; keyBucketHead = keyBucketHead.getNextInKeyBucket()) {
if (keyBucketHead.getKey().equals(key)) {
if (throwIfDuplicateKeys) {
checkNoConflict(/* safe= */ false, "key", keyBucketHead, key + "=" + newValue);
} else {
return keyBucketHead;
}
}
if (++bucketSize > MAX_HASH_BUCKET_LENGTH) {
throw new BucketOverflowException();
}
}
return null;
}
static class BucketOverflowException extends Exception {}
@Override
@CheckForNull
public V get(@CheckForNull Object key) {
return get(key, table, mask);
}
@CheckForNull
static V get(
@CheckForNull Object key,
@CheckForNull @Nullable ImmutableMapEntry, V>[] keyTable,
int mask) {
if (key == null || keyTable == null) {
return null;
}
int index = Hashing.smear(key.hashCode()) & mask;
for (ImmutableMapEntry, V> entry = keyTable[index];
entry != null;
entry = entry.getNextInKeyBucket()) {
Object candidateKey = entry.getKey();
/*
* Assume that equals uses the == optimization when appropriate, and that
* it would check hash codes as an optimization when appropriate. If we
* did these things, it would just make things worse for the most
* performance-conscious users.
*/
if (key.equals(candidateKey)) {
return entry.getValue();
}
}
return null;
}
@Override
public void forEach(BiConsumer super K, ? super V> action) {
checkNotNull(action);
for (Entry entry : entries) {
action.accept(entry.getKey(), entry.getValue());
}
}
@Override
public int size() {
return entries.length;
}
@Override
boolean isPartialView() {
return false;
}
@Override
ImmutableSet> createEntrySet() {
return new ImmutableMapEntrySet.RegularEntrySet<>(this, entries);
}
@Override
ImmutableSet createKeySet() {
return new KeySet<>(this);
}
@GwtCompatible(emulated = true)
private static final class KeySet extends IndexedImmutableSet {
private final RegularImmutableMap map;
KeySet(RegularImmutableMap map) {
this.map = map;
}
@Override
K get(int index) {
return map.entries[index].getKey();
}
@Override
public boolean contains(@CheckForNull Object object) {
return map.containsKey(object);
}
@Override
boolean isPartialView() {
return true;
}
@Override
public int size() {
return map.size();
}
// redeclare to help optimizers with b/310253115
@SuppressWarnings("RedundantOverride")
@Override
@J2ktIncompatible // serialization
@GwtIncompatible // serialization
Object writeReplace() {
return super.writeReplace();
}
// No longer used for new writes, but kept so that old data can still be read.
@GwtIncompatible // serialization
@J2ktIncompatible
@SuppressWarnings("unused")
private static class SerializedForm implements Serializable {
final ImmutableMap map;
SerializedForm(ImmutableMap map) {
this.map = map;
}
Object readResolve() {
return map.keySet();
}
@J2ktIncompatible // serialization
private static final long serialVersionUID = 0;
}
}
@Override
ImmutableCollection createValues() {
return new Values<>(this);
}
@GwtCompatible(emulated = true)
private static final class Values extends ImmutableList {
final RegularImmutableMap map;
Values(RegularImmutableMap map) {
this.map = map;
}
@Override
public V get(int index) {
return map.entries[index].getValue();
}
@Override
public int size() {
return map.size();
}
@Override
boolean isPartialView() {
return true;
}
// redeclare to help optimizers with b/310253115
@SuppressWarnings("RedundantOverride")
@Override
@J2ktIncompatible // serialization
@GwtIncompatible // serialization
Object writeReplace() {
return super.writeReplace();
}
// No longer used for new writes, but kept so that old data can still be read.
@GwtIncompatible // serialization
@J2ktIncompatible
@SuppressWarnings("unused")
private static class SerializedForm implements Serializable {
final ImmutableMap, V> map;
SerializedForm(ImmutableMap, V> map) {
this.map = map;
}
Object readResolve() {
return map.values();
}
@J2ktIncompatible // serialization
private static final long serialVersionUID = 0;
}
}
// redeclare to help optimizers with b/310253115
@SuppressWarnings("RedundantOverride")
@Override
@J2ktIncompatible // serialization
@GwtIncompatible // serialization
Object writeReplace() {
return super.writeReplace();
}
// This class is never actually serialized directly, but we have to make the
// warning go away (and suppressing would suppress for all nested classes too)
@J2ktIncompatible // serialization
private static final long serialVersionUID = 0;
}